omnia h - ferroli · 2020. 4. 16. · 1. omnia h. reversible heat pump for split installation pompe...
TRANSCRIPT
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OMNIA HREVERSIBLE HEAT PUMP FOR SPLIT INSTALLATION POMPE DI CALORE ARIA-ACQUA PER INSTALLAZIONE SPLITTATA
RE
FRIGERANT G
AS
E
CO-FRIEND
LY
TECNICAL BULLETIN / BOLLETTINO TECNICOEN-IT
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NOTA: Declared according to European regulation 811/2013. The values are referred to units without options and accessories.
NOTA: Declared according to European regulation 2281/2016. The values are referred to units without options and accessories.
Seasonal efficiency in heating mode - Average climate / Efficienza stagionale in riscaldamento - Clima medioModel 04 06 08 10 12 12T 14 14T 16 16T UM
Efficiency class - medium temperature (water 55°C)Classe di efficienza - media temperatura (acqua prodotta 55°C) A++ A++ A++ A++ A++ A++ A++ A++ A++ A++ -
Seasonal efficiency - medium temperature (water 55°C)Efficienza stagionale - media temperatura (acqua prodotta 55°C) 127 130 125 127 127 128 128 130 128 130 %
Efficiency class - low temperature (water 35°C)Classe di efficienza - bassa temperatura (acqua prodotta 35°C) A++ A++ A++ A++ A++ A++ A++ A++ A++ A++ -
Seasonal efficiency - low temperature (water 35°C)Efficienza stagionale - bassa temperatura (acqua prodotta 35°C) 183 185 170 177 175 184 168 179 158 172 %
Seasonal efficiency in cooling mode - Average climate / Efficienza stagionale in raffreddamento - Clima medioModel 04 06 08 10 12 12T 14 14T 16 16T UM
Seasonal efficiency - medium temperature (water 18°C)Efficienza stagionale - media temperatura (acqua prodotta 18°C) 203 266 288 286 276 326 281 306 276 306 %
Seasonal efficiency - low temperature (water 7°C)Efficienza stagionale - bassa temperatura (acqua prodotta 7°C) 172 197 195 194 193 195 189 187 191 185 %
NOTA: Efficienza calcolata secondo regolamento Europeo 2281/2016. I valori si riferiscono ad unità prive di eventuali opzioni o accessori.
NOTA: Efficienza calcolata secondo regolamento Europeo 2281/2016. I valori si riferiscono ad unità prive di eventuali opzioni o accessori.
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PERFORMANCES - PRESTAZIONI . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4Performances data / Dati prestazionali Mod. 4. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4Performances data / Dati prestazionali Mod. 6. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5Performances data / Dati prestazionali Mod. 8. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6Performances data / Dati prestazionali Mod. 10. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7Performances data / Dati prestazionali Mod. 12. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8Performances data / Dati prestazionali Mod. 12T. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9Performances data / Dati prestazionali Mod. 14. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10Performances data / Dati prestazionali Mod. 14T. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11Performances data / Dati prestazionali Mod. 16. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 12Performances data / Dati prestazionali Mod. 16T. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13
ERP DATA (TDS = Technical data sheet ) / DATI ERP (TDS = foglio dati tecnici) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 14Mod. 04 - Heating mode - Average climate - Medium temperature (55°C) / Modo riscaldamento - Clima medio - Media temperatura (55°C) . . . . . . . . . . . . . . . . . . 14Mod. 04 - Heating mode - Colder climate - Medium temperature (55°C) / Modo riscaldamento - Clima più freddo - Media temperatura (55°C) . . . . . . . . . . . . . . . . 15Mod. 04 - Heating mode - Warmer climate - Medium temperature (55°C) / Modo riscaldamento - Clima più caldo - Media temperatura (55°C). . . . . . . . . . . . . . . . 16Mod. 04 - Cooling mode - Average climate - Medium temperature (18°C) / Modo raffreddamento - Clima medio - Media temperatura (18°C) . . . . . . . . . . . . . . . . . 17Mod. 04 - Cooling mode - Average climate - Low temperature (7°C) / Modo raffreddamento - Clima medio - Bassa temperatura (7°C) . . . . . . . . . . . . . . . . . . . . . . 18
Mod. 06 - Heating mode - Average climate - Medium temperature (55°C) / Modo riscaldamento - Clima medio - Media temperatura (55°C) . . . . . . . . . . . . . . . . . . 19Mod. 06 - Heating mode - Colder climate - Medium temperature (55°C) / Modo riscaldamento - Clima più freddo - Media temperatura (55°C) . . . . . . . . . . . . . . . . 20Mod. 06 - Heating mode - Warmer climate - Medium temperature (55°C) / Modo riscaldamento - Clima più caldo - Media temperatura (55°C). . . . . . . . . . . . . . . . 21Mod. 06 - Cooling mode - Average climate - Medium temperature (18°C) / Modo raffreddamento - Clima medio - Media temperatura (18°C) . . . . . . . . . . . . . . . . . 22Mod. 06 - Cooling mode - Average climate - Low temperature (7°C) / Modo raffreddamento - Clima medio - Bassa temperatura (7°C) . . . . . . . . . . . . . . . . . . . . . . 23
Mod. 08 - Heating mode - Average climate - Medium temperature (55°C) / Modo riscaldamento - Clima medio - Media temperatura (55°C) . . . . . . . . . . . . . . . . . . 24Mod. 08 - Heating mode - Colder climate - Medium temperature (55°C) / Modo riscaldamento - Clima più freddo - Media temperatura (55°C) . . . . . . . . . . . . . . . . 25Mod. 08 - Heating mode - Warmer climate - Medium temperature (55°C) / Modo riscaldamento - Clima più caldo - Media temperatura (55°C). . . . . . . . . . . . . . . . 26Mod. 08 - Cooling mode - Average climate - Medium temperature (18°C) / Modo raffreddamento - Clima medio - Media temperatura (18°C) . . . . . . . . . . . . . . . . . 27Mod. 08 - Cooling mode - Average climate - Low temperature (7°C) / Modo raffreddamento - Clima medio - Bassa temperatura (7°C) . . . . . . . . . . . . . . . . . . . . . . 28
Mod. 10 - Heating mode - Average climate - Medium temperature (55°C) / Modo riscaldamento - Clima medio - Media temperatura (55°C) . . . . . . . . . . . . . . . . . . 29Mod. 10 - Heating mode - Colder climate - Medium temperature (55°C) / Modo riscaldamento - Clima più freddo - Media temperatura (55°C) . . . . . . . . . . . . . . . . 30Mod. 10 - Heating mode - Warmer climate - Medium temperature (55°C) / Modo riscaldamento - Clima più caldo - Media temperatura (55°C). . . . . . . . . . . . . . . . 31Mod. 10 - Cooling mode - Average climate - Medium temperature (18°C) / Modo raffreddamento - Clima medio - Media temperatura (18°C) . . . . . . . . . . . . . . . . . 32Mod. 10 - Cooling mode - Average climate - Low temperature (7°C) / Modo raffreddamento - Clima medio - Bassa temperatura (7°C) . . . . . . . . . . . . . . . . . . . . . . 33
Mod. 12 - Heating mode - Average climate - Medium temperature (55°C) / Modo riscaldamento - Clima medio - Media temperatura (55°C) . . . . . . . . . . . . . . . . . . 34Mod. 12 - Heating mode - Colder climate - Medium temperature (55°C) / Modo riscaldamento - Clima più freddo - Media temperatura (55°C) . . . . . . . . . . . . . . . . 35Mod. 12 - Heating mode - Warmer climate - Medium temperature (55°C) / Modo riscaldamento - Clima più caldo - Media temperatura (55°C). . . . . . . . . . . . . . . . 36Mod. 12 - Cooling mode - Average climate - Medium temperature (18°C) / Modo raffreddamento - Clima medio - Media temperatura (18°C) . . . . . . . . . . . . . . . . . 37Mod. 12 - Cooling mode - Average climate - Low temperature (7°C) / Modo raffreddamento - Clima medio - Bassa temperatura (7°C) . . . . . . . . . . . . . . . . . . . . . . 38
Mod. 12T - Heating mode - Average climate - Medium temperature (55°C) / Modo riscaldamento - Clima medio - Media temperatura (55°C) . . . . . . . . . . . . . . . . . 39Mod. 12T - Heating mode - Colder climate - Medium temperature (55°C) / Modo riscaldamento - Clima più freddo - Media temperatura (55°C) . . . . . . . . . . . . . . . 40Mod. 12T - Heating mode - Warmer climate - Medium temperature (55°C) / Modo riscaldamento - Clima più caldo - Media temperatura (55°C). . . . . . . . . . . . . . . 41Mod. 12T - Cooling mode - Average climate - Medium temperature (18°C) / Modo raffreddamento - Clima medio - Media temperatura (18°C) . . . . . . . . . . . . . . . . 42Mod. 12T - Cooling mode - Average climate - Low temperature (7°C) / Modo raffreddamento - Clima medio - Bassa temperatura (7°C) . . . . . . . . . . . . . . . . . . . . . 43
Mod. 14 - Heating mode - Average climate - Medium temperature (55°C) / Modo riscaldamento - Clima medio - Media temperatura (55°C) . . . . . . . . . . . . . . . . . . 44Mod. 14 - Heating mode - Colder climate - Medium temperature (55°C) / Modo riscaldamento - Clima più freddo - Media temperatura (55°C) . . . . . . . . . . . . . . . . 45Mod. 14 - Heating mode - Warmer climate - Medium temperature (55°C) / Modo riscaldamento - Clima più caldo - Media temperatura (55°C). . . . . . . . . . . . . . . . 46Mod. 14 - Cooling mode - Average climate - Medium temperature (18°C) / Modo raffreddamento - Clima medio - Media temperatura (18°C) . . . . . . . . . . . . . . . . . 47Mod. 14 - Cooling mode - Average climate - Low temperature (7°C) / Modo raffreddamento - Clima medio - Bassa temperatura (7°C) . . . . . . . . . . . . . . . . . . . . . . 48
Mod. 14T - Heating mode - Average climate - Medium temperature (55°C) / Modo riscaldamento - Clima medio - Media temperatura (55°C) . . . . . . . . . . . . . . . . . 49Mod. 14T - Heating mode - Colder climate - Medium temperature (55°C) / Modo riscaldamento - Clima più freddo - Media temperatura (55°C) . . . . . . . . . . . . . . . 50Mod. 14T - Heating mode - Warmer climate - Medium temperature (55°C) / Modo riscaldamento - Clima più caldo - Media temperatura (55°C). . . . . . . . . . . . . . . 51Mod. 14T - Cooling mode - Average climate - Medium temperature (18°C) / Modo raffreddamento - Clima medio - Media temperatura (18°C) . . . . . . . . . . . . . . . . 52Mod. 14T - Cooling mode - Average climate - Low temperature (7°C) / Modo raffreddamento - Clima medio - Bassa temperatura (7°C) . . . . . . . . . . . . . . . . . . . . . 53
Mod. 16 - Heating mode - Average climate - Medium temperature (55°C) / Modo riscaldamento - Clima medio - Media temperatura (55°C) . . . . . . . . . . . . . . . . . . 54Mod. 16 - Heating mode - Colder climate - Medium temperature (55°C) / Modo riscaldamento - Clima più freddo - Media temperatura (55°C) . . . . . . . . . . . . . . . . 55Mod. 16 - Heating mode - Warmer climate - Medium temperature (55°C) / Modo riscaldamento - Clima più caldo - Media temperatura (55°C). . . . . . . . . . . . . . . . 56Mod. 16 - Cooling mode - Average climate - Medium temperature (18°C) / Modo raffreddamento - Clima medio - Media temperatura (18°C) . . . . . . . . . . . . . . . . . 57Mod. 16 - Cooling mode - Average climate - Low temperature (7°C) / Modo raffreddamento - Clima medio - Bassa temperatura (7°C) . . . . . . . . . . . . . . . . . . . . . . 58
Mod. 16T - Heating mode - Average climate - Medium temperature (55°C) / Modo riscaldamento - Clima medio - Media temperatura (55°C) . . . . . . . . . . . . . . . . . 59Mod. 16T - Heating mode - Colder climate - Medium temperature (55°C) / Modo riscaldamento - Clima più freddo - Media temperatura (55°C) . . . . . . . . . . . . . . . 60Mod. 16T - Heating mode - Warmer climate - Medium temperature (55°C) / Modo riscaldamento - Clima più caldo - Media temperatura (55°C). . . . . . . . . . . . . . . 61Mod. 16T - Cooling mode - Average climate - Medium temperature (18°C) / Modo raffreddamento - Clima medio - Media temperatura (18°C) . . . . . . . . . . . . . . . . 62Mod. 16T - Cooling mode - Average climate - Low temperature (7°C) / Modo raffreddamento - Clima medio - Bassa temperatura (7°C) . . . . . . . . . . . . . . . . . . . . . 63
SUMMARY - SOMMARIO
The manufacturer declines all responsibility for any inaccuracies in this manual due to printing or typing errors.The manufacturer reserves the right to modify the products contents in this catalogue without previous notice.
4
TW_o
ut 3
0°C
Ta[°C]
Potenza termica / Heating Capacity [kW] COP
TW_o
ut 2
2°C
Ta[°C]
Potenza frigorifera/Cooling Capacity [kW] EER130% 100% 90% 70% 50% 30% 130% 100% 90% 70% 50% 30% 130% 100% 90% 70% 50% 30% 130% 100% 90% 70% 50% 30%
-20 2,36 1,97 1,64 1,15 0,87 / 2,46 2,68 2,74 2,79 2,85 / 45 3,85 3,21 2,67 1,87 1,42 / 3,27 3,57 3,64 3,71 3,79 / -15 2,55 2,16 1,83 1,30 1,68 / 2,54 2,75 2,83 2,92 3,00 / 40 4,96 4,20 3,56 2,53 3,28 / 4,08 4,41 4,54 4,68 4,82 / -7 3,45 2,90 2,43 1,68 1,29 / 3,42 3,66 3,74 3,81 3,89 / 35 5,07 4,26 3,58 2,47 1,90 1,24 6,04 6,46 6,59 6,72 6,85 6,17 -2 4,49 3,87 3,34 2,47 1,83 1,28 3,84 4,30 4,43 4,57 4,70 4,28 30 5,09 4,39 3,79 2,80 2,07 1,45 6,15 6,89 7,10 7,31 7,53 6,85 2 4,79 4,10 3,50 2,59 1,97 1,34 4,27 4,66 4,90 5,16 5,44 5,06 25 5,12 4,38 3,74 2,77 2,10 1,43 7,03 7,67 8,07 8,50 8,95 8,32 7 5,22 4,39 3,69 2,69 1,94 1,28 4,87 5,41 5,57 5,74 5,91 5,44 20 4,74 3,98 3,34 2,44 1,76 1,16 8,13 9,02 9,29 9,57 9,86 9,07 15 5,54 4,82 4,19 2,97 2,17 1,45 6,91 7,60 7,90 8,22 8,55 7,78 15 4,63 4,02 3,50 2,48 1,81 1,21 8,29 9,11 9,48 9,86 10,25 9,33 20 5,34 4,45 3,71 2,75 1,98 1,21 7,70 8,31 8,48 8,65 8,82 8,12 10 4,70 3,91 3,26 2,41 1,74 1,06 8,54 9,22 9,40 9,59 9,78 9,00 25 5,12 4,45 3,87 2,90 2,06 1,30 8,77 9,21 9,49 9,77 10,07 9,36 5 4,82 4,19 3,65 2,73 1,94 1,22 8,67 9,11 9,38 9,66 9,95 9,26 30 5,71 4,88 4,17 3,09 2,13 1,32 10,28 10,90 11,01 11,12 11,23 10,11 0 4,72 4,03 3,45 2,55 1,76 1,09 9,26 9,82 9,92 10,02 10,12 9,10 35 6,13 5,19 4,40 3,17 2,15 1,36 11,34 11,68 11,80 11,92 12,04 10,71 -5 4,76 4,04 3,42 2,46 1,67 1,06 8,52 8,77 8,86 8,95 9,04 8,04
TW_o
ut 3
5°C
-20 2,29 1,91 1,59 1,11 0,85 / 2,22 2,42 2,47 2,52 2,57 /
TW_o
ut 1
8°C
45 3,28 2,74 2,28 1,60 1,21 / 2,87 3,13 3,20 3,26 3,33 / -15 2,36 2,00 1,69 1,20 1,56 / 2,16 2,34 2,41 2,48 2,55 / 40 4,41 3,73 3,16 2,25 2,91 / 3,18 3,43 3,53 3,64 3,75 / -7 3,39 2,85 2,39 1,65 1,27 / 2,79 2,98 3,04 3,10 3,16 / 35 4,43 4,10 3,45 2,38 1,83 1,19 4,56 4,88 4,98 5,08 5,18 4,66 -2 4,23 3,65 3,15 2,33 1,72 1,21 3,24 3,62 3,73 3,84 3,96 3,60 30 5,12 4,41 3,81 2,82 2,08 1,46 6,24 6,99 7,20 7,41 7,64 6,95 2 4,47 3,82 3,26 2,41 1,83 1,25 3,29 3,59 3,78 3,98 4,19 3,90 25 5,07 4,33 3,70 2,74 2,08 1,42 6,52 7,11 7,49 7,88 8,30 7,72 7 5,17 4,10 3,45 2,52 1,81 1,20 4,80 5,00 5,15 5,30 5,46 5,03 20 4,68 3,93 3,31 2,41 1,74 1,15 8,77 9,73 10,02 10,32 10,63 9,78
15 5,26 4,57 3,98 2,82 2,06 1,38 5,81 6,39 6,65 6,91 7,19 6,54 15 4,52 3,93 3,41 2,42 1,77 1,19 8,86 9,75 10,13 10,54 10,96 9,98 20 5,10 4,25 3,54 2,62 1,89 1,15 6,44 6,95 7,09 7,23 7,38 6,79 10 4,52 3,76 3,14 2,32 1,67 1,02 9,03 9,75 9,95 10,15 10,35 9,52 25 5,03 4,37 3,80 2,85 2,02 1,28 7,38 7,75 7,98 8,22 8,47 7,87 5 4,33 3,77 3,28 2,46 1,74 1,10 9,09 9,55 9,83 10,13 10,43 9,70 30 5,48 4,68 4,00 2,96 2,04 1,27 8,35 8,85 8,93 9,02 9,11 8,20 0 4,35 3,72 3,18 2,35 1,62 1,01 8,81 9,34 9,43 9,53 9,62 8,66 35 5,78 4,89 4,15 2,99 2,03 1,28 8,94 9,21 9,30 9,39 9,49 8,44 -5 4,34 3,68 3,11 2,24 1,52 0,96 9,31 9,58 9,68 9,78 9,88 8,79
TW_o
ut 4
0°C
-20 2,18 1,81 1,51 1,06 0,80 / 1,95 2,12 2,17 2,21 2,25 /
TW_o
ut 1
5°C
45 3,16 2,63 2,19 1,53 1,17 / 2,55 2,78 2,83 2,89 2,95 / -15 2,52 2,14 1,81 1,29 1,67 / 2,16 2,34 2,41 2,48 2,55 / 40 4,30 3,64 3,09 2,19 2,84 / 2,89 3,12 3,22 3,31 3,41 / -7 3,35 2,82 2,37 1,63 1,26 / 2,56 2,74 2,79 2,85 2,91 / 35 4,96 4,16 3,50 2,41 1,86 1,21 3,69 3,94 4,02 4,10 4,19 3,77 -2 3,91 3,37 2,90 2,15 1,59 / 2,83 3,17 3,27 3,37 3,47 / 30 5,07 4,37 3,76 2,79 2,06 1,44 4,01 4,50 4,63 4,77 4,91 4,47 2 4,09 3,49 2,98 2,21 1,68 1,14 2,77 3,02 3,18 3,35 3,53 3,28 25 4,79 4,09 3,50 2,59 1,97 1,34 5,81 6,33 6,66 7,02 7,39 6,87 7 4,68 3,94 3,31 2,41 1,74 1,15 3,71 4,12 4,24 4,37 4,50 4,14 20 4,35 3,66 3,08 2,24 1,62 1,07 6,38 7,08 7,29 7,51 7,73 7,11
15 4,49 3,90 3,39 2,41 1,76 1,18 5,00 5,50 5,72 5,95 6,19 5,63 15 4,30 3,73 3,25 2,31 1,68 1,13 7,65 8,41 8,75 9,10 9,46 8,61 20 4,06 3,38 2,82 2,09 1,50 0,92 5,66 6,12 6,24 6,36 6,49 5,97 10 4,26 3,55 2,96 2,19 1,57 0,96 7,36 7,95 8,11 8,27 8,44 7,76 25 4,42 3,85 3,35 2,51 1,78 1,12 6,24 6,56 6,75 6,96 7,16 6,66 5 4,30 3,74 3,25 2,44 1,73 1,09 7,57 7,94 8,18 8,43 8,68 8,07 30 4,87 4,16 3,56 2,63 1,82 1,13 7,03 7,45 7,52 7,60 7,67 6,91 0 3,64 3,11 2,66 1,97 1,36 0,84 7,59 8,05 8,13 8,21 8,29 7,46 35 5,20 4,40 3,73 2,69 1,83 1,15 7,65 7,88 7,95 8,03 8,11 7,22 -5 3,58 3,04 2,57 1,85 1,26 0,79 7,92 8,16 8,24 8,33 8,41 7,48
TW_o
ut 4
5°C
-20 / / / / / / / / / / / /
TW_o
ut 1
3°C
45 2,89 2,41 2,01 1,41 1,07 / 2,37 2,59 2,64 2,69 2,75 / -15 2,18 1,85 1,57 1,11 1,44 / 1,75 1,89 1,95 2,01 2,07 / 40 4,00 3,39 2,87 2,04 2,64 / 2,75 2,97 3,06 3,15 3,25 / -7 3,25 2,73 2,29 1,58 1,22 / 2,39 2,56 2,61 2,67 2,72 / 35 4,90 4,12 3,46 2,39 1,84 1,20 3,02 3,11 3,17 3,24 3,30 2,97 -2 3,70 3,19 2,75 2,04 1,51 / 2,64 2,96 3,05 3,14 3,23 / 30 4,87 4,20 3,62 2,68 1,98 1,39 4,05 4,54 4,67 4,81 4,96 4,51 2 4,25 3,63 3,10 2,30 1,75 / 2,84 3,10 3,26 3,43 3,61 / 25 4,68 4,00 3,42 2,53 1,92 1,31 4,77 5,20 5,47 5,76 6,07 5,64 7 4,90 4,01 3,37 2,46 1,77 1,17 3,18 3,55 3,66 3,77 3,88 3,57 20 3,71 3,12 2,62 1,91 1,38 0,91 6,57 7,29 7,51 7,73 7,97 7,33
15 3,52 3,06 2,66 1,89 1,38 0,92 4,35 4,79 4,98 5,18 5,39 4,90 15 3,13 2,72 2,37 1,68 1,23 0,82 6,43 7,08 7,36 7,65 7,96 7,24 20 3,51 2,93 2,44 1,80 1,30 0,79 4,91 5,31 5,41 5,52 5,63 5,18 10 3,23 2,69 2,24 1,66 1,19 0,73 6,40 6,92 7,05 7,20 7,34 6,75 25 3,71 3,23 2,81 2,11 1,50 0,94 5,25 5,52 5,68 5,85 6,03 5,61 5 3,31 2,88 2,50 1,88 1,33 0,84 6,52 6,84 7,05 7,26 7,48 6,96 30 3,50 2,99 2,55 1,89 1,30 0,81 5,86 6,21 6,27 6,34 6,40 5,76 0 3,23 2,76 2,36 1,75 1,21 0,75 6,56 6,96 7,03 7,10 7,17 6,45 35 3,45 2,93 2,48 1,79 1,21 0,77 5,80 5,97 6,03 6,09 6,15 5,48 -5 3,17 2,69 2,28 1,64 1,12 0,70 6,63 6,83 6,90 6,97 7,04 6,26
TW_o
ut 5
0°C
-20 / / / / / / / / / / / /
TW_o
ut 1
0°C
45 2,48 2,06 1,72 1,20 0,92 / 2,09 2,27 2,32 2,36 2,41 / -15 / / / / / / / / / / / / 40 3,57 3,03 2,57 1,82 2,36 / 2,54 2,74 2,83 2,91 3,00 / -7 2,61 2,20 1,85 1,27 0,98 / 2,00 2,14 2,18 2,22 2,27 / 35 4,48 4,70 3,95 2,73 2,10 1,36 2,84 3,05 3,11 3,17 3,24 2,91 -2 3,10 2,68 2,31 1,71 1,26 / 2,14 2,40 2,47 2,55 2,62 / 30 4,63 3,99 3,44 2,54 1,88 1,32 3,20 3,58 3,69 3,80 3,91 3,56 2 3,54 3,03 2,59 1,91 1,45 / 2,52 2,75 2,90 3,05 3,21 / 25 4,35 3,72 3,18 2,35 1,79 1,21 4,67 5,09 5,36 5,64 5,94 5,53 7 3,92 3,30 2,77 2,02 1,46 / 2,71 3,00 3,09 3,19 3,28 / 20 3,22 2,70 2,27 1,66 1,19 0,79 5,48 6,09 6,27 6,46 6,65 6,12
15 2,98 2,59 2,26 1,60 1,17 / 3,73 4,10 4,27 4,44 4,62 / 15 2,84 2,47 2,14 1,52 1,11 0,74 5,92 6,51 6,77 7,04 7,32 6,66 20 3,05 2,54 2,12 1,57 1,13 / 4,08 4,40 4,49 4,58 4,67 / 10 2,85 2,37 1,98 1,46 1,05 0,64 5,86 6,33 6,46 6,59 6,72 6,18 25 2,98 2,59 2,25 1,69 1,20 / 4,32 4,54 4,67 4,81 4,96 / 5 2,89 2,51 2,18 1,64 1,16 0,73 5,83 6,12 6,31 6,50 6,69 6,22 30 3,30 2,82 2,41 1,78 1,23 / 4,86 5,15 5,20 5,26 5,31 / 0 2,93 2,51 2,14 1,59 1,09 0,68 6,05 6,42 6,48 6,54 6,61 5,95 35 3,28 2,78 2,36 1,70 1,15 / 4,84 4,99 5,04 5,09 5,14 / -5 2,88 2,44 2,07 1,49 1,01 0,64 6,08 6,26 6,33 6,39 6,45 5,74
TW_o
ut 5
5°C
-20 / / / / / / / / / / / /
TW_o
ut 7
°C
45 2,05 1,71 1,43 1,00 0,76 / 1,78 1,94 1,98 2,02 2,06 / -15 / / / / / / / / / / / / 40 3,09 2,62 2,22 1,58 2,04 / 2,26 2,44 2,51 2,59 2,67 / -7 2,47 2,08 1,74 1,20 0,93 / 1,91 2,04 2,08 2,13 2,17 / 35 4,89 4,12 3,46 2,39 1,84 1,32 2,90 3,17 3,23 3,30 3,36 3,03 -2 2,72 2,35 2,02 1,50 1,11 / 2,33 2,61 2,69 2,77 2,85 / 30 4,39 3,79 3,26 2,42 1,79 1,25 3,13 3,51 3,62 3,72 3,84 3,49 2 2,83 2,42 2,07 1,53 1,16 / 2,24 2,45 2,58 2,71 2,86 / 25 3,53 3,02 2,58 1,91 1,45 0,99 4,43 4,82 5,08 5,35 5,63 5,24 7 3,16 2,65 2,23 1,63 1,17 / 2,60 2,89 2,97 3,06 3,15 / 20 2,26 1,90 1,60 1,17 0,84 0,55 4,25 4,71 4,86 5,00 5,15 4,74
15 2,01 1,75 1,52 1,08 0,79 / 3,06 3,37 3,50 3,64 3,79 / 15 2,14 1,86 1,62 1,15 0,84 0,56 3,62 3,99 4,15 4,31 4,48 4,08 20 1,91 1,59 1,32 0,98 0,71 / 3,14 3,39 3,46 3,53 3,60 / 10 / / / / / / / / / / / / 25 1,76 1,53 1,33 1,00 0,71 / 3,24 3,41 3,51 3,61 3,72 / 5 / / / / / / / / / / / / 30 1,84 1,57 1,35 1,00 0,69 / 3,47 3,68 3,72 3,75 3,79 / 0 / / / / / / / / / / / / 35 2,64 2,24 1,90 1,37 0,93 / 4,10 4,22 4,27 4,31 4,35 / -5 / / / / / / / / / / / /
TW_o
ut 6
0°C
-20 / / / / / / / / / / / /
/
/ / / / / / / / / / / / / -15 / / / / / / / / / / / / / / / / / / / / / / / / / -7 / / / / / / / / / / / / / / / / / / / / / / / / / -2 2,40 2,07 1,78 1,32 0,98 / 1,87 2,09 2,16 2,22 2,29 / / / / / / / / / / / / / / 2 2,61 2,23 1,91 1,41 1,07 / 2,08 2,27 2,39 2,51 2,65 / / / / / / / / / / / / / / 7 2,89 2,43 2,04 1,49 1,07 / 2,77 3,08 3,17 3,26 3,36 / / / / / / / / / / / / / /
15 1,91 1,66 1,44 1,02 0,75 / 2,41 2,65 2,76 2,87 2,99 / / / / / / / / / / / / / / 20 1,85 1,54 1,29 0,95 0,69 / 2,82 3,05 3,11 3,17 3,23 / / / / / / / / / / / / / / 25 1,80 1,56 1,36 1,02 0,72 / 2,97 3,12 3,21 3,31 3,40 / / / / / / / / / / / / / / 30 1,76 1,51 1,29 0,95 0,66 / 3,18 3,37 3,40 3,43 3,47 / / / / / / / / / / / / / / 35 / / / / / / / / / / / / / / / / / / / / / / / / /
Performances data / Dati prestazionali Mod. 4
PERFORMANCES - PRESTAZIONI
The values are referred to units without options and accessories. Data declared according to EN 14511:EER (Energy Efficiency Ratio) = ratio of the total cooling capacity to the effective power input of the unitCOP (Coefficient Of Performance) = ratio of the total heating capacity to the effective power input of the unitTW_out Leaving water temperatureTa outdoor air temperature
I valori si riferiscono ad unità prive di eventuali opzioni o accessori. Dati dichiarati secondo EN 14511:EER (Energy Efficiency Ratio) = rapporto potenza frigorifera su potenza assorbitaCOP (Coefficient Of Performance) = rapporto potenza termica su potenza assorbitaTW_out temperatura acqua prodottaTa temperatura aria esterna
5
TW_o
ut 3
0°C
Ta[°C]
Potenza termica / Heating Capacity [kW] COP
TW_o
ut 2
2°C
Ta[°C]
Potenza frigorifera/Cooling Capacity [kW] EER130% 100% 90% 70% 50% 30% 130% 100% 90% 70% 50% 30% 130% 100% 90% 70% 50% 30% 130% 100% 90% 70% 50% 30%
-20 3,51 2,92 2,44 1,71 1,30 / 2,33 2,54 2,59 2,64 2,69 / 45 5,82 4,85 4,04 2,83 2,15 / 2,91 3,17 3,24 3,30 3,37 / -15 3,79 3,21 2,72 1,93 2,51 / 2,41 2,60 2,68 2,76 2,84 / 40 7,50 6,35 5,38 3,82 4,96 / 3,63 3,92 4,04 4,16 4,28 / -7 5,13 4,31 3,62 2,50 1,92 / 3,24 3,47 3,54 3,61 3,68 / 35 7,66 6,44 5,41 3,73 2,87 1,87 5,37 5,74 5,86 5,98 6,10 5,49 -2 6,68 5,76 4,96 3,67 2,72 1,90 3,63 4,07 4,19 4,32 4,45 4,05 30 7,70 6,64 5,72 4,24 3,13 2,19 5,47 6,13 6,31 6,50 6,69 6,09 2 7,13 6,10 5,21 3,86 2,93 1,99 4,04 4,41 4,64 4,89 5,14 4,78 25 7,74 6,62 5,66 4,19 3,18 2,16 6,26 6,82 7,18 7,56 7,96 7,40 7 7,77 6,53 5,49 4,00 2,88 1,90 4,61 5,11 5,27 5,43 5,59 5,14 20 7,16 6,02 5,06 3,69 2,66 1,75 7,23 8,03 8,27 8,51 8,77 8,07 15 8,24 7,17 6,23 4,43 3,23 2,16 6,53 7,19 7,48 7,77 8,09 7,36 15 6,99 6,08 5,29 3,76 2,74 1,84 7,37 8,11 8,43 8,77 9,12 8,30 20 7,95 6,63 5,52 4,09 2,94 1,79 7,28 7,87 8,02 8,18 8,35 7,68 10 7,10 5,92 4,93 3,65 2,63 1,60 7,59 8,20 8,36 8,53 8,70 8,01 25 7,62 6,63 5,76 4,32 3,07 1,93 8,30 8,71 8,98 9,25 9,52 8,86 5 7,29 6,34 5,51 4,13 2,94 1,85 7,71 8,10 8,34 8,59 8,85 8,23 30 8,50 7,26 6,21 4,59 3,17 1,96 9,73 10,31 10,42 10,52 10,63 9,56 0 7,13 6,10 5,21 3,86 2,66 1,65 8,24 8,73 8,82 8,91 9,00 8,10 35 9,12 7,73 6,55 4,71 3,21 2,02 10,73 11,05 11,16 11,27 11,39 10,13 -5 7,20 6,10 5,17 3,72 2,53 1,60 7,58 7,80 7,88 7,96 8,04 7,15
TW_o
ut 3
5°C
-20 3,40 2,84 2,36 1,65 1,26 / 2,10 2,29 2,34 2,39 2,43 /
TW_o
ut 1
8°C
45 4,97 4,14 3,45 2,41 1,84 / 2,56 2,79 2,84 2,90 2,96 / -15 3,51 2,98 2,52 1,79 2,32 / 2,05 2,21 2,28 2,35 2,42 / 40 6,66 5,65 4,78 3,40 4,40 / 2,82 3,05 3,14 3,24 3,33 / -7 5,04 4,23 3,56 2,45 1,89 / 2,64 2,82 2,88 2,93 2,99 / 35 6,71 6,20 5,21 3,59 2,77 1,80 4,05 4,34 4,43 4,52 4,61 4,15 -2 6,30 5,43 4,68 3,46 2,56 1,79 3,06 3,43 3,53 3,64 3,75 3,41 30 7,74 6,68 5,76 4,26 3,15 2,21 5,55 6,21 6,40 6,59 6,79 6,18 2 6,65 5,68 4,85 3,59 2,73 1,86 3,12 3,40 3,58 3,77 3,97 3,69 25 7,66 6,55 5,60 4,14 3,15 2,14 5,80 6,32 6,66 7,01 7,38 6,87 7 7,69 6,10 5,13 3,74 2,69 1,78 4,54 4,73 4,87 5,02 5,17 4,76 20 7,08 5,95 5,00 3,65 2,63 1,73 7,80 8,65 8,91 9,18 9,46 8,70
15 7,82 6,80 5,92 4,20 3,07 2,05 5,50 6,05 6,29 6,54 6,80 6,19 15 6,83 5,94 5,16 3,67 2,68 1,79 7,88 8,67 9,01 9,37 9,75 8,87 20 7,59 6,32 5,27 3,90 2,81 1,71 6,09 6,58 6,71 6,84 6,98 6,42 10 6,83 5,69 4,74 3,51 2,53 1,54 8,03 8,67 8,85 9,02 9,21 8,47 25 7,48 6,51 5,66 4,24 3,01 1,90 6,98 7,33 7,55 7,78 8,01 7,45 5 6,55 5,70 4,96 3,72 2,64 1,66 8,09 8,49 8,74 9,01 9,28 8,63 30 8,15 6,97 5,96 4,41 3,04 1,89 7,89 8,37 8,45 8,54 8,62 7,76 0 6,58 5,62 4,81 3,56 2,45 1,52 7,84 8,31 8,39 8,47 8,56 7,70 35 8,59 7,28 6,17 4,44 3,02 1,90 8,46 8,71 8,80 8,89 8,98 7,99 -5 6,56 5,56 4,71 3,39 2,31 1,45 8,28 8,52 8,61 8,70 8,78 7,82
TW_o
ut 4
0°C
-20 3,24 2,70 2,25 1,57 1,20 / 1,84 2,01 2,05 2,09 2,13 /
TW_o
ut 1
5°C
45 4,77 3,98 3,31 2,32 1,76 / 2,27 2,47 2,52 2,57 2,62 / -15 3,75 3,18 2,70 1,91 2,48 / 2,05 2,21 2,28 2,35 2,42 / 40 6,50 5,51 4,67 3,31 4,30 / 2,57 2,78 2,86 2,95 3,03 / -7 4,98 4,19 3,52 2,43 1,87 / 2,42 2,59 2,64 2,70 2,75 / 35 7,49 6,30 5,29 3,65 2,81 1,83 3,28 3,51 3,58 3,65 3,72 3,35 -2 5,81 5,01 4,32 3,20 2,36 / 2,68 3,00 3,09 3,18 3,28 / 30 7,66 6,60 5,69 4,21 3,12 2,18 3,57 4,00 4,12 4,24 4,37 3,98 2 6,08 5,19 4,44 3,29 2,50 1,70 2,62 2,86 3,01 3,17 3,34 3,11 25 7,24 6,19 5,29 3,92 2,98 2,02 5,16 5,63 5,93 6,24 6,57 6,11 7 6,97 5,86 4,92 3,59 2,59 1,71 3,51 3,90 4,01 4,13 4,26 3,92 20 6,59 5,53 4,65 3,39 2,44 1,61 5,67 6,29 6,48 6,68 6,88 6,33
15 6,68 5,80 5,05 3,58 2,62 1,75 4,73 5,20 5,41 5,63 5,85 5,33 15 6,50 5,65 4,91 3,49 2,55 1,71 6,80 7,48 7,78 8,09 8,42 7,66 20 6,04 5,04 4,20 3,11 2,24 1,36 5,36 5,79 5,90 6,02 6,14 5,65 10 6,44 5,36 4,47 3,31 2,38 1,45 6,55 7,07 7,21 7,36 7,50 6,90 25 6,58 5,72 4,98 3,73 2,65 1,67 5,91 6,20 6,39 6,58 6,78 6,30 5 6,50 5,66 4,92 3,69 2,62 1,65 6,73 7,07 7,28 7,50 7,72 7,18 30 7,24 6,19 5,29 3,91 2,70 1,67 6,65 7,05 7,12 7,19 7,26 6,53 0 5,50 4,70 4,02 2,97 2,05 1,27 6,75 7,16 7,23 7,30 7,37 6,64 35 7,73 6,55 5,55 4,00 2,72 1,71 7,23 7,45 7,52 7,60 7,68 6,83 -5 5,42 4,59 3,89 2,80 1,91 1,20 7,05 7,26 7,33 7,40 7,48 6,66
TW_o
ut 4
5°C
-20 / / / / / / / / / / / /
TW_o
ut 1
3°C
45 4,38 3,65 3,04 2,13 1,62 / 2,11 2,30 2,35 2,39 2,44 / -15 3,24 2,75 2,33 1,65 2,14 / 1,66 1,79 1,85 1,90 1,96 / 40 6,04 5,12 4,34 3,08 3,99 / 2,45 2,64 2,72 2,80 2,89 / -7 4,83 4,06 3,41 2,35 1,81 / 2,26 2,42 2,47 2,52 2,57 / 35 7,41 6,23 5,23 3,61 2,78 1,81 2,68 3,11 3,17 3,24 3,30 2,97 -2 5,51 4,75 4,10 3,03 2,24 / 2,50 2,80 2,88 2,97 3,06 / 30 7,36 6,34 5,47 4,05 3,00 2,10 3,60 4,03 4,15 4,28 4,41 4,01 2 6,32 5,40 4,62 3,42 2,60 / 2,69 2,93 3,08 3,25 3,42 / 25 7,08 6,05 5,17 3,83 2,91 1,98 4,24 4,62 4,87 5,13 5,40 5,02 7 7,29 5,96 5,01 3,66 2,63 1,74 3,01 3,55 3,66 3,77 3,88 3,57 20 5,61 4,72 3,96 2,89 2,08 1,37 5,84 6,48 6,68 6,88 7,08 6,52
15 5,24 4,55 3,96 2,81 2,05 1,37 4,12 4,53 4,71 4,90 5,10 4,64 15 4,73 4,12 3,58 2,54 1,85 1,24 5,72 6,29 6,55 6,81 7,08 6,44 20 5,22 4,35 3,63 2,68 1,93 1,18 4,65 5,02 5,12 5,22 5,33 4,90 10 4,88 4,07 3,39 2,51 1,81 1,10 5,69 6,15 6,27 6,40 6,53 6,00 25 5,53 4,80 4,18 3,13 2,22 1,40 4,97 5,22 5,38 5,54 5,70 5,30 5 5,00 4,35 3,78 2,84 2,01 1,27 5,80 6,09 6,27 6,46 6,65 6,19 30 5,20 4,45 3,80 2,81 1,94 1,20 5,54 5,88 5,93 5,99 6,05 5,45 0 4,89 4,18 3,57 2,64 1,82 1,13 5,84 6,19 6,25 6,31 6,37 5,74 35 5,14 4,36 3,69 2,66 1,81 1,14 5,48 5,65 5,70 5,76 5,82 5,18 -5 4,80 4,07 3,45 2,48 1,69 1,06 5,90 6,08 6,14 6,20 6,26 5,57
TW_o
ut 5
0°C
-20 / / / / / / / / / / / /
TW_o
ut 1
0°C
45 3,75 3,12 2,60 1,82 1,38 / 1,85 2,02 2,06 2,10 2,15 / -15 / / / / / / / / / / / / 40 5,40 4,58 3,88 2,75 3,57 / 2,26 2,44 2,51 2,59 2,67 / -7 3,89 3,27 2,75 1,90 1,46 / 1,89 2,02 2,06 2,10 2,15 / 35 6,78 4,70 3,95 2,73 2,10 1,36 2,53 3,05 3,11 3,17 3,24 2,91 -2 4,62 3,98 3,43 2,54 1,88 / 2,03 2,27 2,34 2,41 2,48 / 30 6,99 6,03 5,20 3,85 2,85 1,99 2,84 3,18 3,28 3,38 3,48 3,17 2 5,27 4,50 3,85 2,85 2,16 / 2,39 2,60 2,74 2,89 3,04 / 25 6,58 5,62 4,80 3,55 2,70 1,84 4,15 4,53 4,77 5,02 5,28 4,91 7 5,83 4,90 4,12 3,01 2,17 / 2,56 2,84 2,93 3,01 3,11 / 20 4,87 4,09 3,44 2,51 1,81 1,19 4,88 5,41 5,57 5,74 5,91 5,44
15 4,44 3,86 3,36 2,38 1,74 / 3,53 3,88 4,04 4,20 4,37 / 15 4,29 3,73 3,24 2,30 1,68 1,13 5,26 5,79 6,02 6,26 6,51 5,93 20 4,54 3,78 3,15 2,33 1,68 / 3,86 4,17 4,25 4,34 4,42 / 10 4,30 3,59 2,99 2,21 1,59 0,97 5,21 5,63 5,74 5,86 5,98 5,50 25 4,43 3,85 3,35 2,51 1,78 / 4,09 4,29 4,42 4,55 4,69 / 5 4,37 3,80 3,30 2,48 1,76 1,11 5,19 5,45 5,61 5,78 5,95 5,54 30 4,91 4,20 3,59 2,65 1,83 / 4,60 4,87 4,92 4,97 5,02 / 0 4,43 3,79 3,24 2,40 1,65 1,03 5,38 5,71 5,76 5,82 5,88 5,29 35 4,89 4,14 3,51 2,53 1,72 / 4,58 4,72 4,77 4,81 4,86 / -5 4,36 3,69 3,13 2,25 1,53 0,96 5,41 5,57 5,63 5,68 5,74 5,11
TW_o
ut 5
5°C
-20 / / / / / / / / / / / /
TW_o
ut 7
°C
45 3,11 2,59 2,16 1,51 1,15 / 1,58 1,72 1,76 1,79 1,83 / -15 / / / / / / / / / / / / 40 4,67 3,96 3,36 2,38 3,09 / 2,01 2,17 2,24 2,30 2,37 / -7 3,67 3,09 2,59 1,79 1,38 / 1,81 1,93 1,97 2,01 2,05 / 35 7,40 6,15 5,17 3,57 2,75 1,98 2,58 2,96 3,02 3,08 3,14 2,83 -2 4,05 3,49 3,01 2,23 1,65 / 2,20 2,47 2,54 2,62 2,70 / 30 6,64 5,73 4,94 3,65 2,70 1,89 2,79 3,12 3,22 3,31 3,41 3,10 2 4,21 3,60 3,08 2,28 1,73 / 2,12 2,31 2,44 2,57 2,70 / 25 5,34 4,56 3,90 2,89 2,19 1,49 3,94 4,29 4,52 4,76 5,01 4,66 7 4,70 3,95 3,32 2,42 1,74 / 2,46 2,73 2,81 2,90 2,98 / 20 3,42 2,87 2,42 1,76 1,27 0,84 3,78 4,19 4,32 4,45 4,58 4,21
15 2,99 2,60 2,26 1,60 1,17 / 2,90 3,19 3,31 3,45 3,58 / 15 3,23 2,81 2,44 1,73 1,27 0,85 3,22 3,55 3,69 3,84 3,99 3,63 20 2,84 2,36 1,97 1,46 1,05 / 2,97 3,21 3,27 3,33 3,40 / 10 / / / / / / / / / / / / 25 2,61 2,27 1,97 1,48 1,05 / 3,07 3,22 3,32 3,42 3,52 / 5 / / / / / / / / / / / / 30 2,74 2,34 2,00 1,48 1,02 / 3,28 3,48 3,52 3,55 3,59 / 0 / / / / / / / / / / / / 35 3,93 3,33 2,83 2,03 1,38 / 3,88 4,00 4,04 4,08 4,12 / -5 / / / / / / / / / / / /
TW_o
ut 6
0°C
-20 / / / / / / / / / / / /
/
/ / / / / / / / / / / / / -15 / / / / / / / / / / / / / / / / / / / / / / / / / -7 / / / / / / / / / / / / / / / / / / / / / / / / / -2 3,57 3,07 2,65 1,96 1,45 / 1,77 1,98 2,04 2,10 2,16 / / / / / / / / / / / / / / 2 3,89 3,32 2,84 2,10 1,60 / 1,97 2,14 2,26 2,38 2,50 / / / / / / / / / / / / / / 7 4,30 3,61 3,03 2,21 1,59 / 2,62 2,91 3,00 3,09 3,18 / / / / / / / / / / / / / /
15 2,84 2,47 2,14 1,52 1,11 / 2,28 2,51 2,61 2,72 2,82 / / / / / / / / / / / / / / 20 2,76 2,30 1,91 1,42 1,02 / 2,67 2,88 2,94 3,00 3,06 / / / / / / / / / / / / / / 25 2,67 2,33 2,02 1,52 1,08 / 2,81 2,95 3,04 3,13 3,22 / / / / / / / / / / / / / / 30 2,62 2,24 1,92 1,42 0,98 / 3,00 3,18 3,22 3,25 3,28 / / / / / / / / / / / / / / 35 / / / / / / / / / / / / / / / / / / / / / / / / /
Performances data / Dati prestazionali Mod. 6
PERFORMANCES - PRESTAZIONI
The values are referred to units without options and accessories. Data declared according to EN 14511:EER (Energy Efficiency Ratio) = ratio of the total cooling capacity to the effective power input of the unitCOP (Coefficient Of Performance) = ratio of the total heating capacity to the effective power input of the unitTW_out Leaving water temperatureTa outdoor air temperature
I valori si riferiscono ad unità prive di eventuali opzioni o accessori. Dati dichiarati secondo EN 14511:EER (Energy Efficiency Ratio) = rapporto potenza frigorifera su potenza assorbitaCOP (Coefficient Of Performance) = rapporto potenza termica su potenza assorbitaTW_out temperatura acqua prodottaTa temperatura aria esterna
6
TW_o
ut 3
0°C
Ta[°C]
Potenza termica / Heating Capacity [kW] COP
TW_o
ut 2
2°C
Ta[°C]
Potenza frigorifera/Cooling Capacity [kW] EER130% 100% 90% 70% 50% 30% 130% 100% 90% 70% 50% 30% 130% 100% 90% 70% 50% 30% 130% 100% 90% 70% 50% 30%
-20 4,60 3,83 3,20 2,24 1,70 / 2,28 2,48 2,53 2,58 2,63 / 45 7,51 6,26 5,22 3,65 2,78 / 2,78 3,04 3,10 3,16 3,22 / -15 4,97 4,21 3,57 2,54 3,29 / 2,35 2,54 2,62 2,69 2,78 / 40 9,67 8,20 6,95 4,93 6,39 / 3,47 3,75 3,86 3,98 4,10 / -7 6,72 5,65 4,75 3,28 2,52 / 3,16 3,39 3,45 3,52 3,59 / 35 9,89 8,31 6,98 4,82 3,71 2,41 5,13 5,49 5,60 5,71 5,83 5,25 -2 8,76 7,55 6,51 4,82 3,56 2,49 3,55 3,98 4,10 4,22 4,34 3,95 30 9,94 8,57 7,39 5,47 4,04 2,83 5,23 5,86 6,03 6,22 6,40 5,83 2 9,35 7,99 6,83 5,06 3,84 2,61 3,95 4,30 4,53 4,77 5,02 4,67 25 9,99 8,54 7,30 5,40 4,11 2,79 5,98 6,52 6,87 7,23 7,61 7,08 7 10,19 8,56 7,19 5,25 3,78 2,50 4,50 5,00 5,15 5,30 5,46 5,02 20 9,24 7,77 6,53 4,76 3,43 2,26 6,91 7,67 7,90 8,14 8,39 7,71 15 10,81 9,40 8,17 5,80 4,24 2,84 6,38 7,02 7,30 7,59 7,90 7,19 15 9,03 7,85 6,82 4,85 3,54 2,37 7,05 7,75 8,06 8,38 8,72 7,93 20 10,43 8,69 7,24 5,36 3,86 2,35 7,11 7,68 7,84 7,99 8,15 7,50 10 9,16 7,64 6,36 4,71 3,39 2,07 7,26 7,84 8,00 8,16 8,32 7,66 25 9,99 8,69 7,56 5,67 4,02 2,54 8,11 8,51 8,77 9,03 9,30 8,65 5 9,41 8,18 7,11 5,33 3,79 2,39 7,38 7,75 7,98 8,22 8,46 7,87 30 11,14 9,52 8,14 6,02 4,16 2,58 9,50 10,07 10,17 10,28 10,38 9,34 0 9,20 7,87 6,72 4,97 3,43 2,13 7,88 8,35 8,43 8,52 8,60 7,74 35 11,96 10,13 8,59 6,18 4,20 2,65 10,48 10,79 10,90 11,01 11,12 9,90 -5 9,29 7,88 6,67 4,81 3,27 2,06 7,24 7,46 7,54 7,61 7,69 6,84
TW_o
ut 3
5°C
-20 4,46 3,72 3,10 2,17 1,65 / 2,06 2,24 2,29 2,33 2,38 /
TW_o
ut 1
8°C
45 6,41 5,34 4,45 3,12 2,37 / 2,44 2,66 2,72 2,77 2,83 / -15 4,60 3,90 3,31 2,35 3,04 / 2,00 2,16 2,22 2,29 2,36 / 40 8,60 7,28 6,17 4,38 5,68 / 2,70 2,92 3,00 3,09 3,19 / -7 6,61 5,55 4,67 3,22 2,48 / 2,57 2,75 2,81 2,87 2,92 / 35 8,65 8,00 6,72 4,64 3,57 2,32 3,87 4,15 4,23 4,32 4,40 3,96 -2 8,26 7,12 6,14 4,54 3,36 2,35 2,99 3,35 3,45 3,55 3,66 3,33 30 9,99 8,61 7,43 5,50 4,07 2,85 5,31 5,94 6,12 6,30 6,49 5,91 2 8,71 7,45 6,37 4,71 3,58 2,43 3,04 3,32 3,49 3,68 3,87 3,60 25 9,89 8,45 7,22 5,34 4,06 2,76 5,55 6,05 6,37 6,70 7,06 6,57 7 10,09 8,00 6,72 4,91 3,53 2,33 4,43 4,62 4,76 4,90 5,05 4,64 20 9,13 7,67 6,45 4,71 3,39 2,24 7,45 8,27 8,52 8,78 9,04 8,32
15 10,26 8,92 7,76 5,51 4,02 2,69 5,37 5,91 6,14 6,39 6,64 6,04 15 8,81 7,66 6,66 4,73 3,45 2,31 7,53 8,29 8,62 8,96 9,32 8,48 20 9,95 8,29 6,91 5,11 3,68 2,25 5,95 6,42 6,55 6,68 6,82 6,27 10 8,81 7,34 6,12 4,53 3,26 1,99 7,68 8,29 8,46 8,63 8,80 8,10 25 9,81 8,53 7,42 5,56 3,95 2,49 6,82 7,16 7,37 7,60 7,82 7,28 5 8,46 7,35 6,39 4,80 3,40 2,15 7,73 8,12 8,36 8,61 8,87 8,25 30 10,69 9,14 7,81 5,78 3,99 2,47 7,71 8,17 8,26 8,34 8,42 7,58 0 8,49 7,26 6,20 4,59 3,17 1,96 7,49 7,94 8,02 8,10 8,18 7,37 35 11,27 9,55 8,09 5,83 3,96 2,50 8,26 8,51 8,59 8,68 8,77 7,80 -5 8,46 7,17 6,08 4,38 2,98 1,87 7,91 8,15 8,23 8,31 8,40 7,47
TW_o
ut 4
0°C
-20 4,25 3,54 2,95 2,07 1,57 / 1,80 1,96 2,00 2,04 2,08 /
TW_o
ut 1
5°C
45 6,16 5,13 4,28 2,99 2,27 / 2,17 2,36 2,41 2,46 2,51 / -15 4,92 4,17 3,54 2,51 3,25 / 2,00 2,16 2,22 2,29 2,36 / 40 8,38 7,11 6,02 4,28 5,54 / 2,46 2,66 2,73 2,82 2,90 / -7 6,54 5,49 4,62 3,19 2,45 / 2,37 2,53 2,58 2,63 2,69 / 35 9,67 8,13 6,83 4,71 3,63 2,36 3,13 3,35 3,42 3,49 3,56 3,20 -2 7,62 6,57 5,66 4,19 3,10 / 2,62 2,93 3,02 3,11 3,20 / 30 9,89 8,52 7,35 5,44 4,02 2,82 3,41 3,82 3,94 4,06 4,18 3,80 2 7,97 6,81 5,82 4,31 3,27 2,23 2,56 2,79 2,94 3,10 3,26 3,03 25 9,35 7,99 6,83 5,05 3,84 2,61 4,94 5,38 5,67 5,97 6,28 5,84 7 9,14 7,68 6,45 4,71 3,39 2,24 3,43 3,81 3,92 4,04 4,16 3,83 20 8,50 7,14 6,00 4,38 3,15 2,08 5,42 6,02 6,20 6,39 6,58 6,05
15 8,75 7,61 6,62 4,70 3,43 2,30 4,62 5,08 5,29 5,50 5,72 5,20 15 8,38 7,29 6,34 4,50 3,28 2,20 6,50 7,15 7,44 7,74 8,05 7,32 20 7,92 6,60 5,50 4,07 2,93 1,79 5,23 5,65 5,76 5,88 6,00 5,52 10 8,30 6,92 5,77 4,27 3,07 1,87 6,26 6,76 6,90 7,03 7,18 6,60 25 8,63 7,51 6,53 4,90 3,48 2,19 5,77 6,06 6,24 6,43 6,62 6,16 5 8,39 7,30 6,35 4,76 3,38 2,13 6,43 6,76 6,96 7,17 7,38 6,87 30 9,50 8,12 6,94 5,13 3,54 2,20 6,49 6,88 6,95 7,02 7,09 6,38 0 7,10 6,07 5,18 3,84 2,65 1,64 6,46 6,84 6,91 6,98 7,05 6,35 35 10,14 8,59 7,28 5,24 3,57 2,25 7,07 7,28 7,35 7,42 7,50 6,67 -5 6,99 5,93 5,02 3,62 2,46 1,55 6,74 6,94 7,01 7,08 7,15 6,36
TW_o
ut 4
5°C
-20 / / / / / / / / / / / /
TW_o
ut 1
3°C
45 5,65 4,70 3,92 2,74 2,09 / 2,02 2,20 2,25 2,29 2,34 / -15 4,25 3,61 3,06 2,17 2,81 / 1,62 1,75 1,80 1,86 1,91 / 40 7,80 6,61 5,60 3,98 5,15 / 2,34 2,53 2,60 2,68 2,76 / -7 6,33 5,32 4,47 3,09 2,38 / 2,21 2,37 2,41 2,46 2,51 / 35 9,56 8,04 6,75 4,66 3,59 2,33 2,56 3,11 3,17 3,24 3,30 2,97 -2 7,23 6,23 5,37 3,97 2,94 / 2,44 2,73 2,82 2,90 2,99 / 30 9,50 8,19 7,06 5,22 3,86 2,71 3,44 3,86 3,97 4,09 4,21 3,84 2 8,29 7,09 6,06 4,48 3,41 / 2,62 2,86 3,01 3,17 3,34 / 25 9,13 7,81 6,67 4,94 3,75 2,55 4,06 4,42 4,65 4,90 5,16 4,80 7 9,57 7,34 6,17 4,50 3,24 2,14 2,94 3,45 3,55 3,66 3,77 3,47 20 7,24 6,08 5,11 3,73 2,69 1,77 5,59 6,20 6,39 6,58 6,77 6,23
15 6,87 5,97 5,19 3,69 2,69 1,80 4,02 4,43 4,60 4,79 4,98 4,53 15 6,11 5,31 4,62 3,28 2,39 1,60 5,47 6,02 6,26 6,51 6,77 6,16 20 6,85 5,71 4,76 3,52 2,54 1,55 4,54 4,90 5,00 5,10 5,20 4,79 10 6,30 5,25 4,38 3,24 2,33 1,42 5,45 5,88 6,00 6,12 6,24 5,74 25 7,25 6,30 5,48 4,11 2,92 1,84 4,86 5,10 5,25 5,41 5,57 5,18 5 6,45 5,61 4,88 3,66 2,60 1,64 5,54 5,82 6,00 6,18 6,36 5,92 30 6,82 5,83 4,99 3,69 2,55 1,58 5,41 5,74 5,80 5,85 5,91 5,32 0 6,31 5,39 4,61 3,41 2,35 1,46 5,58 5,92 5,98 6,03 6,10 5,49 35 6,74 5,71 4,84 3,49 2,37 1,49 5,36 5,52 5,57 5,63 5,68 5,06 -5 6,19 5,25 4,45 3,20 2,18 1,37 5,64 5,81 5,87 5,93 5,99 5,33
TW_o
ut 5
0°C
-20 / / / / / / / / / / / /
TW_o
ut 1
0°C
45 4,83 4,03 3,36 2,35 1,79 / 1,77 1,93 1,97 2,01 2,05 / -15 / / / / / / / / / / / / 40 6,97 5,91 5,01 3,55 4,61 / 2,16 2,33 2,40 2,48 2,55 / -7 5,10 4,29 3,60 2,49 1,91 / 1,85 1,97 2,01 2,05 2,10 / 35 8,74 4,70 3,95 2,73 2,10 1,36 2,42 3,05 3,11 3,17 3,24 2,91 -2 6,06 5,22 4,50 3,33 2,47 / 1,98 2,22 2,28 2,35 2,42 / 30 9,03 7,78 6,71 4,96 3,67 2,57 2,72 3,04 3,13 3,23 3,33 3,03 2 6,91 5,90 5,05 3,73 2,84 / 2,33 2,54 2,68 2,82 2,97 / 25 8,49 7,25 6,20 4,59 3,49 2,37 3,97 4,33 4,56 4,80 5,05 4,70 7 7,65 6,43 5,40 3,94 2,84 / 2,50 2,78 2,86 2,94 3,03 / 20 6,28 5,28 4,43 3,24 2,33 1,54 4,66 5,18 5,33 5,49 5,66 5,20
15 5,82 5,06 4,40 3,12 2,28 / 3,45 3,79 3,94 4,10 4,27 / 15 5,53 4,81 4,18 2,97 2,17 1,45 5,03 5,54 5,76 5,99 6,23 5,67 20 5,95 4,96 4,13 3,06 2,20 / 3,77 4,07 4,15 4,23 4,32 / 10 5,55 4,63 3,86 2,85 2,05 1,25 4,99 5,39 5,49 5,60 5,72 5,26 25 5,81 5,05 4,39 3,29 2,34 / 3,99 4,19 4,32 4,45 4,58 / 5 5,64 4,90 4,26 3,20 2,27 1,43 4,96 5,21 5,36 5,53 5,69 5,29 30 6,44 5,50 4,70 3,48 2,40 / 4,49 4,76 4,81 4,86 4,91 / 0 5,72 4,89 4,18 3,09 2,13 1,32 5,15 5,46 5,51 5,57 5,62 5,06 35 6,41 5,43 4,60 3,31 2,25 / 4,47 4,61 4,65 4,70 4,75 / -5 5,62 4,76 4,04 2,91 1,98 1,25 5,17 5,33 5,38 5,43 5,49 4,88
TW_o
ut 5
5°C
-20 / / / / / / / / / / / /
TW_o
ut 7
°C
45 4,01 3,34 2,78 1,95 1,48 / 1,51 1,65 1,68 1,71 1,75 / -15 / / / / / / / / / / / / 40 6,03 5,11 4,33 3,08 3,99 / 1,92 2,08 2,14 2,20 2,27 / -7 4,82 4,05 3,40 2,35 1,81 / 1,76 1,89 1,93 1,96 2,00 / 35 9,55 6,44 5,41 3,73 2,88 2,07 2,46 2,88 2,94 3,00 3,06 2,75 -2 5,31 4,58 3,95 2,92 2,16 / 2,15 2,41 2,48 2,56 2,64 / 30 8,57 7,39 6,37 4,71 3,49 2,44 2,67 2,99 3,07 3,17 3,26 2,97 2 5,53 4,72 4,04 2,99 2,27 / 2,07 2,26 2,38 2,51 2,64 / 25 6,89 5,89 5,03 3,72 2,83 1,93 3,76 4,10 4,32 4,55 4,79 4,45 7 6,16 5,18 4,35 3,18 2,29 / 2,40 2,67 2,75 2,83 2,91 / 20 4,41 3,71 3,12 2,27 1,64 1,08 3,61 4,01 4,13 4,25 4,38 4,03
15 3,92 3,41 2,96 2,10 1,54 / 2,83 3,11 3,24 3,37 3,50 / 15 4,17 3,62 3,15 2,24 1,63 1,09 3,08 3,39 3,53 3,67 3,81 3,47 20 3,72 3,10 2,58 1,91 1,38 / 2,90 3,13 3,19 3,26 3,32 / 10 / / / / / / / / / / / / 25 3,43 2,98 2,59 1,94 1,38 / 3,00 3,15 3,24 3,34 3,44 / 5 / / / / / / / / / / / / 30 3,59 3,07 2,63 1,94 1,34 / 3,21 3,40 3,43 3,47 3,50 / 0 / / / / / / / / / / / / 35 5,16 4,37 3,70 2,67 1,81 / 3,79 3,90 3,94 3,98 4,02 / -5 / / / / / / / / / / / /
TW_o
ut 6
0°C
-20 / / / / / / / / / / / /
/
/ / / / / / / / / / / / / -15 / / / / / / / / / / / / / / / / / / / / / / / / / -7 / / / / / / / / / / / / / / / / / / / / / / / / / -2 4,68 4,03 3,48 2,57 1,90 / 1,73 1,93 1,99 2,05 2,11 / / / / / / / / / / / / / / 2 5,10 4,36 3,73 2,76 2,10 / 1,92 2,09 2,20 2,32 2,44 / / / / / / / / / / / / / / 7 5,63 4,73 3,98 2,90 2,09 / 2,56 2,84 2,93 3,01 3,11 / / / / / / / / / / / / / /
15 3,72 3,23 2,81 2,00 1,46 / 2,23 2,45 2,55 2,65 2,76 / / / / / / / / / / / / / / 20 3,61 3,01 2,51 1,86 1,34 / 2,61 2,82 2,87 2,93 2,99 / / / / / / / / / / / / / / 25 3,51 3,05 2,65 1,99 1,41 / 2,74 2,88 2,97 3,05 3,15 / / / / / / / / / / / / / / 30 3,44 2,94 2,51 1,86 1,28 / 2,93 3,11 3,14 3,17 3,20 / / / / / / / / / / / / / / 35 / / / / / / / / / / / / / / / / / / / / / / / / /
Performances data / Dati prestazionali Mod. 8
PERFORMANCES - PRESTAZIONI
The values are referred to units without options and accessories. Data declared according to EN 14511:EER (Energy Efficiency Ratio) = ratio of the total cooling capacity to the effective power input of the unitCOP (Coefficient Of Performance) = ratio of the total heating capacity to the effective power input of the unitTW_out Leaving water temperatureTa outdoor air temperature
I valori si riferiscono ad unità prive di eventuali opzioni o accessori. Dati dichiarati secondo EN 14511:EER (Energy Efficiency Ratio) = rapporto potenza frigorifera su potenza assorbitaCOP (Coefficient Of Performance) = rapporto potenza termica su potenza assorbitaTW_out temperatura acqua prodottaTa temperatura aria esterna
7
TW_o
ut 3
0°C
Ta[°C]
Potenza termica / Heating Capacity [kW] COP
TW_o
ut 2
2°C
Ta[°C]
Potenza frigorifera/Cooling Capacity [kW] EER130% 100% 90% 70% 50% 30% 130% 100% 90% 70% 50% 30% 130% 100% 90% 70% 50% 30% 130% 100% 90% 70% 50% 30%
-20 4,46 4,05 3,38 2,36 1,80 / 1,94 2,12 2,16 2,20 2,24 / 45 8,03 7,30 6,08 4,26 3,24 / 3,11 3,30 3,36 3,43 3,50 / -15 4,94 4,41 3,73 2,65 3,44 / 2,09 2,26 2,33 2,40 2,47 / 40 9,88 9,14 7,75 5,50 7,13 / 3,35 3,52 3,63 3,73 3,85 / -7 7,27 6,55 5,51 3,80 2,93 / 2,67 2,86 2,92 2,98 3,04 / 35 11,42 10,47 8,80 6,07 4,68 3,04 4,23 4,61 4,70 4,80 4,89 4,40 -2 9,09 8,04 6,93 5,13 3,80 2,66 3,17 3,55 3,66 3,77 3,88 3,53 30 12,30 11,28 9,73 7,20 5,33 3,73 5,29 5,61 5,77 5,95 6,13 5,57 2 9,75 8,71 7,44 5,51 4,18 2,85 3,36 3,66 3,85 4,06 4,27 3,97 25 12,48 11,67 9,97 7,38 5,61 3,81 6,28 6,47 6,81 7,17 7,55 7,02 7 10,78 10,17 8,55 6,24 4,49 2,96 4,46 4,82 4,96 5,11 5,26 4,84 20 12,99 11,92 10,02 7,31 5,27 3,48 6,51 6,64 6,84 7,04 7,26 6,67 15 10,54 9,58 8,33 5,92 4,32 2,89 6,11 6,72 6,99 7,27 7,56 6,88 15 12,17 11,06 9,62 6,83 4,98 3,34 10,15 10,26 10,67 11,09 11,54 10,50 20 10,52 9,39 7,83 5,79 4,17 2,54 7,77 8,40 8,56 8,74 8,91 8,20 10 12,31 11,09 9,24 6,84 4,92 3,00 10,56 10,77 10,99 11,21 11,43 10,52 25 8,98 7,81 6,79 5,09 3,61 2,28 8,87 9,31 9,59 9,88 10,17 9,46 5 12,36 11,13 9,68 7,26 5,16 3,25 11,01 11,12 11,46 11,80 12,15 11,30 30 10,17 9,00 7,69 5,69 3,93 2,43 10,65 11,29 11,40 11,52 11,63 10,47 0 12,30 10,98 9,38 6,94 4,79 2,97 11,56 11,80 11,91 12,03 12,15 10,94 35 9,85 8,80 7,46 5,37 3,65 2,30 10,60 10,92 11,03 11,14 11,25 10,01 -5 12,22 10,82 9,17 6,60 4,49 2,83 12,34 12,71 12,84 12,97 13,10 11,66
TW_o
ut 3
5°C
-20 3,68 3,34 2,79 1,95 1,48 / 1,49 1,63 1,66 1,69 1,73 /
TW_o
ut 1
8°C
45 6,70 6,09 5,08 3,55 2,70 / 2,62 2,78 2,84 2,89 2,95 / -15 5,33 4,76 4,04 2,87 3,72 / 2,10 2,27 2,33 2,40 2,48 / 40 8,46 7,84 6,64 4,71 6,11 / 3,15 3,31 3,40 3,51 3,61 / -7 7,63 6,88 5,78 3,99 3,07 / 2,52 2,70 2,75 2,81 2,86 / 35 11,01 10,50 8,82 6,09 4,69 3,05 4,14 4,57 4,66 4,75 4,85 4,36 -2 8,73 7,73 6,66 4,93 3,65 2,55 2,82 3,16 3,25 3,35 3,45 3,14 30 11,42 10,47 9,03 6,68 4,94 3,46 4,70 4,99 5,14 5,29 5,45 4,96 2 9,55 8,53 7,29 5,39 4,10 2,79 3,00 3,27 3,45 3,63 3,82 3,56 25 11,62 10,86 9,28 6,87 5,22 3,55 5,11 5,26 5,54 5,83 6,14 5,71 7 10,77 10,00 8,40 6,13 4,42 2,92 4,34 4,61 4,75 4,89 5,04 4,63 20 11,56 10,61 8,91 6,51 4,69 3,09 5,76 5,87 6,05 6,23 6,42 5,91
15 10,25 9,32 8,10 5,75 4,20 2,81 5,33 5,86 6,10 6,34 6,60 6,00 15 11,02 10,02 8,71 6,19 4,52 3,03 8,97 9,06 9,42 9,80 10,19 9,27 20 9,56 8,53 7,11 5,26 3,79 2,31 6,29 6,80 6,93 7,07 7,21 6,63 10 10,75 9,68 8,07 5,97 4,30 2,62 8,82 9,00 9,18 9,36 9,55 8,79 25 8,79 7,64 6,64 4,98 3,54 2,23 7,39 7,76 7,99 8,23 8,48 7,89 5 10,75 9,69 8,43 6,32 4,49 2,83 8,74 8,83 9,10 9,37 9,65 8,97 30 9,21 8,15 6,96 5,15 3,56 2,20 8,08 8,56 8,65 8,73 8,82 7,94 0 10,70 9,55 8,17 6,04 4,17 2,59 9,10 9,28 9,38 9,47 9,56 8,61 35 9,33 8,33 7,06 5,08 3,46 2,18 8,34 8,59 8,68 8,77 8,85 7,88 -5 10,92 9,66 8,19 5,90 4,01 2,53 10,94 11,27 11,39 11,50 11,61 10,34
TW_o
ut 4
0°C
-20 2,35 2,14 1,78 1,25 0,95 / 1,26 1,37 1,40 1,42 1,45 /
TW_o
ut 1
5°C
45 6,01 5,47 4,56 3,19 2,42 / 2,39 2,53 2,58 2,63 2,68 / -15 5,19 4,64 3,93 2,79 3,62 / 2,01 2,17 2,24 2,30 2,37 / 40 8,41 7,78 6,60 4,68 6,07 / 2,83 2,97 3,06 3,15 3,25 / -7 7,48 6,73 5,66 3,91 3,01 / 2,32 2,48 2,53 2,58 2,63 / 35 11,01 10,40 8,74 6,03 4,64 3,02 3,16 3,25 3,31 3,38 3,45 3,10 -2 8,51 7,53 6,49 4,80 3,55 2,49 2,50 2,80 2,88 2,97 3,06 2,78 30 11,21 10,29 8,87 6,56 4,86 3,40 3,77 4,00 4,12 4,24 4,37 3,98 2 9,81 8,76 7,49 5,54 4,21 2,86 2,79 3,04 3,20 3,37 3,55 3,30 25 12,18 11,38 9,73 7,20 5,47 3,72 4,19 4,31 4,54 4,78 5,04 4,68 7 10,58 9,98 8,39 6,12 4,41 2,91 3,68 4,08 4,20 4,33 4,46 4,10 20 10,65 9,77 8,21 5,99 4,32 2,85 6,21 6,33 6,52 6,72 6,92 6,37
15 8,60 7,82 6,80 4,83 3,52 2,36 4,69 5,16 5,37 5,59 5,81 5,29 15 9,27 8,43 7,33 5,20 3,80 2,54 8,93 9,02 9,38 9,75 10,14 9,23 20 8,54 7,62 6,35 4,70 3,38 2,06 5,44 5,88 6,00 6,12 6,24 5,74 10 9,37 8,45 7,04 5,21 3,75 2,29 9,38 9,57 9,76 9,96 10,16 9,34 25 8,47 7,37 6,41 4,81 3,41 2,15 6,45 6,77 6,97 7,18 7,40 6,88 5 9,18 8,27 7,19 5,40 3,83 2,41 8,60 8,68 8,94 9,21 9,49 8,82 30 8,88 7,86 6,72 4,97 3,43 2,13 6,97 7,39 7,46 7,54 7,61 6,85 0 9,38 8,38 7,16 5,30 3,66 2,27 9,13 9,31 9,40 9,50 9,59 8,63 35 9,10 8,13 6,89 4,96 3,37 2,12 7,18 7,39 7,47 7,54 7,62 6,78 -5 9,45 8,36 7,08 5,10 3,47 2,19 11,46 11,80 11,92 12,04 12,16 10,82
TW_o
ut 4
5°C
-20 / / / / / / / / / / /
TW_o
ut 1
3°C
45 5,93 5,39 4,49 3,15 2,39 / 2,36 2,51 2,56 2,61 2,66 / -15 4,60 4,11 3,48 2,47 3,21 / 1,66 1,79 1,84 1,90 1,96 / 40 7,74 7,17 6,08 4,31 5,59 / 2,63 2,76 2,84 2,93 3,01 / -7 7,58 6,83 5,74 3,96 3,05 / 2,15 2,30 2,34 2,39 2,44 / 35 11,01 10,30 8,66 5,97 4,60 2,99 3,00 3,09 3,15 3,21 3,28 2,95 -2 8,48 7,51 6,47 4,79 3,54 / 2,27 2,54 2,61 2,69 2,77 / 30 12,62 11,58 9,98 7,39 5,47 3,83 3,15 3,34 3,44 3,54 3,65 3,32 2 9,70 8,66 7,40 5,48 4,16 2,83 2,48 2,70 2,84 2,99 3,15 2,93 25 11,09 10,36 8,86 6,55 4,98 3,39 4,19 4,31 4,54 4,78 5,04 4,68 7 9,81 10,12 8,50 6,21 4,47 2,95 3,05 3,45 3,55 3,66 3,77 3,47 20 9,09 8,34 7,00 5,11 3,68 2,43 6,26 6,39 6,58 6,78 6,98 6,42
15 8,08 7,35 6,39 4,54 3,31 2,22 4,06 4,47 4,65 4,84 5,03 4,58 15 8,54 7,76 6,75 4,79 3,50 2,34 8,13 8,21 8,54 8,88 9,23 8,40 20 7,11 6,35 5,29 3,91 2,82 1,72 4,64 5,01 5,11 5,21 5,31 4,89 10 8,48 7,64 6,37 4,71 3,39 2,07 8,77 8,94 9,12 9,31 9,49 8,73 25 8,00 6,95 6,05 4,53 3,22 2,03 5,46 5,74 5,91 6,09 6,27 5,83 5 8,56 7,71 6,70 5,03 3,57 2,25 8,74 8,83 9,09 9,36 9,65 8,97 30 7,74 6,85 5,85 4,33 2,99 1,85 4,92 5,21 5,26 5,32 5,37 4,83 0 8,64 7,71 6,59 4,88 3,37 2,09 8,96 9,14 9,23 9,33 9,42 8,48 35 7,08 6,32 5,36 3,86 2,62 1,65 5,76 5,93 5,99 6,05 6,11 5,44 -5 8,86 7,85 6,65 4,79 3,26 2,05 10,74 11,06 11,17 11,28 11,40 10,14
TW_o
ut 5
0°C
-20 / / / / / / / / / / / /
TW_o
ut 1
0°C
45 5,27 4,79 3,99 2,79 2,12 / 2,18 2,31 2,36 2,40 2,45 / -15 / / / / / / / / / / / / 40 7,44 6,89 5,84 4,14 5,37 / 2,62 2,75 2,83 2,92 3,00 / -7 6,76 6,09 5,11 3,53 2,72 / 1,86 1,99 2,03 2,08 2,12 / 35 10,91 10,30 8,66 5,97 4,60 2,99 2,80 3,21 3,27 3,34 3,41 3,07 -2 7,52 6,66 5,74 4,25 3,14 / 2,08 2,33 2,40 2,47 2,55 / 30 11,60 10,64 9,18 6,79 5,03 3,52 2,95 3,13 3,23 3,32 3,42 3,11 2 9,11 8,13 6,95 5,14 3,91 2,66 2,48 2,70 2,84 3,00 3,15 2,93 25 10,22 9,55 8,17 6,04 4,59 3,12 3,91 4,03 4,24 4,46 4,70 4,37 7 8,00 7,55 6,34 4,63 3,33 2,20 2,97 3,30 3,39 3,50 3,60 3,31 20 8,21 7,54 6,33 4,62 3,33 2,20 5,69 5,81 5,98 6,16 6,35 5,84
15 6,34 5,76 5,01 3,56 2,60 1,74 3,49 3,84 3,99 4,15 4,32 3,93 15 7,77 7,06 6,14 4,36 3,18 2,13 7,34 7,41 7,70 8,01 8,33 7,58 20 6,43 5,74 4,78 3,54 2,55 1,55 3,90 4,21 4,29 4,38 4,47 4,11 10 7,64 6,88 5,74 4,25 3,06 1,86 7,34 7,49 7,64 7,79 7,95 7,31 25 6,79 5,90 5,13 3,85 2,73 1,72 4,64 4,87 5,02 5,17 5,32 4,95 5 7,37 6,64 5,78 4,33 3,08 1,94 7,16 7,23 7,45 7,67 7,90 7,35 30 6,90 6,11 5,22 3,86 2,66 1,65 4,79 5,07 5,12 5,18 5,23 4,70 0 7,47 6,67 5,70 4,22 2,91 1,80 7,57 7,72 7,80 7,87 7,95 7,16 35 6,34 5,66 4,80 3,45 2,35 1,48 4,74 4,89 4,94 4,98 5,03 4,48 -5 7,67 6,79 5,75 4,14 2,82 1,77 8,79 9,05 9,14 9,23 9,33 8,30
TW_o
ut 5
5°C
-20 / / / / / / / / / / / /
TW_o
ut 7
°C
45 4,08 3,71 3,09 2,16 1,64 / 1,54 1,63 1,67 1,70 1,73 / -15 / / / / / / / / / / / / 40 6,75 6,25 5,30 3,76 4,87 / 2,15 2,26 2,32 2,39 2,47 / -7 6,26 5,64 4,74 3,27 2,52 / 1,74 1,87 1,90 1,94 1,98 / 35 10,91 9,39 7,89 5,44 4,19 2,73 2,71 2,88 2,94 3,00 3,06 2,75 -2 6,51 5,76 4,97 3,67 2,72 / 1,81 2,03 2,09 2,15 2,21 / 30 11,62 10,40 8,97 6,63 4,91 3,44 2,75 3,25 3,35 3,45 3,55 3,23 2 3,63 3,24 2,77 2,05 1,56 / 2,21 2,41 2,54 2,67 2,81 / 25 8,46 7,90 6,75 5,00 3,80 2,58 3,66 3,76 3,96 4,17 4,40 4,09 7 6,35 5,99 5,04 3,68 2,65 / 2,51 2,79 2,87 2,96 3,05 / 20 6,10 5,60 4,70 3,43 2,47 1,63 4,98 5,08 5,23 5,39 5,55 5,11
15 5,26 4,78 4,15 2,95 2,15 / 2,86 3,14 3,27 3,40 3,53 / 15 6,08 5,53 4,81 3,41 2,49 1,67 6,80 6,87 7,14 7,43 7,72 7,03 20 5,65 5,04 4,20 3,11 2,24 / 3,25 3,51 3,58 3,65 3,72 / 10 / / / / / / / / / / / / 25 7,10 6,18 5,37 4,03 2,86 / 4,09 4,29 4,42 4,55 4,69 / 5 / / / / / / / / / / / / 30 5,77 5,10 4,36 3,23 2,23 / 3,35 3,55 3,59 3,62 3,66 / 0 / / / / / / / / / / / / 35 2,43 2,17 1,84 1,32 0,90 / 3,85 3,97 4,01 4,05 4,09 / -5 / / / / / / / / / / / /
TW_o
ut 6
0°C
-20 / / / / / / / / / / / /
/
/ / / / / / / / / / / / / -15 / / / / / / / / / / / / / / / / / / / / / / / / / -7 / / / / / / / / / / / / / / / / / / / / / / / / / -2 3,89 3,44 2,96 2,19 1,62 / 1,37 1,53 1,58 1,63 1,67 / / / / / / / / / / / / / / 2 4,04 3,61 3,08 2,28 1,73 / 3,97 4,33 4,56 4,80 5,06 / / / / / / / / / / / / / / 7 3,78 3,56 3,00 2,19 1,57 / 6,16 6,84 7,04 7,25 7,47 / / / / / / / / / / / / / /
15 4,15 3,77 3,28 2,33 1,70 / 3,42 3,76 3,92 4,07 4,23 / / / / / / / / / / / / / / 20 5,65 5,05 4,21 3,11 2,24 / 3,47 3,75 3,83 3,90 3,98 / / / / / / / / / / / / / / 25 5,41 4,71 4,09 3,07 2,18 / 3,34 3,50 3,61 3,72 3,83 / / / / / / / / / / / / / / 30 4,75 4,21 3,60 2,66 1,84 / 3,16 3,35 3,39 3,42 3,46 / / / / / / / / / / / / / / 35 / / / / / / / / / / / / / / / / / / / / / / / / /
Performances data / Dati prestazionali Mod. 10
PERFORMANCES - PRESTAZIONI
The values are referred to units without options and accessories. Data declared according to EN 14511:EER (Energy Efficiency Ratio) = ratio of the total cooling capacity to the effective power input of the unitCOP (Coefficient Of Performance) = ratio of the total heating capacity to the effective power input of the unitTW_out Leaving water temperatureTa outdoor air temperature
I valori si riferiscono ad unità prive di eventuali opzioni o accessori. Dati dichiarati secondo EN 14511:EER (Energy Efficiency Ratio) = rapporto potenza frigorifera su potenza assorbitaCOP (Coefficient Of Performance) = rapporto potenza termica su potenza assorbitaTW_out temperatura acqua prodottaTa temperatura aria esterna
8
TW_o
ut 3
0°C
Ta[°C]
Potenza termica / Heating Capacity [kW] COP
TW_o
ut 2
2°C
Ta[°C]
Potenza frigorifera/Cooling Capacity [kW] EER130% 100% 90% 70% 50% 30% 130% 100% 90% 70% 50% 30% 130% 100% 90% 70% 50% 30% 130% 100% 90% 70% 50% 30%
-20 5,39 4,90 4,08 2,86 2,17 / 1,86 2,03 2,07 2,11 2,15 / 45 8,95 8,13 6,78 4,75 3,61 / 2,85 3,02 3,08 3,15 3,21 / -15 5,97 5,33 4,52 3,21 4,16 / 2,01 2,17 2,23 2,30 2,37 / 40 11,01 10,19 8,64 6,13 7,95 / 3,07 3,23 3,32 3,42 3,53 / -7 8,80 7,93 6,66 4,60 3,54 / 2,56 2,74 2,80 2,85 2,91 / 35 12,72 11,67 9,81 6,77 5,21 3,39 3,88 4,23 4,31 4,40 4,49 4,04 -2 11,00 9,73 8,39 6,21 4,59 3,22 3,04 3,40 3,51 3,61 3,72 3,38 30 13,70 12,57 10,84 8,02 5,93 4,15 4,85 5,14 5,29 5,45 5,62 5,11 2 11,80 10,53 9,00 6,66 5,06 3,44 3,22 3,51 3,70 3,89 4,10 3,81 25 13,91 13,00 11,11 8,22 6,25 4,25 5,76 5,93 6,24 6,57 6,92 6,44 7 13,04 12,31 10,34 7,55 5,44 3,59 4,27 4,62 4,76 4,90 5,05 4,64 20 14,48 13,28 11,16 8,15 5,87 3,87 5,97 6,09 6,27 6,46 6,65 6,12 15 12,76 11,60 10,08 7,16 5,23 3,50 5,86 6,44 6,70 6,97 7,25 6,59 15 13,56 12,32 10,72 7,61 5,55 3,72 9,31 9,40 9,78 10,17 10,58 9,62 20 12,73 11,36 9,47 7,01 5,05 3,08 7,45 8,05 8,21 8,38 8,54 7,86 10 13,72 12,36 10,30 7,62 5,49 3,35 9,68 9,88 10,08 10,28 10,48 9,64 25 10,86 9,44 8,21 6,16 4,37 2,76 8,50 8,93 9,19 9,47 9,75 9,07 5 13,77 12,41 10,79 8,09 5,75 3,62 10,10 10,20 10,50 10,82 11,14 10,36 30 12,30 10,89 9,30 6,89 4,75 2,95 10,21 10,83 10,93 11,04 11,15 10,04 0 13,70 12,23 10,46 7,74 5,34 3,31 10,60 10,81 10,92 11,03 11,14 10,03 35 11,92 10,64 9,02 6,50 4,42 2,78 10,16 10,47 10,57 10,68 10,78 9,60 -5 13,62 12,05 10,22 7,36 5,00 3,15 11,32 11,66 11,77 11,89 12,01 10,69
TW_o
ut 3
5°C
-20 4,45 4,05 3,37 2,36 1,79 / 1,43 1,56 1,59 1,62 1,66 /
TW_o
ut 1
8°C
45 7,47 6,79 5,66 3,96 3,01 / 2,40 2,55 2,60 2,65 2,70 / -15 6,45 5,76 4,88 3,47 4,50 / 2,01 2,17 2,24 2,31 2,37 / 40 9,43 8,73 7,40 5,25 6,81 / 2,89 3,03 3,12 3,22 3,31 / -7 9,24 8,32 6,99 4,82 3,71 / 2,42 2,59 2,64 2,69 2,75 / 35 12,27 11,70 9,83 6,78 5,22 3,40 3,79 4,19 4,27 4,36 4,45 4,00 -2 10,57 9,35 8,06 5,97 4,42 3,09 2,70 3,03 3,12 3,21 3,31 3,01 30 12,72 11,67 10,06 7,45 5,51 3,86 4,31 4,57 4,71 4,85 5,00 4,55 2 11,56 10,32 8,82 6,53 4,96 3,37 2,88 3,14 3,31 3,48 3,67 3,41 25 12,95 12,10 10,34 7,65 5,82 3,96 4,68 4,82 5,08 5,35 5,63 5,24 7 13,03 12,10 10,17 7,42 5,34 3,53 4,16 4,42 4,55 4,69 4,83 4,44 20 12,88 11,82 9,93 7,25 5,22 3,45 5,28 5,39 5,55 5,71 5,89 5,41
15 12,40 11,27 9,80 6,96 5,08 3,40 5,11 5,62 5,85 6,08 6,32 5,76 15 12,28 11,16 9,71 6,89 5,03 3,37 8,22 8,30 8,64 8,98 9,34 8,50 20 11,56 10,32 8,60 6,37 4,58 2,80 6,03 6,52 6,65 6,78 6,91 6,36 10 11,97 10,79 8,99 6,65 4,79 2,92 8,09 8,25 8,42 8,59 8,76 8,06 25 10,63 9,25 8,04 6,03 4,28 2,70 7,09 7,44 7,66 7,89 8,13 7,56 5 11,98 10,80 9,39 7,04 5,00 3,15 8,02 8,10 8,34 8,59 8,85 8,23 30 11,14 9,86 8,43 6,23 4,30 2,67 7,74 8,21 8,29 8,37 8,46 7,61 0 11,92 10,65 9,10 6,73 4,65 2,88 8,34 8,51 8,60 8,68 8,77 7,89 35 11,29 10,08 8,54 6,15 4,18 2,64 8,00 8,24 8,32 8,41 8,49 7,56 -5 12,17 10,77 9,12 6,57 4,47 2,81 10,03 10,34 10,44 10,54 10,65 9,48
TW_o
ut 4
0°C
-20 2,85 2,59 2,16 1,51 1,15 / 1,20 1,31 1,34 1,37 1,39 /
TW_o
ut 1
5°C
45 6,70 6,09 5,08 3,55 2,70 / 2,19 2,32 2,36 2,41 2,46 / -15 6,28 5,61 4,75 3,38 4,38 / 1,93 2,08 2,14 2,21 2,27 / 40 9,37 8,67 7,35 5,22 6,77 / 2,60 2,73 2,81 2,89 2,98 / -7 9,05 8,15 6,85 4,73 3,64 / 2,22 2,38 2,42 2,47 2,52 / 35 12,27 10,40 8,74 6,03 4,64 3,02 2,89 2,98 3,04 3,10 3,16 2,85 -2 10,29 9,11 7,85 5,81 4,30 3,01 2,40 2,68 2,76 2,85 2,93 2,67 30 12,50 11,46 9,88 7,31 5,41 3,79 3,46 3,67 3,78 3,89 4,01 3,65 2 11,87 10,60 9,06 6,70 5,09 3,46 2,68 2,92 3,07 3,23 3,41 3,17 25 13,57 12,68 10,84 8,02 6,09 4,14 3,84 3,95 4,16 4,38 4,62 4,29 7 12,80 12,07 10,15 7,41 5,33 3,52 3,52 3,91 4,03 4,15 4,28 3,93 20 11,87 10,89 9,15 6,68 4,81 3,17 5,69 5,81 5,98 6,16 6,34 5,84
15 10,41 9,46 8,23 5,84 4,26 2,86 4,50 4,95 5,15 5,36 5,57 5,07 15 10,33 9,39 8,17 5,80 4,23 2,84 8,18 8,27 8,60 8,94 9,30 8,46 20 10,33 9,22 7,69 5,69 4,10 2,50 5,22 5,64 5,75 5,86 5,98 5,50 10 10,45 9,41 7,84 5,80 4,18 2,55 8,60 8,78 8,95 9,13 9,31 8,57 25 10,25 8,91 7,75 5,81 4,13 2,60 6,18 6,49 6,68 6,88 7,09 6,59 5 10,23 9,22 8,02 6,01 4,27 2,69 7,88 7,96 8,20 8,44 8,70 8,09 30 10,74 9,51 8,13 6,01 4,15 2,57 6,68 7,09 7,16 7,23 7,30 6,57 0 10,45 9,33 7,98 5,90 4,07 2,53 8,37 8,54 8,62 8,71 8,80 7,92 35 11,01 9,83 8,33 6,00 4,08 2,57 6,88 7,09 7,16 7,23 7,30 6,50 -5 10,53 9,32 7,89 5,68 3,87 2,43 10,51 10,82 10,93 11,04 11,15 9,92
TW_o
ut 4
5°C
-20 / / / / / / / / / / /
TW_o
ut 1
3°C
45 6,61 6,01 5,01 3,51 2,66 / 2,17 2,30 2,34 2,39 2,44 / -15 5,57 4,97 4,21 2,99 3,88 / 1,59 1,72 1,77 1,82 1,87 / 40 8,63 7,99 6,77 4,81 6,23 / 2,41 2,53 2,61 2,68 2,76 / -7 9,17 8,26 6,94 4,79 3,69 / 2,06 2,20 2,25 2,29 2,34 / 35 12,27 10,30 8,66 5,97 4,60 2,99 2,75 2,83 2,89 2,95 3,01 2,71 -2 10,26 9,08 7,83 5,79 4,29 / 2,17 2,43 2,51 2,58 2,66 / 30 14,06 12,90 11,12 8,23 6,09 4,26 2,89 3,06 3,15 3,25 3,35 3,04 2 11,74 10,48 8,96 6,63 5,04 3,43 2,37 2,59 2,72 2,87 3,02 2,81 25 12,35 11,55 9,87 7,30 5,55 3,77 3,84 3,96 4,17 4,39 4,62 4,30 7 11,87 11,85 9,96 7,27 5,23 3,45 2,92 3,41 3,51 3,62 3,73 3,43 20 10,12 9,29 7,80 5,70 4,10 2,71 5,74 5,86 6,03 6,21 6,40 5,89
15 9,78 8,89 7,73 5,49 4,01 2,68 3,90 4,29 4,46 4,64 4,82 4,39 15 9,52 8,65 7,52 5,34 3,90 2,61 7,45 7,53 7,83 8,14 8,47 7,70 20 8,60 7,68 6,40 4,74 3,41 2,08 4,44 4,80 4,90 4,99 5,09 4,69 10 9,45 8,51 7,10 5,25 3,78 2,31 8,04 8,20 8,36 8,53 8,70 8,01 25 9,68 8,41 7,32 5,49 3,90 2,45 5,24 5,50 5,67 5,84 6,01 5,59 5 9,53 8,59 7,47 5,60 3,98 2,51 8,01 8,09 8,34 8,59 8,84 8,22 30 9,36 8,28 7,08 5,24 3,62 2,24 4,71 5,00 5,05 5,10 5,15 4,63 0 9,62 8,59 7,34 5,43 3,75 2,32 8,22 8,38 8,47 8,55 8,64 7,77 35 8,56 7,65 6,48 4,67 3,17 2,00 5,52 5,69 5,74 5,80 5,86 5,22 -5 9,88 8,74 7,41 5,33 3,63 2,29 9,85 10,14 10,24 10,35 10,45 9,30
TW_o
ut 5
0°C
-20 / / / / / / / / / / / /
TW_o
ut 1
0°C
45 5,87 5,34 4,45 3,11 2,37 / 2,00 2,12 2,16 2,20 2,25 / -15 / / / / / / / / / / / / 40 8,29 7,67 6,50 4,62 5,98 / 2,40 2,52 2,60 2,67 2,75 / -7 8,17 7,36 6,19 4,27 3,29 / 1,79 1,91 1,95 1,99 2,03 / 35 12,15 10,30 8,66 5,97 4,60 2,99 2,57 3,21 3,27 3,34 3,41 3,07 -2 9,10 8,06 6,94 5,14 3,80 / 2,00 2,24 2,30 2,37 2,44 / 30 12,93 11,86 10,23 7,57 5,60 3,92 2,71 2,87 2,96 3,05 3,14 2,85 2 11,02 9,84 8,41 6,22 4,73 3,22 2,38 2,59 2,73 2,87 3,02 2,81 25 11,39 10,65 9,10 6,73 5,12 3,48 3,58 3,69 3,89 4,09 4,31 4,01 7 9,68 9,13 7,67 5,60 4,03 2,66 2,85 3,16 3,25 3,35 3,45 3,18 20 9,15 8,40 7,06 5,15 3,71 2,45 5,22 5,32 5,48 5,65 5,82 5,35
15 7,67 6,97 6,06 4,30 3,14 2,10 3,35 3,68 3,83 3,98 4,14 3,77 15 8,66 7,87 6,84 4,86 3,55 2,38 6,73 6,79 7,06 7,35 7,64 6,95 20 7,77 6,94 5,78 4,28 3,08 1,88 3,74 4,04 4,12 4,20 4,28 3,94 10 8,51 7,67 6,39 4,73 3,41 2,08 6,73 6,87 7,01 7,15 7,29 6,71 25 8,21 7,14 6,21 4,66 3,31 2,08 4,45 4,67 4,81 4,95 5,10 4,74 5 8,22 7,40 6,44 4,83 3,43 2,16 6,56 6,63 6,83 7,03 7,24 6,74 30 8,35 7,39 6,31 4,67 3,22 2,00 4,59 4,86 4,91 4,96 5,01 4,51 0 8,32 7,43 6,35 4,70 3,24 2,01 6,94 7,08 7,15 7,22 7,29 6,56 35 7,67 6,85 5,80 4,18 2,84 1,79 4,55 4,69 4,73 4,78 4,83 4,30 -5 8,55 7,56 6,41 4,62 3,14 1,98 8,06 8,30 8,38 8,47 8,55 7,61
TW_o
ut 5
5°C
-20 / / / / / / / / / / / /
TW_o
ut 7
°C
45 4,54 4,13 3,44 2,41 1,83 / 1,41 1,50 1,53 1,56 1,59 / -15 / / / / / / / / / / / / 40 7,52 6,96 5,90 4,19 5,43 / 1,97 2,07 2,13 2,20 2,26 / -7 7,57 6,82 5,73 3,95 3,05 / 1,67 1,79 1,82 1,86 1,90 / 35 12,15 11,02 9,26 6,39 4,92 3,20 2,48 2,64 2,69 2,75 2,80 2,52 -2 7,88 6,97 6,01 4,45 3,29 / 1,73 1,94 2,00 2,06 2,12 / 30 12,95 10,40 8,97 6,63 4,91 3,44 2,52 3,25 3,35 3,45 3,55 3,23 2 4,39 3,92 3,35 2,48 1,89 / 2,12 2,31 2,43 2,56 2,70 / 25 9,42 8,80 7,53 5,57 4,23 2,88 3,35 3,45 3,63 3,83 4,03 3,75 7 7,69 7,25 6,09 4,45 3,20 / 2,41 2,68 2,76 2,84 2,92 / 20 6,80 6,23 5,24 3,82 2,75 1,82 4,57 4,66 4,80 4,94 5,09 4,68
15 6,36 5,78 5,03 3,57 2,61 / 2,74 3,01 3,13 3,26 3,39 / 15 6,78 6,16 5,36 3,80 2,78 1,86 6,23 6,30 6,55 6,81 7,08 6,44 20 6,84 6,10 5,09 3,76 2,71 / 3,12 3,36 3,43 3,50 3,57 / 10 / / / / / / / / / / / / 25 8,59 7,47 6,50 4,87 3,46 / 3,92 4,12 4,24 4,37 4,50 / 5 / / / / / / / / / / / / 30 6,98 6,18 5,28 3,91 2,70 / 3,21 3,40 3,44 3,47 3,51 / 0 / / / / / / / / / / / / 35 2,94 2,62 2,22 1,60 1,09 / 3,69 3,80 3,84 3,88 3,92 / -5 / / / / / / / / / / / /
TW_o
ut 6
0°C
-20 / / / / / / / / / / / /
/
/ / / / / / / / / / / / / -15 / / / / / / / / / / / / / / / / / / / / / / / / / -7 / / / / / / / / / / / / / / / / / / / / / / / / / -2 4,70 4,16 3,59 2,65 1,96 / 1,31 1,47 1,51 1,56 1,61 / / / / / / / / / / / / / / 2 4,89 4,36 3,73 2,76 2,10 / 3,81 4,15 4,37 4,61 4,85 / / / / / / / / / / / / / / 7 4,57 4,31 3,62 2,65 1,90 / 5,91 6,56 6,75 6,96 7,16 / / / / / / / / / / / / / /
15 5,02 4,56 3,97 2,82 2,06 / 3,28 3,61 3,75 3,90 4,06 / / / / / / / / / / / / / / 20 6,84 6,11 5,09 3,77 2,71 / 3,33 3,60 3,67 3,74 3,82 / / / / / / / / / / / / / / 25 6,55 5,69 4,95 3,71 2,64 / 3,20 3,36 3,46 3,56 3,67 / / / / / / / / / / / / / / 30 5,75 5,09 4,35 3,22 2,22 / 3,03 3,22 3,25 3,28 3,31 / / / / / / / / / / / / / / 35 / / / / / / / / / / / / / / / / / / / / / / / / /
Performances data / Dati prestazionali Mod. 12
PERFORMANCES - PRESTAZIONI
The values are referred to units without options and accessories. Data declared according to EN 14511:EER (Energy Efficiency Ratio) = ratio of the total cooling capacity to the effective power input of the unitCOP (Coefficient Of Performance) = ratio of the total heating capacity to the effective power input of the unitTW_out Leaving water temperatureTa outdoor air temperature
I valori si riferiscono ad unità prive di eventuali opzioni o accessori. Dati dichiarati secondo EN 14511:EER (Energy Efficiency Ratio) = rapporto potenza frigorifera su potenza assorbitaCOP (Coefficient Of Performance) = rapporto potenza termica su potenza assorbitaTW_out temperatura acqua prodottaTa temperatura aria esterna
9
TW_o
ut 3
0°C
Ta[°C]
Potenza termica / Heating Capacity [kW] COP
TW_o
ut 2
2°C
Ta[°C]
Potenza frigorifera/Cooling Capacity [kW] EER130% 100% 90% 70% 50% 30% 130% 100% 90% 70% 50% 30% 130% 100% 90% 70% 50% 30% 130% 100% 90% 70% 50% 30%
-20 5,35 4,86 4,05 2,84 2,16 / 1,90 2,07 2,11 2,15 2,20 / 45 9,18 8,34 6,95 4,87 3,70 / 2,92 3,10 3,16 3,22 3,29 / -15 5,92 5,29 4,48 3,18 4,12 / 2,05 2,21 2,28 2,35 2,42 / 40 11,29 10,45 8,86 6,29 8,15 / 3,15 3,30 3,40 3,51 3,61 / -7 8,73 7,86 6,61 4,56 3,51 / 2,62 2,80 2,85 2,91 2,97 / 35 13,05 11,97 10,06 6,94 5,34 3,47 3,97 4,33 4,42 4,50 4,59 4,13 -2 10,90 9,65 8,32 6,16 4,56 3,19 3,10 3,47 3,58 3,68 3,80 3,45 30 14,06 12,89 11,12 8,23 6,09 4,26 4,96 5,26 5,42 5,58 5,75 5,23 2 11,70 10,45 8,93 6,61 5,02 3,41 3,29 3,58 3,77 3,97 4,18 3,89 25 14,27 13,33 11,40 8,43 6,41 4,36 5,89 6,07 6,39 6,73 7,09 6,59 7 12,94 12,20 10,26 7,49 5,39 3,56 4,36 4,71 4,85 5,00 5,15 4,74 20 14,85 13,62 11,45 8,36 6,02 3,97 6,11 6,23 6,42 6,61 6,81 6,27 15 12,65 11,50 10,00 7,10 5,18 3,47 5,98 6,57 6,84 7,11 7,39 6,73 15 13,90 12,64 10,99 7,80 5,70 3,82 9,53 9,63 10,01 10,41 10,83 9,85 20 12,62 11,27 9,39 6,95 5,00 3,05 7,61 8,21 8,38 8,55 8,72 8,02 10 14,07 12,68 10,56 7,82 5,63 3,43 9,92 10,11 10,32 10,52 10,73 9,87 25 10,77 9,37 8,14 6,11 4,34 2,73 8,67 9,11 9,38 9,66 9,95 9,26 5 14,13 12,73 11,07 8,30 5,89 3,71 10,34 10,44 10,75 11,08 11,41 10,61 30 12,20 10,80 9,23 6,83 4,71 2,92 10,42 11,05 11,16 11,27 11,38 10,24 0 14,05 12,55 10,72 7,94 5,48 3,39 10,86 11,07 11,18 11,30 11,41 10,27 35 11,82 10,56 8,95 6,44 4,38 2,76 10,37 10,68 10,79 10,90 11,00 9,79 -5 13,97 12,36 10,48 7,54 5,13 3,23 11,59 11,93 12,05 12,17 12,30 10,94
TW_o
ut 3
5°C
-20 4,42 4,01 3,34 2,34 1,78 / 1,46 1,59 1,63 1,66 1,69 /
TW_o
ut 1
8°C
45 7,66 6,96 5,80 4,06 3,09 / 2,46 2,61 2,66 2,71 2,77 / -15 6,40 5,72 4,84 3,44 4,46 / 2,05 2,22 2,28 2,35 2,42 / 40 9,67 8,96 7,59 5,39 6,99 / 2,96 3,10 3,20 3,29 3,39 / -7 9,16 8,25 6,93 4,78 3,68 / 2,47 2,64 2,69 2,75 2,80 / 35 12,58 12,00 10,08 6,96 5,36 3,48 3,89 4,29 4,38 4,46 4,55 4,10 -2 10,48 9,28 8,00 5,92 4,38 3,07 2,76 3,09 3,18 3,28 3,37 3,07 30 13,05 11,97 10,32 7,64 5,65 3,96 4,42 4,68 4,82 4,97 5,11 4,65 2 11,46 10,23 8,75 6,47 4,92 3,35 2,94 3,20 3,37 3,55 3,74 3,48 25 13,28 12,41 10,61 7,85 5,97 4,06 4,79 4,94 5,20 5,48 5,77 5,36 7 12,92 12,00 10,08 7,36 5,30 3,50 4,24 4,51 4,65 4,78 4,93 4,53 20 13,21 12,12 10,19 7,44 5,35 3,53 5,41 5,51 5,68 5,85 6,03 5,54
15 12,30 11,18 9,72 6,90 5,04 3,38 5,22 5,74 5,97 6,21 6,45 5,87 15 12,59 11,45 9,96 7,07 5,16 3,46 8,42 8,50 8,84 9,19 9,56 8,70 20 11,47 10,24 8,53 6,31 4,55 2,77 6,16 6,65 6,78 6,92 7,05 6,49 10 12,28 11,06 9,22 6,82 4,91 3,00 8,28 8,45 8,62 8,79 8,97 8,25 25 10,55 9,17 7,97 5,98 4,25 2,67 7,23 7,59 7,82 8,05 8,30 7,72 5 12,29 11,07 9,63 7,22 5,13 3,23 8,21 8,29 8,54 8,79 9,06 8,42 30 11,05 9,78 8,36 6,18 4,27 2,65 7,90 8,37 8,46 8,54 8,63 7,77 0 12,23 10,92 9,33 6,91 4,77 2,95 8,54 8,71 8,80 8,89 8,98 8,08 35 11,20 10,00 8,47 6,10 4,15 2,61 8,16 8,41 8,49 8,58 8,66 7,71 -5 12,48 11,04 9,36 6,74 4,58 2,89 10,27 10,58 10,69 10,80 10,90 9,70
TW_o
ut 4
0°C
-20 2,82 2,57 2,14 1,50 1,14 / 1,23 1,34 1,37 1,39 1,42 /
TW_o
ut 1
5°C
45 6,87 6,25 5,21 3,64 2,77 / 2,24 2,37 2,42 2,47 2,52 / -15 6,23 5,56 4,72 3,35 4,34 / 1,97 2,12 2,19 2,25 2,32 / 40 9,61 8,90 7,54 5,35 6,94 / 2,66 2,79 2,87 2,96 3,05 / -7 8,97 8,08 6,79 4,69 3,61 / 2,27 2,42 2,47 2,52 2,57 / 35 12,58 10,40 8,74 6,03 4,64 3,02 2,96 3,05 3,11 3,17 3,24 2,91 -2 10,21 9,03 7,79 5,76 4,26 2,98 2,44 2,74 2,82 2,90 2,99 2,72 30 12,82 11,76 10,14 7,50 5,55 3,89 3,54 3,76 3,87 3,98 4,10 3,74 2 11,77 10,51 8,98 6,65 5,05 3,44 2,73 2,98 3,13 3,30 3,48 3,23 25 13,92 13,00 11,12 8,23 6,25 4,25 3,93 4,05 4,26 4,49 4,73 4,40 7 12,69 11,97 10,06 7,35 5,29 3,49 3,60 3,99 4,11 4,24 4,36 4,01 20 12,17 11,17 9,38 6,85 4,93 3,26 5,83 5,94 6,12 6,31 6,50 5,98
15 10,32 9,38 8,16 5,79 4,23 2,83 4,59 5,05 5,25 5,46 5,68 5,17 15 10,59 9,63 8,37 5,95 4,34 2,91 8,38 8,46 8,80 9,15 9,52 8,66 20 10,25 9,15 7,62 5,64 4,06 2,48 5,33 5,75 5,87 5,98 6,10 5,61 10 10,71 9,65 8,04 5,95 4,29 2,61 8,81 8,98 9,16 9,35 9,53 8,77 25 10,17 8,84 7,69 5,77 4,09 2,58 6,31 6,62 6,82 7,02 7,24 6,73 5 10,49 9,45 8,22 6,17 4,38 2,76 8,07 8,15 8,39 8,65 8,90 8,28 30 10,66 9,43 8,06 5,96 4,12 2,55 6,82 7,23 7,30 7,37 7,45 6,70 0 10,72 9,57 8,18 6,05 4,18 2,59 8,57 8,74 8,83 8,92 9,01 8,11 35 10,92 9,75 8,26 5,95 4,05 2,55 7,02 7,23 7,30 7,38 7,45 6,63 -5 10,80 9,55 8,10 5,83 3,96 2,50 10,76 11,08 11,19 11,30 11,42 10,16
TW_o
ut 4
5°C
-20 / / / / / / / / / / /
TW_o
ut 1
3°C
45 6,78 6,16 5,14 3,60 2,73 / 2,22 2,35 2,40 2,45 2,50 / -15 5,52 4,93 4,18 2,97 3,85 / 1,62 1,75 1,80 1,86 1,91 / 40 8,85 8,19 6,94 4,93 6,39 / 2,47 2,59 2,67 2,75 2,83 / -7 9,10 8,20 6,89 4,75 3,66 / 2,10 2,25 2,29 2,34 2,39 / 35 12,58 10,30 8,66 5,97 4,60 2,99 2,82 2,90 2,96 3,02 3,08 2,77 -2 10,18 9,01 7,76 5,75 4,25 / 2,22 2,48 2,56 2,63 2,71 / 30 14,43 13,23 11,41 8,44 6,25 4,37 2,96 3,13 3,23 3,33 3,43 3,12 2 11,64 10,40 8,89 6,57 5,00 3,40 2,42 2,64 2,78 2,93 3,08 2,87 25 12,67 11,84 10,12 7,49 5,69 3,87 3,93 4,05 4,26 4,49 4,73 4,40 7 11,77 11,97 10,06 7,34 5,29 3,49 2,98 3,42 3,52 3,63 3,74 3,44 20 10,38 9,53 8,00 5,84 4,21 2,78 5,88 6,00 6,18 6,36 6,55 6,03
15 9,70 8,81 7,66 5,44 3,97 2,66 3,98 4,37 4,55 4,73 4,92 4,48 15 9,76 8,87 7,72 5,48 4,00 2,68 7,63 7,71 8,01 8,34 8,67 7,89 20 8,53 7,62 6,35 4,70 3,38 2,06 4,54 4,90 5,00 5,10 5,20 4,78 10 9,69 8,73 7,28 5,39 3,88 2,37 8,23 8,40 8,56 8,73 8,91 8,20 25 9,60 8,34 7,26 5,44 3,86 2,43 5,35 5,61 5,78 5,95 6,13 5,70 5 9,78 8,81 7,66 5,75 4,08 2,57 8,20 8,29 8,53 8,79 9,05 8,42 30 9,28 8,22 7,02 5,20 3,59 2,22 4,81 5,10 5,15 5,20 5,25 4,73 0 9,87 8,81 7,53 5,57 3,85 2,38 8,41 8,58 8,67 8,76 8,84 7,96 35 8,49 7,58 6,43 4,63 3,15 1,98 5,63 5,80 5,86 5,92 5,98 5,32 -5 10,13 8,97 7,60 5,47 3,72 2,34 10,08 10,38 10,49 10,59 10,70 9,52
TW_o
ut 5
0°C
-20 / / / / / / / / / / / /
TW_o
ut 1
0°C
45 6,02 5,47 4,56 3,19 2,43 / 2,05 2,17 2,21 2,26 2,30 / -15 / / / / / / / / / / / / 40 8,50 7,87 6,67 4,73 6,14 / 2,46 2,58 2,66 2,74 2,82 / -7 8,11 7,30 6,14 4,23 3,26 / 1,82 1,95 1,99 2,03 2,07 / 35 12,47 10,30 8,66 5,97 4,60 2,99 2,63 3,21 3,27 3,34 3,41 3,07 -2 9,03 7,99 6,89 5,10 3,77 / 2,04 2,28 2,35 2,42 2,49 / 30 13,26 12,17 10,49 7,76 5,74 4,02 2,77 2,94 3,03 3,12 3,21 2,92 2 10,93 9,76 8,34 6,17 4,69 3,19 2,42 2,64 2,78 2,93 3,09 2,87 25 11,68 10,92 9,33 6,91 5,25 3,57 3,67 3,78 3,98 4,19 4,41 4,10 7 9,60 9,06 7,61 5,56 4,00 2,64 2,90 3,22 3,32 3,42 3,52 3,24 20 9,39 8,61 7,24 5,28 3,80 2,51 5,34 5,45 5,62 5,78 5,96 5,48
15 7,60 6,91 6,01 4,27 3,12 2,09 3,41 3,76 3,91 4,06 4,23 3,84 15 8,88 8,07 7,02 4,98 3,64 2,44 6,89 6,95 7,23 7,52 7,82 7,12 20 7,71 6,88 5,74 4,25 3,06 1,86 3,81 4,12 4,20 4,28 4,37 4,02 10 8,73 7,87 6,56 4,85 3,49 2,13 6,89 7,03 7,17 7,32 7,46 6,87 25 8,14 7,08 6,16 4,62 3,28 2,07 4,54 4,76 4,91 5,05 5,21 4,84 5 8,43 7,59 6,60 4,95 3,52 2,21 6,72 6,79 6,99 7,20 7,42 6,90 30 8,28 7,33 6,26 4,63 3,20 1,98 4,68 4,96 5,01 5,06 5,11 4,60 0 8,54 7,62 6,52 4,82 3,33 2,06 7,10 7,25 7,32 7,39 7,47 6,72 35 7,61 6,79 5,76 4,14 2,82 1,78 4,64 4,78 4,83 4,88 4,93 4,38 -5 8,77 7,76 6,57 4,73 3,22 2,03 8,25 8,50 8,58 8,67 8,75 7,79
TW_o
ut 5
5°C
-20 / / / / / / / / / / / /
TW_o
ut 7
°C
45 4,66 4,24 3,53 2,47 1,88 / 1,45 1,53 1,56 1,60 1,63 / -15 / / / / / / / / / / / / 40 7,71 7,14 6,05 4,30 5,57 / 2,02 2,12 2,18 2,25 2,32 / -7 7,51 6,76 5,68 3,92 3,02 / 1,71 1,82 1,86 1,90 1,94 / 35 12,47 11,70 9,83 6,78 5,22 3,40 2,54 2,52 2,57 2,62 2,67 2,41 -2 7,81 6,91 5,96 4,41 3,26 / 1,77 1,98 2,04 2,10 2,16 / 30 13,28 10,40 8,97 6,63 4,91 3,44 2,58 3,25 3,35 3,45 3,55 3,23 2 4,36 3,89 3,32 2,46 1,87 / 2,16 2,36 2,48 2,61 2,75 / 25 9,66 9,03 7,72 5,71 4,34 2,95 3,43 3,53 3,72 3,92 4,13 3,84 7 7,62 7,19 6,04 4,41 3,18 / 2,46 2,73 2,81 2,90 2,98 / 20 6,97 6,39 5,37 3,92 2,82 1,86 4,68 4,77 4,91 5,06 5,21 4,80
15 6,31 5,73 4,99 3,54 2,58 / 2,79 3,07 3,20 3,33 3,46 / 15 6,95 6,32 5,50 3,90 2,85 1,91 6,38 6,45 6,70 6,97 7,25 6,60 20 6,78 6,05 5,04 3,73 2,69 / 3,18 3,43 3,50 3,57 3,64 / 10 / / / / / / / / / / / / 25 8,52 7,41 6,44 4,83 3,43 / 4,00 4,20 4,33 4,46 4,59 / 5 / / / / / / / / / / / / 30 6,92 6,13 5,24 3,87 2,67 / 3,28 3,47 3,51 3,54 3,58 / 0 / / / / / / / / / / / / 35 2,91 2,60 2,20 1,59 1,08 / 3,77 3,88 3,92 3,96 4,00 / -5 / / / / / / / / / / / /
TW_o
ut 6
0°C
-20 / / / / / / / / / / / /
/
/ / / / / / / / / / / / / -15 / / / / / / / / / / / / / / / / / / / / / / / / / -7 / / / / / / / / / / / / / / / / / / / / / / / / / -2 4,66 4,13 3,56 2,63 1,95 / 1,34 1,50 1,54 1,59 1,64 / / / / / / / / / / / / / / 2 4,85 4,33 3,70 2,74 2,08 / 3,89 4,24 4,46 4,70 4,95 / / / / / / / / / / / / / / 7 4,53 4,28 3,59 2,62 1,89 / 6,03 6,69 6,89 7,10 7,31 / / / / / / / / / / / / / /
15 4,98 4,52 3,93 2,79 2,04 / 3,35 3,68 3,83 3,98 4,14 / / / / / / / / / / / / / / 20 6,78 6,06 5,05 3,73 2,69 / 3,40 3,67 3,74 3,82 3,89 / / / / / / / / / / / / / / 25 6,49 5,65 4,91 3,68 2,61 / 3,26 3,43 3,53 3,64 3,75 / / / / / / / / / / / / / / 30 5,71 5,05 4,32 3,19 2,20 / 3,10 3,28 3,31 3,35 3,38 / / / / / / / / / / / / / / 35 / / / / / / / / / / / / / / / / / / / / / / / / /
Performances data / Dati prestazionali Mod. 12T
PERFORMANCES - PRESTAZIONI
The values are referred to units without options and accessories. Data declared according to EN 14511:EER (Energy Efficiency Ratio) = ratio of the total cooling capacity to the effective power input of the unitCOP (Coefficient Of Performance) = ratio of the total heating capacity to the effective power input of the unitTW_out Leaving water temperatureTa outdoor air temperature
I valori si riferiscono ad unità prive di eventuali opzioni o accessori. Dati dichiarati secondo EN 14511:EER (Energy Efficiency Ratio) = rapporto potenza frigorifera su potenza assorbitaCOP (Coefficient Of Performance) = rapporto potenza termica su potenza assorbitaTW_out temperatura acqua prodottaTa temperatura aria esterna
10
TW_o
ut 3
0°C
Ta[°C]
Potenza termica / Heating Capacity [kW] COP
TW_o
ut 2
2°C
Ta[°C]
Potenza frigorifera/Cooling Capacity [kW] EER130% 100% 90% 70% 50% 30% 130% 100% 90% 70% 50% 30% 130% 100% 90% 70% 50% 30% 130% 100% 90% 70% 50% 30%
-20 6,24 5,67 4,73 3,31 2,51 / 1,74 1,90 1,93 1,97 2,01 / 45 10,02 9,11 7,59 5,31 4,04 / 2,56 2,71 2,77 2,82 2,88 / -15 6,91 6,17 5,23 3,71 4,81 / 1,88 2,03 2,09 2,15 2,21 / 40 12,32 11,41 9,67 6,86 8,90 / 2,76 2,90 2,98 3,07 3,17 / -7 10,18 9,17 7,71 5,32 4,10 / 2,39 2,56 2,61 2,67 2,72 / 35 14,24 13,07 10,98 7,58 5,83 3,79 3,48 3,79 3,87 3,95 4,03 3,62 -2 12,72 11,26 9,71 7,18 5,31 3,72 2,84 3,18 3,28 3,37 3,48 3,16 30 15,34 14,08 12,14 8,98 6,65 4,65 4,35 4,61 4,75 4,89 5,04 4,59 2 13,65 12,19 10,42 7,71 5,86 3,98 3,01 3,28 3,45 3,64 3,83 3,56 25 15,58 14,56 12,44 9,21 7,00 4,76 5,16 5,32 5,60 5,90 6,21 5,78 7 15,09 14,24 11,97 8,73 6,29 4,15 3,99 4,31 4,44 4,58 4,71 4,34 20 16,21 14,87 12,50 9,12 6,57 4,34 5,36 5,46 5,63 5,80 5,97 5,49 15 14,76 13,42 11,67 8,28 6,05 4,05 5,47 6,02 6,26 6,51 6,77 6,16 15 15,18 13,80 12,00 8,52 6,22 4,17 8,35 8,44 8,78 9,13 9,49 8,64 20 14,73 13,15 10,96 8,11 5,84 3,56 6,96 7,52 7,67 7,83 7,98 7,34 10 15,36 13,84 11,53 8,53 6,14 3,75 8,69 8,86 9,04 9,22 9,41 8,65 25 12,57 10,93 9,50 7,13 5,06 3,19 7,94 8,34 8,59 8,85 9,11 8,48 5 15,42 13,89 12,08 9,06 6,43 4,05 9,06 9,15 9,43 9,71 10,00 9,30 30 14,23 12,60 10,77 7,97 5,50 3,41 9,54 10,12 10,22 10,32 10,42 9,38 0 15,34 13,70 11,71 8,66 5,98 3,71 9,51 9,70 9,80 9,90 10,00 9,00 35 13,79 12,32 10,44 7,52 5,11 3,22 9,50 9,78 9,88 9,98 10,08 8,97 -5 15,25 13,50 11,44 8,24 5,60 3,53 10,16 10,46 10,56 10,67 10,78 9,59
TW_o
ut 3
5°C
-20 5,15 4,68 3,90 2,73 2,08 / 1,34 1,46 1,49 1,52 1,55 /
TW_o
ut 1
8°C
45 8,36 7,60 6,33 4,43 3,37 / 2,16 2,29 2,33 2,38 2,43 / -15 7,47 6,67 5,65 4,01 5,20 / 1,88 2,03 2,09 2,15 2,22 / 40 10,56 9,78 8,29 5,88 7,63 / 2,59 2,72 2,80 2,89 2,97 / -7 10,69 9,63 8,09 5,58 4,30 / 2,26 2,42 2,47 2,52 2,57 / 35 13,74 13,10 11,01 7,60 5,85 3,80 3,41 3,76 3,84 3,91 3,99 3,59 -2 12,23 10,82 9,33 6,90 5,11 3,58 2,52 2,83 2,91 3,00 3,09 2,81 30 14,24 13,07 11,27 8,34 6,17 4,32 3,87 4,10 4,23 4,35 4,48 4,08 2 13,37 11,94 10,21 7,55 5,74 3,90 2,69 2,93 3,09 3,25 3,43 3,19 25 14,50 13,55 11,58 8,57 6,51 4,43 4,20 4,33 4,56 4,80 5,05 4,70 7 15,08 14,00 11,76 8,59 6,18 4,08 3,89 4,13 4,25 4,38 4,51 4,15 20 14,43 13,23 11,12 8,12 5,85 3,86 4,74 4,83 4,98 5,13 5,28 4,86
15 14,35 13,05 11,34 8,05 5,88 3,94 4,78 5,25 5,46 5,68 5,91 5,38 15 13,75 12,50 10,87 7,72 5,63 3,77 7,38 7,45 7,75 8,06 8,38 7,63 20 13,38 11,95 9,95 7,37 5,30 3,24 5,64 6,09 6,21 6,33 6,46 5,94 10 13,41 12,08 10,07 7,45 5,36 3,27 7,26 7,41 7,55 7,70 7,86 7,23 25 12,30 10,70 9,30 6,98 4,95 3,12 6,62 6,95 7,16 7,38 7,60 7,07 5 13,42 12,09 10,51 7,88 5,60 3,53 7,19 7,27 7,48 7,71 7,94 7,38 30 12,89 11,41 9,75 7,21 4,98 3,09 7,23 7,67 7,75 7,82 7,90 7,11 0 13,35 11,92 10,19 7,54 5,20 3,23 7,49 7,64 7,71 7,79 7,87 7,08 35 13,06 11,66 9,89 7,12 4,84 3,05 7,48 7,70 7,78 7,85 7,93 7,06 -5 13,62 12,06 10,22 7,36 5,00 3,15 9,00 9,28 9,37 9,46 9,56 8,50
TW_o
ut 4
0°C
-20 3,29 2,99 2,49 1,75 1,33 / 1,13 1,23 1,25 1,28 1,30 /
TW_o
ut 1
5°C
45 7,50 6,82 5,68 3,98 3,02 / 1,96 2,08 2,12 2,16 2,21 / -15 7,27 6,49 5,50 3,91 5,06 / 1,80 1,95 2,00 2,06 2,13 / 40 10,49 9,71 8,23 5,84 7,57 / 2,33 2,45 2,52 2,59 2,67 / -7 10,47 9,43 7,92 5,47 4,21 / 2,07 2,22 2,26 2,31 2,36 / 35 13,74 10,40 8,74 6,03 4,64 3,02 2,60 2,67 2,73 2,78 2,84 2,55 -2 11,91 10,54 9,08 6,72 4,97 3,48 2,24 2,51 2,58 2,66 2,74 2,49 30 13,99 12,84 11,06 8,19 6,06 4,24 3,11 3,29 3,39 3,49 3,60 3,27 2 13,73 12,26 10,48 7,76 5,89 4,01 2,50 2,73 2,87 3,02 3,18 2,96 25 15,19 14,20 12,13 8,98 6,82 4,64 3,45 3,55 3,74 3,93 4,14 3,85 7 14,81 13,97 11,74 8,57 6,17 4,07 3,29 3,66 3,77 3,88 3,99 3,68 20 13,29 12,19 10,24 7,48 5,38 3,55 5,11 5,21 5,37 5,53 5,69 5,24
15 12,04 10,95 9,52 6,76 4,93 3,31 4,21 4,63 4,81 5,00 5,20 4,74 15 11,56 10,51 9,14 6,49 4,74 3,17 7,34 7,42 7,71 8,02 8,34 7,59 20 11,95 10,67 8,89 6,58 4,74 2,89 4,88 5,27 5,37 5,48 5,59 5,14 10 11,70 10,54 8,78 6,50 4,68 2,85 7,72 7,87 8,03 8,19 8,36 7,69 25 11,86 10,31 8,97 6,73 4,78 3,01 5,77 6,06 6,25 6,43 6,63 6,16 5 11,46 10,32 8,97 6,73 4,78 3,01 7,07 7,14 7,36 7,58 7,80 7,26 30 12,43 11,00 9,40 6,96 4,80 2,98 6,25 6,62 6,69 6,75 6,82 6,14 0 11,70 10,45 8,93 6,61 4,56 2,83 7,51 7,66 7,74 7,82 7,89 7,10 35 12,74 11,38 9,64 6,94 4,72 2,97 6,43 6,62 6,69 6,76 6,82 6,07 -5 11,79 10,43 8,84 6,36 4,33 2,73 9,43 9,71 9,81 9,91 10,01 8,91
TW_o
ut 4
5°C
-20 / / / / / / / / / / /
TW_o
ut 1
3°C
45 7,40 6,73 5,61 3,93 2,98 / 1,94 2,06 2,10 2,14 2,19 / -15 6,44 5,75 4,88 3,46 4,49 / 1,48 1,60 1,65 1,70 1,75 / 40 9,66 8,94 7,58 5,38 6,98 / 2,16 2,27 2,34 2,41 2,48 / -7 10,61 9,56 8,04 5,54 4,27 / 1,92 2,06 2,10 2,14 2,19 / 35 13,74 10,30 8,66 5,97 4,60 2,99 2,47 2,54 2,59 2,64 2,70 2,43 -2 11,87 10,51 9,06 6,70 4,96 / 2,03 2,27 2,34 2,41 2,48 / 30 15,75 14,45 12,45 9,22 6,82 4,77 2,59 2,75 2,83 2,91 3,00 2,73 2 13,58 12,13 10,37 7,67 5,83 3,96 2,22 2,42 2,55 2,68 2,82 2,62 25 13,83 12,93 11,05 8,18 6,21 4,23 3,45 3,55 3,74 3,94 4,14 3,85 7 13,73 14,05 11,81 8,62 6,21 4,10 2,73 3,19 3,29 3,38 3,49 3,21 20 11,34 10,40 8,74 6,38 4,59 3,03 5,15 5,26 5,41 5,58 5,74 5,28
15 11,31 10,28 8,94 6,35 4,63 3,11 3,64 4,01 4,17 4,33 4,51 4,10 15 10,66 9,69 8,42 5,98 4,37 2,93 6,69 6,75 7,02 7,31 7,60 6,91 20 9,95 8,89 7,40 5,48 3,95 2,41 4,15 4,49 4,58 4,67 4,76 4,38 10 10,58 9,53 7,94 5,88 4,23 2,58 7,21 7,36 7,51 7,66 7,81 7,18 25 11,19 9,73 8,46 6,35 4,51 2,84 4,89 5,14 5,29 5,45 5,62 5,22 5 10,68 9,62 8,36 6,27 4,45 2,81 7,19 7,26 7,48 7,70 7,94 7,38 30 10,83 9,59 8,19 6,06 4,18 2,59 4,41 4,67 4,72 4,76 4,81 4,33 0 10,78 9,62 8,22 6,08 4,20 2,60 7,37 7,52 7,60 7,67 7,75 6,98 35 9,91 8,85 7,50 5,40 3,67 2,31 5,16 5,31 5,37 5,42 5,48 4,87 -5 11,06 9,79 8,29 5,97 4,06 2,56 8,84 9,10 9,19 9,28 9,38 8,35
TW_o
ut 5
0°C
-20 / / / / / / / / / / / /
TW_o
ut 1
0°C
45 6,57 5,97 4,98 3,49 2,65 / 1,79 1,90 1,94 1,98 2,02 / -15 / / / / / / / / / / / / 40 9,28 8,59 7,28 5,17 6,70 / 2,15 2,26 2,33 2,40 2,47 / -7 9,46 8,52 7,16 4,94 3,80 / 1,67 1,79 1,82 1,86 1,90 / 35 13,61 10,30 8,66 5,97 4,60 2,99 2,30 3,21 3,27 3,34 3,41 3,07 -2 10,53 9,32 8,03 5,95 4,40 / 1,87 2,09 2,15 2,22 2,28 / 30 14,48 13,28 11,45 8,47 6,27 4,39 2,43 2,58 2,65 2,73 2,82 2,56 2 12,75 11,38 9,73 7,20 5,47 3,72 2,22 2,42 2,55 2,68 2,83 2,63 25 12,75 11,92 10,19 7,54 5,73 3,90 3,22 3,31 3,49 3,67 3,87 3,60 7 11,20 10,56 8,88 6,48 4,67 3,08 2,66 2,95 3,04 3,13 3,23 2,97 20 10,25 9,40 7,90 5,77 4,15 2,74 4,68 4,78 4,92 5,07 5,22 4,80
15 8,87 8,06 7,01 4,98 3,63 2,44 3,13 3,44 3,58 3,72 3,87 3,52 15 9,69 8,81 7,66 5,44 3,97 2,66 6,04 6,10 6,34 6,59 6,86 6,24 20 9,00 8,03 6,69 4,95 3,57 2,18 3,49 3,77 3,85 3,92 4,00 3,68 10 9,53 8,59 7,16 5,30 3,81 2,33 6,04 6,16 6,29 6,41 6,54 6,02 25 9,50 8,26 7,18 5,39 3,83 2,41 4,15 4,36 4,49 4,63 4,77 4,43 5 9,20 8,29 7,21 5,41 3,84 2,42 5,89 5,95 6,13 6,31 6,50 6,05 30 9,66 8,55 7,31 5,41 3,73 2,31 4,29 4,55 4,59 4,64 4,68 4,22 0 9,32 8,32 7,11 5,26 3,63 2,25 6,23 6,35 6,41 6,48 6,54 5,89 35 8,87 7,92 6,71 4,83 3,29 2,07 4,25 4,38 4,42 4,47 4,51 4,01 -5 9,57 8,47 7,18 5,17 3,51 2,21 7,23 7,45 7,52 7,60 7,67 6,83
TW_o
ut 5
5°C
-20 / / / / / / / / / / / /
TW_o
ut 7
°C
45 5,09 4,62 3,85 2,70 2,05 / 1,27 1,34 1,37 1,40 1,43 / -15 / / / / / / / / / / / / 40 8,42 7,80 6,61 4,69 6,08 / 1,77 1,86 1,91 1,97 2,03 / -7 8,76 7,89 6,63 4,58 3,52 / 1,56 1,67 1,70 1,74 1,77 / 35 13,61 12,49 10,50 7,24 5,58 3,62 2,23 2,46 2,51 2,56 2,61 2,35 -2 9,11 8,06 6,95 5,14 3,81 / 1,62 1,81 1,87 1,92 1,98 / 30 14,50 10,40 8,97 6,63 4,91 3,44 2,27 3,25 3,35 3,45 3,55 3,23 2 5,08 4,54 3,88 2,87 2,18 / 1,98 2,16 2,27 2,39 2,52 / 25 10,55 9,86 8,43 6,24 4,74 3,22 3,01 3,10 3,26 3,43 3,62 3,36 7 8,89 8,39 7,05 5,15 3,71 / 2,25 2,50 2,58 2,65 2,73 / 20 7,61 6,98 5,87 4,28 3,08 2,03 4,10 4,18 4,31 4,44 4,57 4,20
15 7,36 6,69 5,82 4,13 3,01 / 2,56 2,82 2,93 3,04 3,17 / 15 7,59 6,90 6,00 4,26 3,11 2,08 5,59 5,65 5,88 6,11 6,35 5,78 20 7,91 7,06 5,89 4,36 3,14 / 2,91 3,14 3,21 3,27 3,34 / 10 / / / / / / / / / / / / 25 9,94 8,65 7,52 5,64 4,00 / 3,66 3,85 3,96 4,08 4,20 / 5 / / / / / / / / / / / / 30 8,08 7,15 6,11 4,52 3,12 / 3,00 3,18 3,21 3,24 3,28 / 0 / / / / / / / / / / / / 35 3,40 3,03 2,57 1,85 1,26 / 3,45 3,55 3,59 3,63 3,66 / -5 / / / / / / / / / / / /
TW_o
ut 6
0°C
-20 / / / / / / / / / / / /
/
/ / / / / / / / / / / / / -15 / / / / / / / / / / / / / / / / / / / / / / / / / -7 / / / / / / / / / / / / / / / / / / / / / / / / / -2 5,44 4,81 4,15 3,07 2,27 / 1,23 1,37 1,41 1,46 1,50 / / / / / / / / / / / / / / 2 5,65 5,05 4,31 3,19 2,43 / 3,56 3,88 4,09 4,30 4,53 / / / / / / / / / / / / / / 7 5,29 4,99 4,19 3,06 2,20 / 5,52 6,13 6,31 6,50 6,69 / / / / / / / / / / / / / /
15 5,81 5,28 4,59 3,26 2,38 / 3,07 3,37 3,51 3,65 3,79 / / / / / / / / / / / / / / 20 7,91 7,07 5,89 4,36 3,14 / 3,11 3,36 3,43 3,50 3,57 / / / / / / / / / / / / / / 25 7,58 6,59 5,73 4,30 3,05 / 2,99 3,14 3,23 3,33 3,43 / / / / / / / / / / / / / / 30 6,66 5,89 5,04 3,73 2,57 / 2,84 3,01 3,04 3,07 3,10 / / / / / / / / / / / / / / 35 / / / / / / / / / / / / / / / / / / / / / / / / /
Performances data / Dati prestazionali Mod. 14
PERFORMANCES - PRESTAZIONI
The values are referred to units without options and accessories. Data declared according to EN 14511:EER (Energy Efficiency Ratio) = ratio of the total cooling capacity to the effective power input of the unitCOP (Coefficient Of Performance) = ratio of the total heating capacity to the effective power input of the unitTW_out Leaving water temperatureTa outdoor air temperature
I valori si riferiscono ad unità prive di eventuali opzioni o accessori. Dati dichiarati secondo EN 14511:EER (Energy Efficiency Ratio) = rapporto potenza frigorifera su potenza assorbitaCOP (Coefficient Of Performance) = rapporto potenza termica su potenza assorbitaTW_out temperatura acqua prodottaTa temperatura aria esterna
11
TW_o
ut 3
0°C
Ta[°C]
Potenza termica / Heating Capacity [kW] COP
TW_o
ut 2
2°C
Ta[°C]
Potenza frigorifera/Cooling Capacity [kW] EER130% 100% 90% 70% 50% 30% 130% 100% 90% 70% 50% 30% 130% 100% 90% 70% 50% 30% 130% 100% 90% 70% 50% 30%
-20 6,24 5,67 4,73 3,31 2,51 / 1,81 1,97 2,01 2,05 2,09 / 45 10,32 9,39 7,82 5,48 4,16 / 2,66 2,82 2,88 2,94 2,99 / -15 6,91 6,17 5,23 3,71 4,81 / 1,95 2,10 2,17 2,23 2,30 / 40 12,70 11,76 9,96 7,07 9,17 / 2,87 3,01 3,10 3,20 3,29 / -7 10,18 9,17 7,71 5,32 4,10 / 2,49 2,66 2,72 2,77 2,82 / 35 14,68 13,47 11,32 7,81 6,01 3,91 3,62 3,95 4,02 4,10 4,19 3,77 -2 12,72 11,26 9,71 7,18 5,31 3,72 2,95 3,30 3,40 3,51 3,61 3,29 30 15,81 14,51 12,51 9,25 6,85 4,79 4,53 4,80 4,94 5,09 5,24 4,77 2 13,65 12,19 10,42 7,71 5,86 3,98 3,13 3,41 3,59 3,78 3,98 3,70 25 16,05 15,00 12,82 9,49 7,21 4,90 5,37 5,53 5,83 6,13 6,46 6,01 7 15,09 14,24 11,97 8,73 6,29 4,15 4,15 4,48 4,62 4,75 4,90 4,50 20 16,71 15,33 12,88 9,40 6,77 4,47 5,57 5,68 5,85 6,03 6,21 5,71 15 14,76 13,42 11,67 8,28 6,05 4,05 5,68 6,25 6,50 6,76 7,03 6,40 15 15,64 14,22 12,37 8,78 6,41 4,29 8,69 8,77 9,13 9,49 9,87 8,98 20 14,73 13,15 10,96 8,11 5,84 3,56 7,23 7,81 7,97 8,13 8,29 7,63 10 15,83 14,26 11,88 8,79 6,33 3,86 9,04 9,22 9,40 9,59 9,78 9,00 25 12,57 10,93 9,50 7,13 5,06 3,19 8,25 8,66 8,92 9,19 9,47 8,80 5 15,89 14,32 12,45 9,34 6,63 4,18 9,42 9,52 9,80 10,10 10,40 9,67 30 14,23 12,60 10,77 7,97 5,50 3,41 9,91 10,51 10,61 10,72 10,83 9,74 0 15,81 14,11 12,06 8,93 6,16 3,82 9,89 10,09 10,19 10,29 10,40 9,36 35 13,79 12,32 10,44 7,52 5,11 3,22 9,86 10,16 10,26 10,36 10,47 9,32 -5 15,72 13,91 11,79 8,49 5,77 3,64 10,56 10,88 10,99 11,10 11,21 9,97
TW_o
ut 3
5°C
-20 5,15 4,68 3,90 2,73 2,08 / 1,39 1,52 1,55 1,58 1,61 /
TW_o
ut 1
8°C
45 8,61 7,83 6,53 4,57 3,47 / 2,24 2,38 2,43 2,47 2,52 / -15 7,47 6,67 5,65 4,01 5,20 / 1,95 2,11 2,17 2,24 2,30 / 40 10,88 10,07 8,54 6,06 7,86 / 2,69 2,83 2,91 3,00 3,09 / -7 10,69 9,63 8,09 5,58 4,30 / 2,35 2,51 2,56 2,61 2,66 / 35 14,16 13,50 11,34 7,83 6,03 3,92 3,54 3,91 3,99 4,07 4,15 3,73 -2 12,23 10,82 9,33 6,90 5,11 3,58 2,62 2,94 3,03 3,12 3,21 2,92 30 14,68 13,47 11,61 8,59 6,36 4,45 4,02 4,27 4,39 4,53 4,66 4,24 2 13,37 11,94 10,21 7,55 5,74 3,90 2,80 3,05 3,21 3,38 3,56 3,31 25 14,94 13,96 11,94 8,83 6,71 4,56 4,37 4,50 4,74 4,99 5,25 4,89 7 15,08 14,00 11,76 8,59 6,18 4,08 4,04 4,29 4,42 4,55 4,69 4,31 20 14,87 13,64 11,46 8,37 6,02 3,98 4,93 5,03 5,18 5,33 5,49 5,05
15 14,35 13,05 11,34 8,05 5,88 3,94 4,96 5,46 5,68 5,90 6,14 5,59 15 14,17 12,88 11,20 7,95 5,81 3,89 7,67 7,75 8,06 8,38 8,72 7,93 20 13,38 11,95 9,95 7,37 5,30 3,24 5,86 6,32 6,45 6,58 6,71 6,17 10 13,82 12,45 10,37 7,68 5,53 3,37 7,55 7,70 7,86 8,01 8,17 7,52 25 12,30 10,70 9,30 6,98 4,95 3,12 6,88 7,22 7,44 7,66 7,89 7,34 5 13,83 12,46 10,83 8,12 5,77 3,63 7,48 7,56 7,78 8,02 8,26 7,68 30 12,89 11,41 9,75 7,21 4,98 3,09 7,52 7,97 8,05 8,13 8,21 7,39 0 13,76 12,28 10,50 7,77 5,36 3,32 7,79 7,94 8,02 8,10 8,18 7,36 35 13,06 11,66 9,89 7,12 4,84 3,05 7,76 8,00 8,08 8,16 8,24 7,33 -5 14,04 12,42 10,53 7,58 5,15 3,25 9,36 9,65 9,74 9,84 9,94 8,84
TW_o
ut 4
0°C
-20 3,29 2,99 2,49 1,75 1,33 / 1,17 1,27 1,30 1,33 1,35 /
TW_o
ut 1
5°C
45 7,73 7,03 5,86 4,10 3,12 / 2,04 2,16 2,21 2,25 2,30 / -15 7,27 6,49 5,50 3,91 5,06 / 1,87 2,02 2,08 2,14 2,21 / 40 10,81 10,01 8,48 6,02 7,81 / 2,42 2,54 2,62 2,70 2,78 / -7 10,47 9,43 7,92 5,47 4,21 / 2,16 2,31 2,35 2,40 2,45 / 35 14,16 10,40 8,74 6,03 4,64 3,02 2,70 2,78 2,84 2,89 2,95 2,66 -2 11,91 10,54 9,08 6,72 4,97 3,48 2,33 2,60 2,68 2,76 2,85 2,59 30 14,42 13,23 11,40 8,44 6,24 4,37 3,23 3,42 3,53 3,63 3,74 3,40 2 13,73 12,26 10,48 7,76 5,89 4,01 2,60 2,83 2,98 3,14 3,31 3,07 25 15,65 14,63 12,50 9,25 7,03 4,78 3,58 3,69 3,89 4,09 4,31 4,01 7 14,81 13,97 11,74 8,57 6,17 4,07 3,42 3,80 3,91 4,03 4,15 3,82 20 13,69 12,56 10,56 7,71 5,55 3,66 5,31 5,42 5,58 5,75 5,92 5,45
15 12,04 10,95 9,52 6,76 4,93 3,31 4,37 4,81 5,00 5,20 5,41 4,92 15 11,92 10,83 9,42 6,69 4,88 3,27 7,64 7,71 8,02 8,34 8,68 7,90 20 11,95 10,67 8,89 6,58 4,74 2,89 5,07 5,47 5,58 5,69 5,81 5,34 10 12,05 10,86 9,05 6,70 4,82 2,94 8,03 8,19 8,35 8,52 8,69 7,99 25 11,86 10,31 8,97 6,73 4,78 3,01 6,00 6,30 6,49 6,68 6,88 6,40 5 11,81 10,64 9,25 6,94 4,92 3,10 7,35 7,43 7,65 7,88 8,12 7,55 30 12,43 11,00 9,40 6,96 4,80 2,98 6,49 6,88 6,95 7,01 7,09 6,38 0 12,06 10,77 9,20 6,81 4,70 2,91 7,81 7,97 8,05 8,13 8,21 7,39 35 12,74 11,38 9,64 6,94 4,72 2,97 6,68 6,88 6,95 7,02 7,09 6,31 -5 12,15 10,75 9,11 6,56 4,46 2,81 9,80 10,10 10,20 10,30 10,40 9,26
TW_o
ut 4
5°C
-20 / / / / / / / / / / /
TW_o
ut 1
3°C
45 7,63 6,93 5,78 4,04 3,07 / 2,02 2,14 2,19 2,23 2,28 / -15 6,44 5,75 4,88 3,46 4,49 / 1,54 1,67 1,71 1,77 1,82 / 40 9,96 9,22 7,81 5,55 7,19 / 2,25 2,36 2,43 2,50 2,58 / -7 10,61 9,56 8,04 5,54 4,27 / 2,00 2,14 2,18 2,23 2,27 / 35 14,16 10,30 8,66 5,97 4,60 2,99 2,57 2,64 2,70 2,75 2,81 2,52 -2 11,87 10,51 9,06 6,70 4,96 / 2,11 2,36 2,43 2,51 2,58 / 30 16,23 14,89 12,83 9,50 7,03 4,92 2,70 2,86 2,94 3,03 3,12 2,84 2 13,58 12,13 10,37 7,67 5,83 3,96 2,30 2,51 2,64 2,78 2,93 2,73 25 14,25 13,32 11,39 8,43 6,40 4,35 3,58 3,69 3,89 4,09 4,31 4,01 7 13,73 13,93 11,71 8,55 6,15 4,06 2,83 3,31 3,41 3,51 3,62 3,33 20 11,68 10,72 9,01 6,57 4,73 3,12 5,36 5,47 5,63 5,80 5,97 5,49
15 11,31 10,28 8,94 6,35 4,63 3,11 3,78 4,16 4,33 4,50 4,68 4,26 15 10,98 9,98 8,68 6,16 4,50 3,01 6,95 7,02 7,30 7,60 7,90 7,19 20 9,95 8,89 7,40 5,48 3,95 2,41 4,31 4,66 4,75 4,85 4,94 4,55 10 10,90 9,82 8,19 6,06 4,36 2,66 7,50 7,65 7,81 7,96 8,12 7,47 25 11,19 9,73 8,46 6,35 4,51 2,84 5,08 5,34 5,50 5,66 5,83 5,43 5 11,00 9,91 8,62 6,46 4,59 2,89 7,48 7,55 7,78 8,01 8,25 7,67 30 10,83 9,59 8,19 6,06 4,18 2,59 4,58 4,85 4,90 4,95 5,00 4,50 0 11,10 9,91 8,47 6,27 4,33 2,68 7,67 7,82 7,90 7,98 8,06 7,25 35 9,91 8,85 7,50 5,40 3,67 2,31 5,36 5,52 5,58 5,63 5,69 5,06 -5 11,40 10,09 8,55 6,15 4,19 2,64 9,19 9,46 9,56 9,65 9,75 8,68
TW_o
ut 5
0°C
-20 / / / / / / / / / / / /
TW_o
ut 1
0°C
45 6,77 6,16 5,13 3,59 2,73 / 1,86 1,98 2,02 2,06 2,10 / -15 / / / / / / / / / / / / 40 9,56 8,85 7,50 5,33 6,91 / 2,24 2,35 2,42 2,50 2,57 / -7 9,46 8,52 7,16 4,94 3,80 / 1,73 1,86 1,89 1,93 1,97 / 35 14,02 10,30 8,66 5,97 4,60 2,99 2,39 3,21 3,27 3,34 3,41 3,07 -2 10,53 9,32 8,03 5,95 4,40 / 1,94 2,17 2,24 2,30 2,37 / 30 14,92 13,69 11,80 8,73 6,46 4,52 2,53 2,68 2,76 2,84 2,93 2,66 2 12,75 11,38 9,73 7,20 5,47 3,72 2,31 2,51 2,65 2,79 2,94 2,73 25 13,14 12,28 10,50 7,77 5,90 4,02 3,34 3,44 3,63 3,82 4,02 3,74 7 11,20 10,56 8,88 6,48 4,67 3,08 2,76 3,07 3,16 3,25 3,35 3,08 20 10,56 9,69 8,14 5,94 4,28 2,82 4,87 4,97 5,12 5,27 5,43 5,00
15 8,87 8,06 7,01 4,98 3,63 2,44 3,25 3,57 3,72 3,86 4,02 3,66 15 9,99 9,08 7,90 5,61 4,09 2,74 6,28 6,34 6,59 6,86 7,13 6,49 20 9,00 8,03 6,69 4,95 3,57 2,18 3,63 3,92 3,99 4,07 4,16 3,82 10 9,82 8,85 7,38 5,46 3,93 2,40 6,28 6,41 6,54 6,67 6,80 6,26 25 9,50 8,26 7,18 5,39 3,83 2,41 4,32 4,53 4,67 4,81 4,95 4,60 5 9,48 8,54 7,43 5,57 3,96 2,49 6,12 6,19 6,37 6,56 6,76 6,29 30 9,66 8,55 7,31 5,41 3,73 2,31 4,45 4,72 4,77 4,82 4,86 4,38 0 9,61 8,58 7,33 5,42 3,74 2,32 6,47 6,60 6,67 6,74 6,80 6,12 35 8,87 7,92 6,71 4,83 3,29 2,07 4,41 4,55 4,59 4,64 4,69 4,17 -5 9,86 8,73 7,40 5,33 3,62 2,28 7,52 7,74 7,82 7,90 7,98 7,10
TW_o
ut 5
5°C
-20 / / / / / / / / / / / /
TW_o
ut 7
°C
45 5,24 4,77 3,97 2,78 2,11 / 1,32 1,40 1,43 1,45 1,48 / -15 / / / / / / / / / / / / 40 8,68 8,03 6,81 4,83 6,27 / 1,84 1,93 1,99 2,05 2,11 / -7 8,76 7,89 6,63 4,58 3,52 / 1,62 1,74 1,77 1,81 1,84 / 35 14,02 12,53 10,53 7,27 5,59 3,64 2,32 2,40 2,45 2,50 2,55 2,29 -2 9,11 8,06 6,95 5,14 3,81 / 1,68 1,88 1,94 2,00 2,06 / 30 14,94 10,40 8,97 6,63 4,91 3,44 2,36 3,25 3,35 3,45 3,55 3,23 2 5,08 4,54 3,88 2,87 2,18 / 2,06 2,24 2,36 2,49 2,62 / 25 10,87 10,16 8,68 6,43 4,88 3,32 3,13 3,22 3,39 3,57 3,76 3,50 7 8,89 8,39 7,05 5,15 3,71 / 2,34 2,60 2,68 2,76 2,84 / 20 7,84 7,19 6,05 4,41 3,18 2,10 4,26 4,35 4,48 4,61 4,75 4,37
15 7,36 6,69 5,82 4,13 3,01 / 2,66 2,92 3,04 3,16 3,29 / 15 7,82 7,11 6,18 4,39 3,20 2,15 5,82 5,87 6,11 6,35 6,61 6,01 20 7,91 7,06 5,89 4,36 3,14 / 3,02 3,27 3,33 3,40 3,47 / 10 / / / / / / / / / / / / 25 9,94 8,65 7,52 5,64 4,00 / 3,80 3,99 4,11 4,24 4,36 / 5 / / / / / / / / / / / / 30 8,08 7,15 6,11 4,52 3,12 / 3,12 3,30 3,34 3,37 3,40 / 0 / / / / / / / / / / / / 35 3,40 3,03 2,57 1,85 1,26 / 3,59 3,69 3,73 3,77 3,80 / -5 / / / / / / / / / / / /
TW_o
ut 6
0°C
-20 / / / / / / / / / / / /
/
/ / / / / / / / / / / / / -15 / / / / / / / / / / / / / / / / / / / / / / / / / -7 / / / / / / / / / / / / / / / / / / / / / / / / / -2 5,44 4,81 4,15 3,07 2,27 / 1,27 1,43 1,47 1,51 1,56 / / / / / / / / / / / / / / 2 5,65 5,05 4,31 3,19 2,43 / 3,70 4,03 4,24 4,47 4,71 / / / / / / / / / / / / / / 7 5,29 4,99 4,19 3,06 2,20 / 5,73 6,36 6,55 6,75 6,95 / / / / / / / / / / / / / /
15 5,81 5,28 4,59 3,26 2,38 / 3,18 3,50 3,64 3,79 3,94 / / / / / / / / / / / / / / 20 7,91 7,07 5,89 4,36 3,14 / 3,23 3,49 3,56 3,63 3,70 / / / / / / / / / / / / / / 25 7,58 6,59 5,73 4,30 3,05 / 3,11 3,26 3,36 3,46 3,56 / / / / / / / / / / / / / / 30 6,66 5,89 5,04 3,73 2,57 / 2,95 3,12 3,15 3,18 3,22 / / / / / / / / / / / / / / 35 / / / / / / / / / / / / / / / / / / / / / / / / /
Performances data / Dati prestazionali Mod. 14T
PERFORMANCES - PRESTAZIONI
The values are referred to units without options and accessories. Data declared according to EN 14511:EER (Energy Efficiency Ratio) = ratio of the total cooling capacity to the effective power input of the unitCOP (Coefficient Of Performance) = ratio of the total heating capacity to the effective power input of the unitTW_out Leaving water temperatureTa outdoor air temperature
I valori si riferiscono ad unità prive di eventuali opzioni o accessori. Dati dichiarati secondo EN 14511:EER (Energy Efficiency Ratio) = rapporto potenza frigorifera su potenza assorbitaCOP (Coefficient Of Performance) = rapporto potenza termica su potenza assorbitaTW_out temperatura acqua prodottaTa temperatura aria esterna
12
TW_o
ut 3
0°C
Ta[°C]
Potenza termica / Heating Capacity [kW] COP
TW_o
ut 2
2°C
Ta[°C]
Potenza frigorifera/Cooling Capacity [kW] EER130% 100% 90% 70% 50% 30% 130% 100% 90% 70% 50% 30% 130% 100% 90% 70% 50% 30% 130% 100% 90% 70% 50% 30%
-20 6,81 6,19 5,16 3,61 2,74 / 1,84 2,01 2,05 2,09 2,13 / 45 11,35 10,32 8,60 6,02 4,57 / 3,03 3,21 3,27 3,34 3,40 / -15 7,43 6,63 5,62 3,99 5,17 / 1,95 2,10 2,17 2,23 2,30 / 40 13,74 12,73 10,78 7,66 9,93 / 3,46 3,63 3,74 3,86 3,97 / -7 10,99 9,90 8,32 5,74 4,42 / 2,48 2,65 2,71 2,76 2,82 / 35 14,57 13,36 11,23 7,75 5,97 3,88 3,71 3,82 3,89 3,97 4,05 3,64 -2 12,92 11,44 9,86 7,30 5,40 3,78 2,92 3,27 3,37 3,47 3,58 3,25 30 16,17 14,84 12,79 9,47 7,01 4,90 5,00 5,30 5,46 5,62 5,79 5,27 2 13,87 12,38 10,58 7,83 5,95 4,05 3,06 3,34 3,51 3,70 3,90 3,62 25 16,42 15,35 13,12 9,71 7,38 5,02 5,87 6,04 6,36 6,70 7,06 6,56 7 16,07 15,45 12,99 9,48 6,83 4,50 3,69 4,10 4,22 4,35 4,48 4,12 20 18,16 16,66 14,00 10,22 7,36 4,86 5,94 6,05 6,24 6,42 6,62 6,09 15 15,39 13,99 12,17 8,64 6,31 4,23 5,17 5,69 5,92 6,16 6,40 5,83 15 16,43 14,94 12,99 9,22 6,73 4,51 8,82 8,91 9,26 9,63 10,02 9,12 20 15,26 13,62 11,35 8,40 6,05 3,69 6,40 6,92 7,06 7,20 7,34 6,75 10 16,52 14,88 12,40 9,18 6,61 4,03 8,92 9,10 9,28 9,47 9,66 8,89 25 13,29 11,55 10,05 7,53 5,35 3,37 7,39 7,76 8,00 8,24 8,48 7,89 5 16,92 15,24 13,25 9,94 7,06 4,45 9,41 9,51 9,79 10,09 10,39 9,66 30 15,05 13,32 11,38 8,42 5,81 3,60 8,81 9,34 9,43 9,52 9,62 8,66 0 16,83 15,03 12,84 9,50 6,56 4,07 9,80 10,00 10,10 10,20 10,30 9,27 35 14,58 13,02 11,03 7,94 5,40 3,40 8,69 8,95 9,04 9,13 9,22 8,21 -5 16,73 14,81 12,55 9,04 6,14 3,87 10,38 10,69 10,79 10,90 11,01 9,80
TW_o
ut 3
5°C
-20 5,89 5,35 4,46 3,12 2,37 / 1,49 1,63 1,66 1,69 1,73 /
TW_o
ut 1
8°C
45 9,91 9,01 7,51 5,26 4,00 / 2,68 2,85 2,90 2,96 3,02 / -15 8,28 7,39 6,26 4,45 5,77 / 2,03 2,19 2,25 2,32 2,39 / 40 12,15 11,25 9,53 6,77 8,77 / 3,11 3,27 3,37 3,47 3,57 / -7 11,69 10,54 8,85 6,11 4,70 / 2,38 2,55 2,60 2,65 2,71 / 35 14,36 13,80 11,60 8,00 6,16 4,00 3,49 3,66 3,73 3,81 3,88 3,50 -2 12,54 11,09 9,56 7,08 5,24 3,67 2,64 2,95 3,04 3,13 3,23 2,94 30 15,39 14,11 12,17 9,00 6,66 4,66 4,51 4,78 4,93 5,07 5,23 4,76 2 13,64 12,18 10,41 7,70 5,85 3,98 2,77 3,02 3,18 3,35 3,53 3,28 25 16,23 15,16 12,96 9,59 7,29 4,96 4,83 4,97 5,24 5,52 5,81 5,40 7 15,91 15,50 13,03 9,51 6,85 4,52 3,54 4,06 4,18 4,31 4,44 4,08 20 16,64 15,27 12,83 9,37 6,74 4,45 5,54 5,65 5,82 5,99 6,17 5,68
15 15,27 13,89 12,07 8,57 6,26 4,19 4,67 5,14 5,34 5,56 5,78 5,26 15 15,19 13,81 12,01 8,53 6,22 4,17 8,05 8,13 8,46 8,80 9,15 8,33 20 14,24 12,72 10,60 7,84 5,65 3,44 5,42 5,85 5,97 6,09 6,21 5,71 10 14,81 13,34 11,12 8,23 5,92 3,61 7,79 7,94 8,10 8,27 8,43 7,76 25 13,17 11,45 9,96 7,47 5,30 3,34 6,36 6,67 6,87 7,08 7,29 6,78 5 14,90 13,43 11,68 8,76 6,22 3,92 7,71 7,79 8,02 8,26 8,51 7,91 30 13,87 12,28 10,49 7,76 5,36 3,32 6,94 7,35 7,43 7,50 7,58 6,82 0 14,91 13,31 11,38 8,42 5,81 3,60 8,02 8,18 8,26 8,34 8,42 7,58 35 14,14 12,62 10,70 7,70 5,24 3,30 7,16 7,38 7,45 7,52 7,60 6,76 -5 15,30 13,54 11,48 8,26 5,62 3,54 9,63 9,92 10,02 10,12 10,22 9,10
TW_o
ut 4
0°C
-20 3,80 3,46 2,88 2,02 1,53 / 1,27 1,38 1,41 1,44 1,47 /
TW_o
ut 1
5°C
45 8,99 8,17 6,81 4,77 3,62 / 2,47 2,62 2,67 2,72 2,78 / -15 8,06 7,20 6,10 4,33 5,61 / 1,95 2,10 2,17 2,23 2,30 / 40 12,07 11,17 9,47 6,72 8,71 / 2,81 2,95 3,04 3,13 3,23 / -7 11,30 10,18 8,55 5,90 4,54 / 2,17 2,32 2,37 2,42 2,46 / 35 14,27 13,09 11,00 7,59 5,85 3,80 3,21 3,30 3,37 3,44 3,51 3,16 -2 12,02 10,63 9,17 6,78 5,02 3,51 2,31 2,59 2,67 2,75 2,83 2,58 30 15,48 14,20 12,24 9,06 6,70 4,69 3,59 3,80 3,91 4,03 4,15 3,78 2 13,72 12,25 10,47 7,75 5,89 4,00 2,55 2,78 2,92 3,08 3,24 3,02 25 15,75 14,72 12,58 9,31 7,07 4,81 3,92 4,04 4,25 4,48 4,71 4,38 7 16,26 15,34 12,89 9,41 6,78 4,47 3,32 3,69 3,80 3,91 4,03 3,71 20 14,88 13,65 11,47 8,38 6,03 3,98 5,75 5,87 6,05 6,23 6,41 5,90
15 12,42 11,30 9,82 6,97 5,09 3,41 4,04 4,44 4,62 4,81 5,00 4,55 15 12,39 11,26 9,79 6,95 5,07 3,40 7,88 7,96 8,27 8,60 8,95 8,14 20 12,37 11,04 9,20 6,81 4,90 2,99 4,64 5,01 5,11 5,22 5,32 4,89 10 12,56 11,32 9,43 6,98 5,02 3,06 8,20 8,37 8,53 8,70 8,88 8,17 25 12,29 10,69 9,29 6,97 4,95 3,12 5,47 5,74 5,91 6,09 6,27 5,83 5 12,32 11,10 9,65 7,24 5,14 3,24 7,47 7,55 7,77 8,01 8,25 7,67 30 12,88 11,40 9,74 7,21 4,97 3,08 5,91 6,27 6,33 6,39 6,46 5,81 0 12,58 11,24 9,60 7,11 4,90 3,04 7,94 8,09 8,17 8,26 8,34 7,51 35 13,20 11,79 9,99 7,19 4,89 3,08 6,09 6,27 6,33 6,39 6,46 5,75 -5 12,67 11,21 9,50 6,84 4,65 2,93 9,96 10,26 10,36 10,47 10,57 9,41
TW_o
ut 4
5°C
-20 / / / / / / / / / / / /
TW_o
ut 1
3°C
45 8,53 7,75 6,46 4,52 3,44 / 2,36 2,50 2,55 2,60 2,66 / -15 8,15 7,27 6,16 4,38 5,67 / 1,55 1,67 1,72 1,77 1,83 / 40 11,46 10,61 8,99 6,38 8,28 / 2,71 2,85 2,93 3,02 3,11 / -7 12,75 11,49 9,66 6,66 5,13 / 1,90 2,03 2,07 2,12 2,16 / 35 13,63 12,51 10,51 7,25 5,58 3,63 2,93 3,01 3,07 3,14 3,20 2,88 -2 13,25 11,72 10,11 7,48 5,53 / 1,97 2,21 2,27 2,34 2,41 / 30 16,49 15,13 13,04 9,65 7,14 5,00 3,02 3,21 3,30 3,40 3,50 3,19 2 15,00 13,39 11,45 8,47 6,44 4,38 2,13 2,32 2,44 2,57 2,71 2,52 25 14,34 13,40 11,45 8,47 6,44 4,38 3,97 4,09 4,30 4,53 4,77 4,44 7 16,23 16,05 13,49 9,85 7,09 4,68 2,75 3,19 3,29 3,38 3,49 3,21 20 12,70 11,65 9,79 7,15 5,14 3,40 5,89 6,01 6,19 6,37 6,56 6,04
15 12,86 11,69 10,16 7,22 5,27 3,53 3,31 3,64 3,78 3,93 4,09 3,72 15 11,37 10,33 8,99 6,38 4,66 3,12 7,29 7,36 7,66 7,96 8,28 7,54 20 11,36 10,14 8,45 6,25 4,50 2,75 3,73 4,03 4,11 4,19 4,27 3,93 10 11,33 10,21 8,51 6,30 4,53 2,77 7,78 7,93 8,09 8,25 8,42 7,75 25 12,72 11,06 9,62 7,22 5,12 3,23 4,32 4,54 4,68 4,82 4,96 4,61 5 11,39 10,26 8,92 6,69 4,75 2,99 7,63 7,70 7,93 8,17 8,42 7,83 30 12,31 10,89 9,31 6,89 4,75 2,95 3,89 4,12 4,17 4,21 4,25 3,82 0 11,49 10,26 8,77 6,49 4,48 2,78 7,82 7,98 8,06 8,14 8,22 7,40 35 11,26 10,06 8,52 6,14 4,17 2,63 4,56 4,69 4,74 4,79 4,84 4,30 -5 11,80 10,44 8,85 6,37 4,33 2,73 9,37 9,65 9,75 9,85 9,95 8,85
TW_o
ut 5
0°C
-20 / / / / / / / / / / / /
TW_o
ut 1
0°C
45 7,36 6,69 5,58 3,90 2,97 / 2,09 2,21 2,26 2,30 2,35 / -15 / / / / / / / / / / / / 40 11,66 10,79 9,15 6,49 8,42 / 2,51 2,63 2,71 2,79 2,88 / -7 10,35 9,33 7,84 5,41 4,16 / 1,79 1,92 1,96 2,00 2,04 / 35 13,43 12,32 10,35 7,14 5,50 3,57 2,64 2,72 2,77 2,83 2,88 2,60 -2 10,70 9,47 8,16 6,04 4,47 / 1,98 2,21 2,28 2,35 2,42 / 30 15,94 14,63 12,61 9,33 6,91 4,83 2,88 3,05 3,14 3,23 3,33 3,03 2 12,78 11,41 9,75 7,22 5,49 3,73 2,32 2,52 2,66 2,80 2,95 2,74 25 14,73 13,77 11,77 8,71 6,62 4,50 3,74 3,86 4,06 4,28 4,50 4,19 7 12,04 11,35 9,54 6,97 5,02 3,31 2,74 3,04 3,14 3,23 3,33 3,06 20 11,43 10,49 8,81 6,43 4,63 3,06 5,39 5,50 5,66 5,83 6,01 5,53
15 9,01 8,19 7,12 5,06 3,69 2,47 3,05 3,36 3,49 3,63 3,78 3,44 15 10,22 9,29 8,08 5,74 4,19 2,81 6,58 6,64 6,91 7,18 7,47 6,80 20 9,30 8,30 6,92 5,12 3,68 2,25 3,43 3,70 3,78 3,85 3,93 3,62 10 10,22 9,21 7,68 5,68 4,09 2,49 6,63 6,76 6,90 7,03 7,17 6,60 25 10,18 8,85 7,70 5,77 4,10 2,58 4,22 4,43 4,56 4,70 4,84 4,50 5 10,23 9,22 8,02 6,01 4,27 2,69 6,67 6,74 6,94 7,15 7,36 6,85 30 10,35 9,16 7,83 5,79 4,00 2,48 4,35 4,61 4,66 4,70 4,75 4,28 0 10,37 9,26 7,91 5,85 4,04 2,50 7,05 7,19 7,26 7,34 7,41 6,67 35 9,51 8,49 7,20 5,18 3,52 2,22 4,31 4,44 4,49 4,53 4,58 4,07 -5 10,65 9,42 7,98 5,75 3,91 2,46 8,19 8,43 8,52 8,60 8,69 7,73
TW_o
ut 5
5°C
-20 / / / / / / / / / / / /
TW_o
ut 7
°C
45 6,45 6,26 5,22 3,65 2,78 / 1,50 1,59 1,62 1,65 1,68 / -15 / / / / / / / / / / / / 40 10,97 10,55 8,94 6,34 8,23 / 2,09 2,19 2,26 2,33 2,40 / -7 9,97 8,98 7,54 5,21 4,01 / 1,75 1,88 1,91 1,95 1,99 / 35 13,35 12,85 10,80 7,45 5,74 3,73 2,33 2,38 2,43 2,48 2,53 2,27 -2 9,47 8,38 7,22 5,34 3,95 / 1,77 1,98 2,04 2,10 2,17 / 30 15,80 15,12 13,04 9,65 7,14 5,00 2,57 2,72 2,80 2,89 2,97 2,71 2 5,22 4,66 3,99 2,95 2,24 / 2,13 2,32 2,45 2,58 2,71 / 25 14,48 13,89 11,88 8,79 6,68 4,54 3,51 3,62 3,81 4,01 4,22 3,93 7 9,73 9,18 7,72 5,63 4,06 / 2,38 2,65 2,73 2,81 2,89 / 20 10,89 10,48 8,80 6,43 4,63 3,05 4,71 4,80 4,95 5,09 5,25 4,83
15 7,59 6,90 6,00 4,26 3,11 / 2,56 2,81 2,93 3,04 3,17 / 15 10,05 9,76 8,49 6,03 4,40 2,95 6,07 6,13 6,37 6,63 6,89 6,27 20 8,24 7,36 6,13 4,54 3,27 / 2,92 3,15 3,21 3,28 3,34 / 10 / / / / / / / / / / / / 25 10,56 9,18 7,98 5,99 4,25 / 3,70 3,89 4,00 4,12 4,25 / 5 / / / / / / / / / / / / 30 8,57 7,59 6,48 4,80 3,31 / 3,03 3,21 3,25 3,28 3,31 / 0 / / / / / / / / / / / / 35 3,60 3,22 2,73 1,96 1,34 / 3,49 3,59 3,63 3,67 3,70 / -5 / / / / / / / / / / / /
TW_o
ut 6
0°C
-20 / / / / / / / / / / / /
/
/ / / / / / / / / / / / / -15 / / / / / / / / / / / / / / / / / / / / / / / / / -7 / / / / / / / / / / / / / / / / / / / / / / / / / -2 5,59 4,95 4,26 3,15 2,33 / 1,32 1,48 1,52 1,57 1,61 / / / / / / / / / / / / / / 2 5,74 5,12 4,38 3,24 2,46 / 3,77 4,11 4,33 4,56 4,80 / / / / / / / / / / / / / / 7 5,74 5,41 4,55 3,32 2,39 / 5,76 6,40 6,59 6,79 6,99 / / / / / / / / / / / / / /
15 5,94 5,40 4,70 3,34 2,44 / 3,03 3,33 3,46 3,60 3,75 / / / / / / / / / / / / / / 20 8,21 7,33 6,11 4,52 3,25 / 3,09 3,33 3,40 3,47 3,54 / / / / / / / / / / / / / / 25 8,08 7,03 6,11 4,58 3,25 / 3,03 3,18 3,27 3,37 3,47 / / / / / / / / / / / / / / 30 7,10 6,28 5,37 3,97 2,74 / 2,87 3,04 3,07 3,10 3,14 / / / / / / / / / / / / / / 35 / / / / / / / / / / / / / / / / / / / / / / / / /
Performances data / Dati prestazionali Mod. 16
PERFORMANCES - PRESTAZIONI
The values are referred to units without options and accessories. Data declared according to EN 14511:EER (Energy Efficiency Ratio) = ratio of the total cooling capacity to the effective power input of the unitCOP (Coefficient Of Performance) = ratio of the total heating capacity to the effective power input of the unitTW_out Leaving water temperatureTa outdoor air temperature
I valori si riferiscono ad unità prive di eventuali opzioni o accessori. Dati dichiarati secondo EN 14511:EER (Energy Efficiency Ratio) = rapporto potenza frigorifera su potenza assorbitaCOP (Coefficient Of Performance) = rapporto potenza termica su potenza assorbitaTW_out temperatura acqua prodottaTa temperatura aria esterna
13
TW_o
ut 3
0°C
Ta[°C]
Potenza termica / Heating Capacity [kW] COP
TW_o
ut 2
2°C
Ta[°C]
Potenza frigorifera/Cooling Capacity [kW] EER130% 100% 90% 70% 50% 30% 130% 100% 90% 70% 50% 30% 130% 100% 90% 70% 50% 30% 130% 100% 90% 70% 50% 30%
-20 6,91 6,28 5,23 3,66 2,78 / 1,72 1,88 1,91 1,95 1,99 / 45 11,09 10,08 8,40 5,88 4,47 / 2,51 2,66 2,71 2,76 2,82 / -15 7,65 6,83 5,79 4,11 5,33 / 1,86 2,01 2,07 2,13 2,19 / 40 13,64 12,63 10,70 7,60 9,85 / 2,70 2,83 2,92 3,01 3,10 / -7 11,27 10,16 8,54 5,89 4,53 / 2,37 2,54 2,59 2,64 2,69 / 35 15,77 14,47 12,16 8,39 6,46 4,20 3,41 3,71 3,79 3,86 3,94 3,55 -2 14,08 12,46 10,75 7,95 5,88 4,12 2,81 3,15 3,24 3,34 3,44 3,13 30 16,98 15,58 13,43 9,94 7,36 5,15 4,26 4,51 4,65 4,79 4,93 4,49 2 15,11 13,49 11,53 8,54 6,49 4,41 2,98 3,25 3,42 3,60 3,79 3,53 25 17,24 16,11 13,77 10,19 7,74 5,27 5,05 5,21 5,48 5,77 6,08 5,65 7 16,71 15,76 13,25 9,67 6,96 4,60 3,96 4,27 4,40 4,53 4,67 4,29 20 17,94 16,46 13,83 10,10 7,27 4,80 5,24 5,35 5,51 5,67 5,84 5,37 15 16,34 14,85 12,92 9,17 6,69 4,49 5,42 5,96 6,20 6,45 6,71 6,10 15 16,80 15,27 13,28 9,43 6,88 4,61 8,18 8,26 8,59 8,93 9,29 8,45 20 16,31 14,56 12,13 8,98 6,46 3,94 6,90 7,45 7,60 7,75 7,90 7,27 10 17,00 15,32 12,76 9,44 6,80 4,15 8,51 8,68 8,85 9,03 9,21 8,47 25 13,91 12,10 10,52 7,89 5,60 3,53 7,87 8,26 8,51 8,76 9,03 8,39 5 17,07 15,38 13,37 10,03 7,12 4,49 8,87 8,96 9,22 9,50 9,79 9,10 30 15,76 13,95 11,92 8,82 6,09 3,77 9,45 10,02 10,12 10,22 10,32 9,29 0 16,98 15,16 12,96 9,59 6,62 4,10 9,31 9,50 9,59 9,69 9,79 8,81 35 15,27 13,64 11,56 8,32 5,66 3,56 9,40 9,69 9,78 9,88 9,98 8,88 -5 16,88 14,94 12,66 9,12 6,20 3,91 9,94 10,24 10,34 10,44 10,55 9,39
TW_o
ut 3
5°C
-20 5,70 5,18 4,32 3,02 2,30 / 1,33 1,45 1,47 1,50 1,53 /
TW_o
ut 1
8°C
45 9,25 8,41 7,01 4,91 3,73 / 2,11 2,24 2,28 2,33 2,38 / -15 8,27 7,38 6,26 4,44 5,76 / 1,86 2,01 2,07 2,13 2,20 / 40 11,69 10,82 9,17 6,51 8,44 / 2,53 2,66 2,74 2,82 2,91 / -7 11,83 10,66 8,96 6,18 4,76 / 2,24 2,39 2,44 2,49 2,54 / 35 15,20 14,50 12,18 8,41 6,47 4,21 3,33 3,68 3,75 3,83 3,91 3,51 -2 13,54 11,98 10,33 7,64 5,66 3,96 2,50 2,80 2,88 2,97 3,06 2,78 30 15,77 14,47 12,47 9,23 6,83 4,78 3,79 4,02 4,14 4,26 4,39 3,99 2 14,81 13,22 11,30 8,36 6,35 4,32 2,67 2,91 3,06 3,22 3,39 3,15 25 16,05 15,00 12,82 9,49 7,21 4,90 4,11 4,24 4,46 4,70 4,95 4,60 7 16,69 15,50 13,03 9,51 6,85 4,52 3,85 4,09 4,21 4,34 4,47 4,11 20 15,97 14,65 12,31 8,99 6,47 4,27 4,64 4,73 4,87 5,02 5,17 4,76
15 15,89 14,44 12,56 8,92 6,51 4,36 4,73 5,20 5,41 5,63 5,85 5,33 15 15,22 13,84 12,03 8,54 6,24 4,18 7,22 7,29 7,58 7,89 8,20 7,46 20 14,81 13,23 11,02 8,16 5,87 3,58 5,58 6,03 6,15 6,27 6,40 5,89 10 14,84 13,37 11,14 8,24 5,94 3,62 7,11 7,25 7,39 7,54 7,69 7,08 25 13,62 11,84 10,30 7,72 5,48 3,46 6,56 6,89 7,09 7,30 7,52 7,00 5 14,85 13,38 11,64 8,73 6,20 3,90 7,04 7,11 7,32 7,54 7,77 7,23 30 14,27 12,63 10,79 7,99 5,51 3,42 7,16 7,59 7,67 7,75 7,82 7,04 0 14,78 13,19 11,28 8,35 5,76 3,57 7,33 7,48 7,55 7,63 7,70 6,93 35 14,46 12,91 10,94 7,88 5,36 3,38 7,40 7,62 7,70 7,78 7,86 6,99 -5 15,08 13,34 11,31 8,14 5,54 3,49 8,81 9,08 9,17 9,26 9,35 8,32
TW_o
ut 4
0°C
-20 3,65 3,31 2,76 1,93 1,47 / 1,11 1,22 1,24 1,26 1,29 /
TW_o
ut 1
5°C
45 8,31 7,55 6,29 4,40 3,35 / 1,92 2,04 2,08 2,12 2,16 / -15 8,05 7,19 6,09 4,32 5,61 / 1,78 1,93 1,98 2,04 2,11 / 40 11,61 10,75 9,11 6,47 8,38 / 2,28 2,39 2,47 2,54 2,62 / -7 11,59 10,44 8,77 6,05 4,66 / 2,05 2,20 2,24 2,29 2,33 / 35 15,20 10,40 8,74 6,03 4,64 3,02 2,54 2,62 2,67 2,72 2,78 2,50 -2 13,18 11,67 10,06 7,44 5,51 3,86 2,22 2,48 2,56 2,63 2,71 2,47 30 15,49 14,21 12,25 9,06 6,71 4,69 3,04 3,22 3,32 3,42 3,52 3,20 2 15,21 13,58 11,60 8,59 6,53 4,44 2,48 2,70 2,84 2,99 3,15 2,93 25 16,81 15,71 13,43 9,94 7,55 5,14 3,37 3,47 3,66 3,85 4,06 3,77 7 16,39 15,47 13,00 9,49 6,83 4,51 3,26 3,62 3,73 3,84 3,96 3,64 20 14,71 13,49 11,34 8,28 5,96 3,93 5,00 5,10 5,25 5,41 5,57 5,13
15 13,33 12,12 10,54 7,48 5,46 3,66 4,17 4,58 4,76 4,96 5,15 4,69 15 12,80 11,64 10,12 7,18 5,24 3,51 7,19 7,26 7,55 7,85 8,17 7,43 20 13,23 11,82 9,85 7,29 5,25 3,20 4,83 5,22 5,32 5,43 5,53 5,09 10 12,95 11,66 9,72 7,19 5,18 3,16 7,56 7,71 7,86 8,02 8,18 7,52 25 13,13 11,42 9,93 7,45 5,29 3,33 5,72 6,00 6,18 6,37 6,56 6,10 5 12,68 11,42 9,93 7,45 5,29 3,33 6,92 6,99 7,20 7,42 7,64 7,10 30 13,76 12,18 10,41 7,70 5,32 3,30 6,19 6,56 6,62 6,69 6,75 6,08 0 12,95 11,57 9,89 7,32 5,05 3,13 7,35 7,50 7,57 7,65 7,73 6,95 35 14,11 12,59 10,67 7,68 5,23 3,29 6,37 6,56 6,62 6,69 6,76 6,01 -5 13,05 11,54 9,78 7,04 4,79 3,02 9,23 9,50 9,60 9,70 9,79 8,72
TW_o
ut 4
5°C
-20 / / / / / / / / / / /
TW_o
ut 1
3°C
45 8,19 7,45 6,21 4,34 3,30 / 1,90 2,02 2,06 2,10 2,14 / -15 7,14 6,37 5,40 3,83 4,97 / 1,47 1,59 1,64 1,68 1,73 / 40 10,69 9,90 8,39 5,96 7,72 / 2,12 2,22 2,29 2,36 2,43 / -7 11,75 10,59 8,90 6,14 4,73 / 1,91 2,04 2,08 2,12 2,16 / 35 15,20 10,30 8,66 5,97 4,60 2,99 2,42 2,49 2,54 2,59 2,64 2,38 -2 13,15 11,63 10,03 7,42 5,49 / 2,01 2,25 2,32 2,39 2,46 / 30 17,43 15,99 13,79 10,20 7,55 5,28 2,54 2,69 2,77 2,85 2,94 2,67 2 15,04 13,43 11,48 8,49 6,45 4,39 2,20 2,39 2,52 2,65 2,80 2,60 25 15,31 14,31 12,23 9,05 6,88 4,68 3,37 3,47 3,66 3,85 4,06 3,77 7 15,20 15,48 13,01 9,50 6,84 4,51 2,70 3,18 3,28 3,37 3,47 3,20 20 12,55 11,51 9,67 7,06 5,08 3,36 5,04 5,14 5,30 5,46 5,62 5,17
15 12,52 11,39 9,90 7,03 5,13 3,44 3,61 3,97 4,13 4,29 4,46 4,06 15 11,79 10,72 9,32 6,62 4,83 3,24 6,55 6,61 6,87 7,15 7,44 6,77 20 11,02 9,84 8,20 6,07 4,37 2,66 4,11 4,44 4,53 4,62 4,71 4,34 10 11,71 10,55 8,79 6,51 4,69 2,86 7,06 7,20 7,35 7,49 7,64 7,03 25 12,39 10,78 9,37 7,03 4,99 3,14 4,85 5,09 5,24 5,40 5,56 5,17 5 11,82 10,65 9,26 6,94 4,93 3,11 7,04 7,11 7,32 7,54 7,77 7,22 30 11,99 10,61 9,07 6,71 4,63 2,87 4,36 4,62 4,67 4,72 4,76 4,29 0 11,93 10,65 9,10 6,74 4,65 2,88 7,22 7,36 7,44 7,51 7,59 6,83 35 10,97 9,80 8,30 5,98 4,06 2,56 5,11 5,26 5,32 5,37 5,42 4,83 -5 12,24 10,83 9,18 6,61 4,50 2,83 8,65 8,91 9,00 9,09 9,18 8,17
TW_o
ut 5
0°C
-20 / / / / / / / / / / / /
TW_o
ut 1
0°C
45 7,27 6,61 5,51 3,86 2,93 / 1,75 1,86 1,90 1,94 1,97 / -15 / / / / / / / / / / / / 40 10,27 9,51 8,06 5,72 7,42 / 2,11 2,21 2,28 2,35 2,42 / -7 10,47 9,43 7,93 5,47 4,21 / 1,65 1,77 1,81 1,84 1,88 / 35 15,06 10,30 8,66 5,97 4,60 2,99 2,25 3,21 3,27 3,34 3,41 3,07 -2 11,66 10,32 8,90 6,58 4,87 / 1,85 2,07 2,13 2,20 2,26 / 30 16,02 14,70 12,67 9,38 6,94 4,86 2,38 2,52 2,60 2,68 2,76 2,51 2 14,11 12,60 10,77 7,97 6,06 4,12 2,20 2,40 2,52 2,66 2,80 2,60 25 14,12 13,19 11,28 8,34 6,34 4,31 3,15 3,24 3,41 3,60 3,79 3,52 7 12,40 11,70 9,83 7,18 5,17 3,41 2,63 2,92 3,01 3,10 3,20 2,94 20 11,34 10,41 8,74 6,38 4,60 3,03 4,58 4,68 4,82 4,96 5,11 4,70
15 9,82 8,93 7,76 5,51 4,02 2,70 3,10 3,41 3,54 3,68 3,83 3,49 15 10,73 9,75 8,48 6,02 4,40 2,95 5,91 5,97 6,20 6,45 6,71 6,11 20 9,96 8,89 7,41 5,48 3,95 2,41 3,46 3,73 3,81 3,88 3,96 3,65 10 10,55 9,51 7,92 5,86 4,22 2,57 5,91 6,03 6,15 6,28 6,40 5,89 25 10,52 9,15 7,95 5,97 4,24 2,67 4,11 4,32 4,45 4,58 4,72 4,39 5 10,18 9,17 7,98 5,98 4,25 2,68 5,76 5,82 6,00 6,18 6,36 5,92 30 10,69 9,46 8,09 5,99 4,13 2,56 4,25 4,50 4,55 4,59 4,64 4,17 0 10,32 9,21 7,87 5,83 4,02 2,49 6,09 6,22 6,28 6,34 6,40 5,76 35 9,82 8,77 7,43 5,35 3,64 2,29 4,21 4,34 4,38 4,42 4,47 3,98 -5 10,59 9,37 7,94 5,72 3,89 2,45 7,08 7,29 7,36 7,44 7,51 6,68
TW_o
ut 5
5°C
-20 / / / / / / / / / / / /
TW_o
ut 7
°C
45 5,63 5,12 4,27 2,99 2,27 / 1,24 1,32 1,34 1,37 1,40 / -15 / / / / / / / / / / / / 40 9,32 8,63 7,31 5,19 6,73 / 1,73 1,82 1,87 1,93 1,99 / -7 9,70 8,74 7,34 5,07 3,90 / 1,55 1,65 1,69 1,72 1,76 / 35 15,06 12,91 10,85 7,49 5,76 3,75 2,18 2,34 2,39 2,43 2,48 2,23 -2 10,09 8,93 7,70 5,70 4,21 / 1,60 1,80 1,85 1,91 1,96 / 30 16,05 10,40 8,97 6,63 4,91 3,44 2,22 3,25 3,35 3,45 3,55 3,23 2 5,63 5,02 4,29 3,18 2,42 / 1,96 2,14 2,25 2,37 2,50 / 25 11,68 10,91 9,33 6,90 5,25 3,57 2,94 3,03 3,19 3,36 3,54 3,29 7 9,85 9,29 7,81 5,70 4,10 / 2,23 2,48 2,55 2,63 2,71 / 20 8,42 7,73 6,49 4,74 3,41 2,25 4,01 4,09 4,21 4,34 4,47 4,11
15 8,15 7,41 6,44 4,57 3,34 / 2,53 2,79 2,90 3,02 3,14 / 15 8,40 7,64 6,64 4,71 3,44 2,31 5,47 5,53 5,75 5,98 6,22 5,66 20 8,76 7,82 6,52 4,82 3,47 / 2,88 3,11 3,18 3,24 3,30 / 10 / / / / / / / / / / / / 25 11,01 9,57 8,32 6,24 4,43 / 3,63 3,81 3,92 4,04 4,16 / 5 / / / / / / / / / / / / 30 8,94 7,91 6,76 5,00 3,45 / 2,97 3,15 3,18 3,21 3,25 / 0 / / / / / / / / / / / / 35 3,76 3,36 2,84 2,05 1,39 / 3,42 3,52 3,56 3,59 3,63 / -5 / / / / / / / / / / / /
TW_o
ut 6
0°C
-20 / / / / / / / / / / / /
/
/ / / / / / / / / / / / / -15 / / / / / / / / / / / / / / / / / / / / / / / / / -7 / / / / / / / / / / / / / / / / / / / / / / / / / -2 6,02 5,33 4,60 3,40 2,52 / 1,21 1,36 1,40 1,44 1,49 / / / / / / / / / / / / / / 2 6,26 5,59 4,78 3,53 2,69 / 3,53 3,84 4,05 4,26 4,49 / / / / / / / / / / / / / / 7 5,86 5,52 4,64 3,39 2,44 / 5,47 6,07 6,25 6,44 6,63 / / / / / / / / / / / / / /
15 6,43 5,84 5,08 3,61 2,63 / 3,04 3,34 3,47 3,61 3,76 / / / / / / / / / / / / / / 20 8,76 7,82 6,52 4,82 3,47 / 3,08 3,33 3,39 3,46 3,53 / / / / / / / / / / / / / / 25 8,39 7,29 6,34 4,76 3,38 / 2,96 3,11 3,20 3,30 3,40 / / / / / / / / / / / / / / 30 7,37 6,52 5,57 4,13 2,85 / 2,81 2,98 3,01 3,04 3,07 / / / / / / / / / / / / / / 35 / / / / / / / / / / / / / / / / / / / / / / / / /
Performances data / Dati prestazionali Mod. 16T
PERFORMANCES - PRESTAZIONI
The values are referred to units without options and accessories. Data declared according to EN 14511:EER (Energy Efficiency Ratio) = ratio of the total cooling capacity to the effective power input of the unitCOP (Coefficient Of Performance) = ratio of the total heating capacity to the effective power input of the unitTW_out Leaving water temperatureTa outdoor air temperature
I valori si riferiscono ad unità prive di eventuali opzioni o accessori. Dati dichiarati secondo EN 14511:EER (Energy Efficiency Ratio) = rapporto potenza frigorifera su potenza assorbitaCOP (Coefficient Of Performance) = rapporto potenza termica su potenza assorbitaTW_out temperatura acqua prodottaTa temperatura aria esterna
14
Mod . 04 - Heating mode - Average climate - Medium temperature (55°C) / Modo riscaldamento - Clima medio - Media temperatura (55°C)
Annual energy consumption
Declared load profile Water heating energy efficiency
Daily electricity consumption Daily fuel consumption
Annual electricity consumption Annual fuel consumption
Contact details
(*) For heat pump space heaters and heat pump combination heaters, the rated heat output Prated is equal to the design load for heating Pdesignh, and the rated heat output of a supplementary heater Psup is equal to the supplementary capacity for heating sup(Tj). (**) If Cdh is not determined by measurement then the default degradation coefficient is Cdh = 0,9.
GD Midea Heating & Ventilating Equipment Co. Ltd (Penglai industry road, Beijiao, Shunde, Foshan, Guangdong, P.R China)
variable
-
Capacity control For air-to-water heat pumps:Rated air flow rate, outdoors
For water-or brine-to-water heat pumps: Rated brine or water flow rate, outdoorheat exchanger
Sound power level, indoors/outdoors
Air-to-water heat pump: YES
Outdoor unit: MHA-V4W/D2N1 Indoor unit: SMK-80/CD30GN1-B
NO
NO
NO
NO
Model(s):
Water-to-water heat pump:
Brine-to-water heat pump:
Low-temperature heat pump:
Equipped with a supplementary heater:
Heat pump combination heater:
Parameters are declared for medium-temperature application.
YES
Declared climate condition: AVERAGE
Technical parameters
Value Unit Item Symbol Unit
4 kW Seasonal space heating energy efficiency ηs
3.8 kW Tj = -7℃ COPd
2.4 kW Tj = 2℃ COPd
1.6 kW Tj = 7℃ COPd
1.6 kW Tj = 12℃ COPd
4.3 kW Tj = bivalent temperature COPd
4.3 kW
kW
kW
Tj = operating limit COPd
COPd
TOL
- For air-to-water heat pumps: Tj = -15℃
-10 °C For air-to-water heat pumps: Operation limit temperature
- Cycling interval efficiency
Heating water operating limit temperature0.9 --
kW
kW
kW
Symbol
Prated
Pdh
Pdh
Pdh
Pdh
Pdh
Pdh
Pdh
Tbiv
Pcych
Cdh
Poff
COPcyc
WTOL
PsupPsb
Pto
Pck
LWA
ηwh
Qfuel
AFC
Qclec
AEC
QHE
kW
dB
kWh
kWh kWh
%
GJ
-
-
-kWh
Declared coefficient of performance or primary energy ratio for part load atindoor temperature 20 °C and outdoor temperature Tj
Item
Rated heat output (*)
Tj = -7℃
Tj = 2℃
Tj = 7℃
Tj = 12℃
Tj = bivalent temperature
Tj = operating limit
For air-to-water heat pumps: Tj = -15℃
Bivalent temperature
Cycling interval capacity for heating
Degradation co-efficient (**)
Off mode
Standby mode
Thermostat-off mode
Crankcase heater mode
Declared capacity for heating for part load at indoor temperature 20 °Cand outdoor temperature Tj
Rated heat output (**)
Type of energy input
Power consumption in modes other than active mode
%
-
-
-
-
-
-
-
°C
-
°C
kW
Supplementary heater
Electrical
Value
127
1.99
3.14
4.32
6.62
1.81
1.81
-
-10
60
0
-
-
-
3180 m3/h
m3/h-
0.017
0.017
0.015
43/62
-
-
2700
0.057
Other items
For heat pump combination heater:
2
ERP DATA (TDS = TECHNICAL DATA SHEET ) / DATI ERP (TDS = FOGLIO DATI TECNICI)
OMNIA-UE 04
Parameters are declared for medium-temperature (55°C) application.
Ferroli spa ¬ 37047 San Bonifacio (Verona) Italy ¬ Via Ritonda 78/A - tel. +39.045.6139411 ¬ fax +39.045.6100933 ¬ www.ferroli.com
15
Mod . 04 - Heating mode - Colder climate - Medium temperature (55°C) / Modo riscaldamento - Clima più freddo - Media temperatura (55°C)
3
Annual energy consumption
Declared load profile Water heating energy efficiency
Daily electricity consumption Daily fuel consumption
Annual electricity consumption Annual fuel consumption
Contact details
(*) For heat pump space heaters and heat pump combination heaters, the rated heat output Prated is equal to the design load for heating Pdesignh, and the rated heat output of a supplementary heater Psup is equal to the supplementary capacity for heating sup(Tj). (**) If Cdh is not determined by measurement then the default degradation coefficient is Cdh = 0,9.
GD Midea Heating & Ventilating Equipment Co. Ltd (Penglai industry road, Beijiao, Shunde, Foshan, Guangdong, P.R China)
variable
-
Capacity control For air-to-water heat pumps:Rated air flow rate, outdoors
For water-or brine-to-water heat pumps: Rated brine or water flow rate, outdoorheat exchanger
Sound power level, indoors/outdoors
Air-to-water heat pump:
Model(s):
Water-to-water heat pump:
Brine-to-water heat pump:
Low-temperature heat pump:
Equipped with a supplementary heater:
Heat pump combination heater:
Parameters are declared for medium-temperature application.
Declared climate condition:
Technical parameters
Value Unit Item Symbol Unit
4 kW Seasonal space heating energy efficiency ηs
2.7 kW Tj = -7℃ COPd
1.6 kW Tj = 2℃ COPd
1.1 kW Tj = 7℃ COPd
1.4 kW Tj = 12℃ COPd
3.4 kW Tj = bivalent temperature COPd
2.8 kW
kW
kW
Tj = operating limit COPd
COPd
TOL
- For air-to-water heat pumps: Tj = -15℃
-15 °C For air-to-water heat pumps: Operation limit temperature
- Cycling interval efficiency
Heating water operating limit temperature0.9 --
kW
kW
kW
Symbol
Prated
Pdh
Pdh
Pdh
Pdh
Pdh
Pdh
Pdh
Tbiv
Pcych
Cdh
Poff
COPcyc
WTOL
PsupPsb
Pto
Pck
LWA
ηwh
Qfuel
AFC
Qclec
AEC
QHE
kW
dB
kWh
kWh kWh
%
GJ
-
-
-kWh
Declared coefficient of performance or primary energy ratio for part load atindoor temperature 20 °C and outdoor temperature Tj
Item
Rated heat output (*)
Tj = -7℃
Tj = 2℃
Tj = 7℃
Tj = 12℃
Tj = bivalent temperature
Tj = operating limit
For air-to-water heat pumps: Tj = -15℃
Bivalent temperature
Cycling interval capacity for heating
Degradation co-efficient (**)
Off mode
Standby mode
Thermostat-off mode
Crankcase heater mode
Declared capacity for heating for part load at indoor temperature 20 °Cand outdoor temperature Tj
Rated heat output (**)
Type of energy input
Power consumption in modes other than active mode
%
-
-
-
-
-
-
-
°C
-
°C
kW
Supplementary heater
Electrical
Value
103
2.21
3.20
4.23
6.11
1.61
1.23
-
-20
60
1.66
-
-
-
3180 m3/h
m3/h-
0.017
0.017
0.015
-
-
-
3905
0.057
Other items
For heat pump combination heater:
YES
NO
NO
NO
NO
YES
Outdoor unit: MHA-V4W/D2N1 Indoor unit: SMK-80/CD30GN1-B
COLDER
ERP DATA (TDS = TECHNICAL DATA SHEET ) / DATI ERP (TDS = FOGLIO DATI TECNICI)
OMNIA-UE 04
Parameters are declared for medium-temperature (55°C) application.
Ferroli spa ¬ 37047 San Bonifacio (Verona) Italy ¬ Via Ritonda 78/A - tel. +39.045.6139411 ¬ fax +39.045.6100933 ¬ www.ferroli.com
16
4
Annual energy consumption
Declared load profile Water heating energy efficiency
Daily electricity consumption Daily fuel consumption
Annual electricity consumption Annual fuel consumption
Contact details
(*) For heat pump space heaters and heat pump combination heaters, the rated heat output Prated is equal to the design load for heating Pdesignh, and the rated heat output of a supplementary heater Psup is equal to the supplementary capacity for heating sup(Tj). (**) If Cdh is not determined by measurement then the default degradation coefficient is Cdh = 0,9.
GD Midea Heating & Ventilating Equipment Co. Ltd (Penglai industry road, Beijiao, Shunde, Foshan, Guangdong, P.R China)
variable
-
Capacity control For air-to-water heat pumps:Rated air flow rate, outdoors
For water-or brine-to-water heat pumps: Rated brine or water flow rate, outdoorheat exchanger
Sound power level, indoors/outdoors
Air-to-water heat pump:
Model(s):
Water-to-water heat pump:
Brine-to-water heat pump:
Low-temperature heat pump:
Equipped with a supplementary heater:
Heat pump combination heater:
Parameters are declared for medium-temperature application.
Declared climate condition:
Technical parameters
Value Unit Item Symbol Unit
4 kW Seasonal space heating energy efficiency ηs
- kW Tj = -7℃ COPd
4.3 kW Tj = 2℃ COPd
2.8 kW Tj = 7℃ COPd
1.4 kW Tj = 12℃ COPd
4.3 kW Tj = bivalent temperature COPd
4.3 kW
kW
kW
Tj = operating limit COPd
COPd
TOL
- For air-to-water heat pumps: Tj = -15℃
2 °C For air-to-water heat pumps: Operation limit temperature
- Cycling interval efficiency
Heating water operating limit temperature0.9 --
kW
kW
kW
Symbol
Prated
Pdh
Pdh
Pdh
Pdh
Pdh
Pdh
Pdh
Tbiv
Pcych
Cdh
Poff
COPcyc
WTOL
PsupPsb
Pto
Pck
LWA
ηwh
Qfuel
AFC
Qclec
AEC
QHE
kW
dB
kWh
kWh kWh
%
GJ
-
-
-kWh
Declared coefficient of performance or primary energy ratio for part load atindoor temperature 20 °C and outdoor temperature Tj
Item
Rated heat output (*)
Tj = -7℃
Tj = 2℃
Tj = 7℃
Tj = 12℃
Tj = bivalent temperature
Tj = operating limit
For air-to-water heat pumps: Tj = -15℃
Bivalent temperature
Cycling interval capacity for heating
Degradation co-efficient (**)
Off mode
Standby mode
Thermostat-off mode
Crankcase heater mode
Declared capacity for heating for part load at indoor temperature 20 °Cand outdoor temperature Tj
Rated heat output (**)
Type of energy input
Power consumption in modes other than active mode
%
-
-
-
-
-
-
-
°C
-
°C
kW
Supplementary heater
Electrical
Value
150
-
2.32
3.26
5.19
2.32
2.32
-
2
60
0
-
-
-
3180 m3/h
m3/h-
0.017
0.017
0.015
-
-
-
1520
0.057
Other items
For heat pump combination heater:
YES
NO
NO
NO
NO
YES
Outdoor unit: MHA-V4W/D2N1 Indoor unit: SMK-80/CD30GN1-B
WARMER
ERP DATA (TDS = TECHNICAL DATA SHEET ) / DATI ERP (TDS = FOGLIO DATI TECNICI)
OMNIA-UE 04
Parameters are declared for medium-temperature (55°C) application.
Ferroli spa ¬ 37047 San Bonifacio (Verona) Italy ¬ Via Ritonda 78/A - tel. +39.045.6139411 ¬ fax +39.045.6100933 ¬ www.ferroli.com
Mod . 04 - Heating mode - Warmer climate - Medium temperature (55°C) / Modo riscaldamento - Clima più caldo - Media temperatura (55°C)
1733
Information requirements for comfort chillers
Power consumption in modes other than "active mode"
Other items
Model(s):
Outdoor side heat exchanger of chiller:
Indoor side heat exchanger chiller:
Type:
Driver of compressor:
MHA-V4W/D2N1
Air to water
Water
Compressor driven vapour compression
Electric motor
Tj=+35℃
Tj=+30℃
Tj=+25℃
Tj=+20℃
Tj=+35℃
Tj=+30℃
Tj=+25℃
Tj=+20℃
EERd
EERd
EERd
EERd
4.82
7.26
5.39
6.29
-
-
-
-
3.9
3.1
1.8
1.0
kW
kW
kW
kW
Item Symbol Value UnitItem
Rated cooling capacity
Degradation co-efficientfor chillers (*)
Declared cooling capacity for part load at given outdoor temperature Tj
Declared energy efficiency ratio for part load at given outdoor temperature Tj
Prated,c
Pdc
Pdc
Pdc
Pdc
Cdc 0.9 -
3.9 kW Seasonal space coolingenergy efficiency ηs,c 203 %
Symbol Value Unit
Off mode
Thermosat-off mode
Crankcase heatermode
Standby mode
0.000
0.017
kW
kW
0.017
0.057
kW
kW
POFF PCK
PSBPTO
Capacity control
Contact details
Standard rating conditions used Medium temperature application
GD Midea Heating & Ventilating Equipment Co. , Ltd.Penglai industry Road, Beijiao, Shunde, Foshan, Guangdong, 528311 P.R. China
(*) If Cdc is not determined by measurement then the default degradation coefficient of chillers shall be 0,9. (**) From 26 September 2018.
Sound power level, indoors / outdoors
Emissions of nitrogen oxides (if applicable)
GWP of the refrigerant
For air-to-water comfort chillers: air flow rate, outdoor measured
For water / brine-to-waterchillers: Rated brine or water flow rate, outdoor side heat exchanger
3180-
- -
m3/h
m3/h
variable
43/62
-
2088
dB
kg CO2 eq(100years)
mg/kWh input GCV
LWA
NOx (**)
-
ERP DATA (TDS = TECHNICAL DATA SHEET ) / DATI ERP (TDS = FOGLIO DATI TECNICI)
Ferroli spa ¬ 37047 San Bonifacio (Verona) Italy ¬ Via Ritonda 78/A - tel. +39.045.6139411 ¬ fax +39.045.6100933 ¬ www.ferroli.com
OMNIA-UE 04
Mod . 04 - Cooling mode - Average climate - Medium temperature (18°C) / Modo raffreddamento - Clima medio - Media temperatura (18°C)
18 32
Information requirements for comfort chillers
Power consumption in modes other than "active mode"
Other items
Model(s):
Outdoor side heat exchanger of chiller:
Indoor side heat exchanger chiller:
Type:
Driver of compressor:
MHA-V4W/D2N1
Air to water
Water
Compressor driven vapour compression
Electric motor
Tj=+35℃
Tj=+30℃
Tj=+25℃
Tj=+20℃
Tj=+35℃
Tj=+30℃
Tj=+25℃
Tj=+20℃
EERd
EERd
EERd
EERd
3.01
4.37
5.69
5.33
-
-
-
-
3.9
3.0
1.9
0.9
kW
kW
kW
kW
Item Symbol Value UnitItem
Rated cooling capacity
Degradation co-efficientfor chillers (*)
Declared cooling capacity for part load at given outdoor temperature Tj
Declared energy efficiency ratio for part load at given outdoor temperature Tj
Prated,c
Pdc
Pdc
Pdc
Pdc
Cdc 0.9 -
3.9 kW Seasonal space coolingenergy efficiency ηs,c 172 %
Symbol Value Unit
Off mode
Thermosat-off mode
Crankcase heatermode
Standby mode
0.000
0.017
kW
kW
0.017
0.057
kW
kW
POFF PCK
PSBPTO
Capacity control
Contact details
Standard rating conditions used Low temperature application
GD Midea Heating & Ventilating Equipment Co. , Ltd.Penglai industry Road, Beijiao, Shunde, Foshan, Guangdong, 528311 P.R. China
(*) If Cdc is not determined by measurement then the default degradation coefficient of chillers shall be 0,9. (**) From 26 September 2018.
Sound power level, indoors / outdoors
Emissions of nitrogen oxides (if applicable)
GWP of the refrigerant
For air-to-water comfort chillers: air flow rate, outdoor measured
For water / brine-to-waterchillers: Rated brine or water flow rate, outdoor side heat exchanger
3180-
- -
m3/h
m3/h
variable
43/62
-
2088
dB
kg CO2 eq(100years)
mg/kWh input GCV
LWA
NOx (**)
-
ERP DATA (TDS = TECHNICAL DATA SHEET ) / DATI ERP (TDS = FOGLIO DATI TECNICI)
Ferroli spa ¬ 37047 San Bonifacio (Verona) Italy ¬ Via Ritonda 78/A - tel. +39.045.6139411 ¬ fax +39.045.6100933 ¬ www.ferroli.com
OMNIA-UE 04
Mod . 04 - Cooling mode - Average climate - Low temperature (7°C) / Modo raffreddamento - Clima medio - Bassa temperatura (7°C)
19
5
Annual energy consumption
Declared load profile Water heating energy efficiency
Daily electricity consumption Daily fuel consumption
Annual electricity consumption Annual fuel consumption
Contact details
(*) For heat pump space heaters and heat pump combination heaters, the rated heat output Prated is equal to the design load for heating Pdesignh, and the rated heat output of a supplementary heater Psup is equal to the supplementary capacity for heating sup(Tj). (**) If Cdh is not determined by measurement then the default degradation coefficient is Cdh = 0,9.
GD Midea Heating & Ventilating Equipment Co. Ltd (Penglai industry road, Beijiao, Shunde, Foshan, Guangdong, P.R China)
variable
-
Capacity control For air-to-water heat pumps:Rated air flow rate, outdoors
For water-or brine-to-water heat pumps: Rated brine or water flow rate, outdoorheat exchanger
Sound power level, indoors/outdoors
Air-to-water heat pump: YES
Outdoor unit: MHA-V6W/D2N1 Indoor unit: SMK-80/CD30GN1-B
NO
NO
NO
NO
Model(s):
Water-to-water heat pump:
Brine-to-water heat pump:
Low-temperature heat pump:
Equipped with a supplementary heater:
Heat pump combination heater:
Parameters are declared for medium-temperature application.
YES
Declared climate condition: AVERAGE
Technical parameters
Value Unit Item Symbol Unit
6 kW Seasonal space heating energy efficiency ηs
5.0 kW Tj = -7℃ COPd
3.5 kW Tj = 2℃ COPd
2.2 kW Tj = 7℃ COPd
1.6 kW Tj = 12℃ COPd
5.0 kW Tj = bivalent temperature COPd
4.4 kW
kW
kW
Tj = operating limit COPd
COPd
TOL
- For air-to-water heat pumps: Tj = -15℃
-5 °C For air-to-water heat pumps: Operation limit temperature
- Cycling interval efficiency
Heating water operating limit temperature0.9 --
kW
kW
kW
Symbol
Prated
Pdh
Pdh
Pdh
Pdh
Pdh
Pdh
Pdh
Tbiv
Pcych
Cdh
Poff
COPcyc
WTOL
PsupPsb
Pto
Pck
LWA
ηwh
Qfuel
AFC
Qclec
AEC
QHE
kW
dB
kWh
kWh kWh
%
GJ
-
-
-kWh
Declared coefficient of performance or primary energy ratio for part load atindoor temperature 20 °C and outdoor temperature Tj
Item
Rated heat output (*)
Tj = -7℃
Tj = 2℃
Tj = 7℃
Tj = 12℃
Tj = bivalent temperature
Tj = operating limit
For air-to-water heat pumps: Tj = -15℃
Bivalent temperature
Cycling interval capacity for heating
Degradation co-efficient (**)
Off mode
Standby mode
Thermostat-off mode
Crankcase heater mode
Declared capacity for heating for part load at indoor temperature 20 °Cand outdoor temperature Tj
Rated heat output (**)
Type of energy input
Power consumption in modes other than active mode
%
-
-
-
-
-
-
-
°C
-
°C
kW
Supplementary heater
Electrical
Value
130
2.04
3.19
4.66
7.07
2.16
1.73
-
-10
60
1.9
-
-
-
3180 m3/h
m3/h-
0.017
0.017
0.015
43/66
-
-
3875
0.057
Other items
For heat pump combination heater:
ERP DATA (TDS = TECHNICAL DATA SHEET ) / DATI ERP (TDS = FOGLIO DATI TECNICI)
OMNIA-UE 06
Parameters are declared for medium-temperature (55°C) application.
Ferroli spa ¬ 37047 San Bonifacio (Verona) Italy ¬ Via Ritonda 78/A - tel. +39.045.6139411 ¬ fax +39.045.6100933 ¬ www.ferroli.com
Mod . 06 - Heating mode - Average climate - Medium temperature (55°C) / Modo riscaldamento - Clima medio - Media temperatura (55°C)
20
6
Annual energy consumption
Declared load profile Water heating energy efficiency
Daily electricity consumption Daily fuel consumption
Annual electricity consumption Annual fuel consumption
Contact details
(*) For heat pump space heaters and heat pump combination heaters, the rated heat output Prated is equal to the design load for heating Pdesignh, and the rated heat output of a supplementary heater Psup is equal to the supplementary capacity for heating sup(Tj). (**) If Cdh is not determined by measurement then the default degradation coefficient is Cdh = 0,9.
GD Midea Heating & Ventilating Equipment Co. Ltd (Penglai industry road, Beijiao, Shunde, Foshan, Guangdong, P.R China)
variable
-
Capacity control For air-to-water heat pumps:Rated air flow rate, outdoors
For water-or brine-to-water heat pumps: Rated brine or water flow rate, outdoorheat exchanger
Sound power level, indoors/outdoors
Air-to-water heat pump:
Model(s):
Water-to-water heat pump:
Brine-to-water heat pump:
Low-temperature heat pump:
Equipped with a supplementary heater:
Heat pump combination heater:
Parameters are declared for medium-temperature application.
Declared climate condition:
Technical parameters
Value Unit Item Symbol Unit
5 kW Seasonal space heating energy efficiency ηs
3.6 kW Tj = -7℃ COPd
2.0 kW Tj = 2℃ COPd
1.3 kW Tj = 7℃ COPd
1.6 kW Tj = 12℃ COPd
4.2 kW Tj = bivalent temperature COPd
3.1 kW
kW
kW
Tj = operating limit COPd
COPd
TOL
- For air-to-water heat pumps: Tj = -15℃
-14 °C For air-to-water heat pumps: Operation limit temperature
- Cycling interval efficiency
Heating water operating limit temperature0.9 --
kW
kW
kW
Symbol
Prated
Pdh
Pdh
Pdh
Pdh
Pdh
Pdh
Pdh
Tbiv
Pcych
Cdh
Poff
COPcyc
WTOL
PsupPsb
Pto
Pck
LWA
ηwh
Qfuel
AFC
Qclec
AEC
QHE
kW
dB
kWh
kWh kWh
%
GJ
-
-
-kWh
Declared coefficient of performance or primary energy ratio for part load atindoor temperature 20 °C and outdoor temperature Tj
Item
Rated heat output (*)
Tj = -7℃
Tj = 2℃
Tj = 7℃
Tj = 12℃
Tj = bivalent temperature
Tj = operating limit
For air-to-water heat pumps: Tj = -15℃
Bivalent temperature
Cycling interval capacity for heating
Degradation co-efficient (**)
Off mode
Standby mode
Thermostat-off mode
Crankcase heater mode
Declared capacity for heating for part load at indoor temperature 20 °Cand outdoor temperature Tj
Rated heat output (**)
Type of energy input
Power consumption in modes other than active mode
%
-
-
-
-
-
-
-
°C
-
°C
kW
Supplementary heater
Electrical
Value
109
2.25
3.37
5.39
7.44
1.89
1.25
-
-20
60
1.3
-
-
-
3180 m3/h
m3/h-
0.017
0.017
0.015
-
-
-
4713
0.057
Other items
For heat pump combination heater:
YES
NO
NO
NO
NO
YES
Outdoor unit: MHA-V6W/D2N1 Indoor unit: SMK-80/CD30GN1-B
COLDER
ERP DATA (TDS = TECHNICAL DATA SHEET ) / DATI ERP (TDS = FOGLIO DATI TECNICI)
OMNIA-UE 06
Parameters are declared for medium-temperature (55°C) application.
Ferroli spa ¬ 37047 San Bonifacio (Verona) Italy ¬ Via Ritonda 78/A - tel. +39.045.6139411 ¬ fax +39.045.6100933 ¬ www.ferroli.com
Mod . 06 - Heating mode - Colder climate - Medium temperature (55°C) / Modo riscaldamento - Clima più freddo - Media temperatura (55°C)
21
7
Annual energy consumption
Declared load profile Water heating energy efficiency
Daily electricity consumption Daily fuel consumption
Annual electricity consumption Annual fuel consumption
Contact details
(*) For heat pump space heaters and heat pump combination heaters, the rated heat output Prated is equal to the design load for heating Pdesignh, and the rated heat output of a supplementary heater Psup is equal to the supplementary capacity for heating sup(Tj). (**) If Cdh is not determined by measurement then the default degradation coefficient is Cdh = 0,9.
GD Midea Heating & Ventilating Equipment Co. Ltd (Penglai industry road, Beijiao, Shunde, Foshan, Guangdong, P.R China)
variable
-
Capacity control For air-to-water heat pumps:Rated air flow rate, outdoors
For water-or brine-to-water heat pumps: Rated brine or water flow rate, outdoorheat exchanger
Sound power level, indoors/outdoors
Air-to-water heat pump:
Model(s):
Water-to-water heat pump:
Brine-to-water heat pump:
Low-temperature heat pump:
Equipped with a supplementary heater:
Heat pump combination heater:
Parameters are declared for medium-temperature application.
Declared climate condition:
Technical parameters
Value Unit Item Symbol Unit
6 kW Seasonal space heating energy efficiency ηs
- kW Tj = -7℃ COPd
6.2 kW Tj = 2℃ COPd
4.2 kW Tj = 7℃ COPd
1.9 kW Tj = 12℃ COPd
6.2 kW Tj = bivalent temperature COPd
6.2 kW
kW
kW
Tj = operating limit COPd
COPd
TOL
- For air-to-water heat pumps: Tj = -15℃
2 °C For air-to-water heat pumps: Operation limit temperature
- Cycling interval efficiency
Heating water operating limit temperature0.9 --
kW
kW
kW
Symbol
Prated
Pdh
Pdh
Pdh
Pdh
Pdh
Pdh
Pdh
Tbiv
Pcych
Cdh
Poff
COPcyc
WTOL
PsupPsb
Pto
Pck
LWA
ηwh
Qfuel
AFC
Qclec
AEC
QHE
kW
dB
kWh
kWh kWh
%
GJ
-
-
-kWh
Declared coefficient of performance or primary energy ratio for part load atindoor temperature 20 °C and outdoor temperature Tj
Item
Rated heat output (*)
Tj = -7℃
Tj = 2℃
Tj = 7℃
Tj = 12℃
Tj = bivalent temperature
Tj = operating limit
For air-to-water heat pumps: Tj = -15℃
Bivalent temperature
Cycling interval capacity for heating
Degradation co-efficient (**)
Off mode
Standby mode
Thermostat-off mode
Crankcase heater mode
Declared capacity for heating for part load at indoor temperature 20 °Cand outdoor temperature Tj
Rated heat output (**)
Type of energy input
Power consumption in modes other than active mode
%
-
-
-
-
-
-
-
°C
-
°C
kW
Supplementary heater
Electrical
Value
143
-
2.53
3.44
4.24
2.53
2.53
-
2
60
0
-
-
-
3180 m3/h
m3/h-
0.017
0.017
0.015
-
-
-
2293
0.057
Other items
For heat pump combination heater:
YES
NO
NO
NO
NO
YES
Outdoor unit: MHA-V6W/D2N1 Indoor unit: SMK-80/CD30GN1-B
WARMER
ERP DATA (TDS = TECHNICAL DATA SHEET ) / DATI ERP (TDS = FOGLIO DATI TECNICI)
OMNIA-UE 06
Parameters are declared for medium-temperature (55°C) application.
Ferroli spa ¬ 37047 San Bonifacio (Verona) Italy ¬ Via Ritonda 78/A - tel. +39.045.6139411 ¬ fax +39.045.6100933 ¬ www.ferroli.com
Mod . 06 - Heating mode - Warmer climate - Medium temperature (55°C) / Modo riscaldamento - Clima più caldo - Media temperatura (55°C)
22 35
Information requirements for comfort chillers
Power consumption in modes other than "active mode"
Other items
Model(s):
Outdoor side heat exchanger of chiller:
Indoor side heat exchanger chiller:
Type:
Driver of compressor:
MHA-V6W/D2N1
Air to water
Water
Compressor driven vapour compression
Electric motor
Tj=+35℃
Tj=+30℃
Tj=+25℃
Tj=+20℃
Tj=+35℃
Tj=+30℃
Tj=+25℃
Tj=+20℃
EERd
EERd
EERd
EERd
4.39
6.48
10.48
6.56
-
-
-
-
5.9
4.4
2.8
1.3
kW
kW
kW
kW
Item Symbol Value UnitItem
Rated cooling capacity
Degradation co-efficientfor chillers (*)
Declared cooling capacity for part load at given outdoor temperature Tj
Declared energy efficiency ratio for part load at given outdoor temperature Tj
Prated,c
Pdc
Pdc
Pdc
Pdc
Cdc 0.9 -
5.9 kW Seasonal space coolingenergy efficiency ηs,c 266 %
Symbol Value Unit
Off mode
Thermosat-off mode
Crankcase heatermode
Standby mode
0.000
0.017
kW
kW
0.017
0.057
kW
kW
POFF PCK
PSBPTO
Capacity control
Contact details
Standard rating conditions used Medium temperature application
GD Midea Heating & Ventilating Equipment Co. , Ltd.Penglai industry Road, Beijiao, Shunde, Foshan, Guangdong, 528311 P.R. China
(*) If Cdc is not determined by measurement then the default degradation coefficient of chillers shall be 0,9. (**) From 26 September 2018.
Sound power level, indoors / outdoors
Emissions of nitrogen oxides (if applicable)
GWP of the refrigerant
For air-to-water comfort chillers: air flow rate, outdoor measured
For water / brine-to-waterchillers: Rated brine or water flow rate, outdoor side heat exchanger
3180-
- -
m3/h
m3/h
variable
43/66
-
2088
dB
kg CO2 eq(100years)
mg/kWh input GCV
LWA
NOx (**)
-
ERP DATA (TDS = TECHNICAL DATA SHEET ) / DATI ERP (TDS = FOGLIO DATI TECNICI)
Ferroli spa ¬ 37047 San Bonifacio (Verona) Italy ¬ Via Ritonda 78/A - tel. +39.045.6139411 ¬ fax +39.045.6100933 ¬ www.ferroli.com
OMNIA-UE 06
Mod . 06 - Cooling mode - Average climate - Medium temperature (18°C) / Modo raffreddamento - Clima medio - Media temperatura (18°C)
2334
Information requirements for comfort chillers
Power consumption in modes other than "active mode"
Other items
Model(s):
Outdoor side heat exchanger of chiller:
Indoor side heat exchanger chiller:
Type:
Driver of compressor:
MHA-V6W/D2N1
Air to water
Water
Compressor driven vapour compression
Electric motor
Tj=+35℃
Tj=+30℃
Tj=+25℃
Tj=+20℃
Tj=+35℃
Tj=+30℃
Tj=+25℃
Tj=+20℃
EERd
EERd
EERd
EERd
2.70
4.22
6.13
8.33
-
-
-
-
5.8
4.4
2.7
1.3
kW
kW
kW
kW
Item Symbol Value UnitItem
Rated cooling capacity
Degradation co-efficientfor chillers (*)
Declared cooling capacity for part load at given outdoor temperature Tj
Declared energy efficiency ratio for part load at given outdoor temperature Tj
Prated,c
Pdc
Pdc
Pdc
Pdc
Cdc 0.9 -
5.8 kW Seasonal space coolingenergy efficiency ηs,c 197 %
Symbol Value Unit
Off mode
Thermosat-off mode
Crankcase heatermode
Standby mode
0.000
0.017
kW
kW
0.017
0.057
kW
kW
POFF PCK
PSBPTO
Capacity control
Contact details
Standard rating conditions used Low temperature application
GD Midea Heating & Ventilating Equipment Co. , Ltd.Penglai industry Road, Beijiao, Shunde, Foshan, Guangdong, 528311 P.R. China
(*) If Cdc is not determined by measurement then the default degradation coefficient of chillers shall be 0,9. (**) From 26 September 2018.
Sound power level, indoors / outdoors
Emissions of nitrogen oxides (if applicable)
GWP of the refrigerant
For air-to-water comfort chillers: air flow rate, outdoor measured
For water / brine-to-waterchillers: Rated brine or water flow rate, outdoor side heat exchanger
3180-
- -
m3/h
m3/h
variable
43/66
-
2088
dB
kg CO2 eq(100years)
mg/kWh input GCV
LWA
NOx (**)
-
ERP DATA (TDS = TECHNICAL DATA SHEET ) / DATI ERP (TDS = FOGLIO DATI TECNICI)
Ferroli spa ¬ 37047 San Bonifacio (Verona) Italy ¬ Via Ritonda 78/A - tel. +39.045.6139411 ¬ fax +39.045.6100933 ¬ www.ferroli.com
OMNIA-UE 06
Mod . 06 - Cooling mode - Average climate - Low temperature (7°C) / Modo raffreddamento - Clima medio - Bassa temperatura (7°C)
24
8
Annual energy consumption
Declared load profile Water heating energy efficiency
Daily electricity consumption Daily fuel consumption
Annual electricity consumption Annual fuel consumption
Contact details
(*) For heat pump space heaters and heat pump combination heaters, the rated heat output Prated is equal to the design load for heating Pdesignh, and the rated heat output of a supplementary heater Psup is equal to the supplementary capacity for heating sup(Tj). (**) If Cdh is not determined by measurement then the default degradation coefficient is Cdh = 0,9.
GD Midea Heating & Ventilating Equipment Co. Ltd (Penglai industry road, Beijiao, Shunde, Foshan, Guangdong, P.R China)
variable
-
Capacity control For air-to-water heat pumps:Rated air flow rate, outdoors
For water-or brine-to-water heat pumps: Rated brine or water flow rate, outdoorheat exchanger
Sound power level, indoors/outdoors
Air-to-water heat pump: YES
Outdoor unit: MHA-V8W/D2N1 Indoor unit: SMK-80/CD30GN1-B
NO
NO
NO
NO
Model(s):
Water-to-water heat pump:
Brine-to-water heat pump:
Low-temperature heat pump:
Equipped with a supplementary heater:
Heat pump combination heater:
Parameters are declared for medium-temperature application.
YES
Declared climate condition: AVERAGE
Technical parameters
Value Unit Item Symbol Unit
7 kW Seasonal space heating energy efficiency ηs
6.1 kW Tj = -7℃ COPd
3.8 kW Tj = 2℃ COPd
2.5 kW Tj = 7℃ COPd
2.2 kW Tj = 12℃ COPd
6.1 kW Tj = bivalent temperature COPd
6.2 kW
kW
kW
Tj = operating limit COPd
COPd
TOL
- For air-to-water heat pumps: Tj = -15℃
-7 °C For air-to-water heat pumps: Operation limit temperature
- Cycling interval efficiency
Heating water operating limit temperature0.9 --
kW
kW
kW
Symbol
Prated
Pdh
Pdh
Pdh
Pdh
Pdh
Pdh
Pdh
Tbiv
Pcych
Cdh
Poff
COPcyc
WTOL
PsupPsb
Pto
Pck
LWA
ηwh
Qfuel
AFC
Qclec
AEC
QHE
kW
dB
kWh
kWh kWh
%
GJ
-
-
-kWh
Declared coefficient of performance or primary energy ratio for part load atindoor temperature 20 °C and outdoor temperature Tj
Item
Rated heat output (*)
Tj = -7℃
Tj = 2℃
Tj = 7℃
Tj = 12℃
Tj = bivalent temperature
Tj = operating limit
For air-to-water heat pumps: Tj = -15℃
Bivalent temperature
Cycling interval capacity for heating
Degradation co-efficient (**)
Off mode
Standby mode
Thermostat-off mode
Crankcase heater mode
Declared capacity for heating for part load at indoor temperature 20 °Cand outdoor temperature Tj
Rated heat output (**)
Type of energy input
Power consumption in modes other than active mode
%
-
-
-
-
-
-
-
°C
-
°C
kW
Supplementary heater
Electrical
Value
125
2.00
3.06
4.22
6.52
2.00
1.71
-
-10
60
0.7
-
-
-
5116 m3/h
m3/h-
0.019
0.019
0.014
43/69
-
-
4474
0.051
Other items
For heat pump combination heater:
ERP DATA (TDS = TECHNICAL DATA SHEET ) / DATI ERP (TDS = FOGLIO DATI TECNICI)
OMNIA-UE 08
Parameters are declared for medium-temperature (55°C) application.
Ferroli spa ¬ 37047 San Bonifacio (Verona) Italy ¬ Via Ritonda 78/A - tel. +39.045.6139411 ¬ fax +39.045.6100933 ¬ www.ferroli.com
Mod . 08 - Heating mode - Average climate - Medium temperature (55°C) / Modo riscaldamento - Clima medio - Media temperatura (55°C)
25
9
Annual energy consumption
Declared load profile Water heating energy efficiency
Daily electricity consumption Daily fuel consumption
Annual electricity consumption Annual fuel consumption
Contact details
(*) For heat pump space heaters and heat pump combination heaters, the rated heat output Prated is equal to the design load for heating Pdesignh, and the rated heat output of a supplementary heater Psup is equal to the supplementary capacity for heating sup(Tj). (**) If Cdh is not determined by measurement then the default degradation coefficient is Cdh = 0,9.
GD Midea Heating & Ventilating Equipment Co. Ltd (Penglai industry road, Beijiao, Shunde, Foshan, Guangdong, P.R China)
variable
-
Capacity control For air-to-water heat pumps:Rated air flow rate, outdoors
For water-or brine-to-water heat pumps: Rated brine or water flow rate, outdoorheat exchanger
Sound power level, indoors/outdoors
Air-to-water heat pump:
Model(s):
Water-to-water heat pump:
Brine-to-water heat pump:
Low-temperature heat pump:
Equipped with a supplementary heater:
Heat pump combination heater:
Parameters are declared for medium-temperature application.
Declared climate condition:
Technical parameters
Value Unit Item Symbol Unit
7 kW Seasonal space heating energy efficiency ηs
4.5 kW Tj = -7℃ COPd
3.0 kW Tj = 2℃ COPd
2.4 kW Tj = 7℃ COPd
2.2 kW Tj = 12℃ COPd
5.3 kW Tj = bivalent temperature COPd
4.3 kW
kW
kW
Tj = operating limit COPd
COPd
TOL
- For air-to-water heat pumps: Tj = -15℃
-14 °C For air-to-water heat pumps: Operation limit temperature
- Cycling interval efficiency
Heating water operating limit temperature0.9 --
kW
kW
kW
Symbol
Prated
Pdh
Pdh
Pdh
Pdh
Pdh
Pdh
Pdh
Tbiv
Pcych
Cdh
Poff
COPcyc
WTOL
PsupPsb
Pto
Pck
LWA
ηwh
Qfuel
AFC
Qclec
AEC
QHE
kW
dB
kWh
kWh kWh
%
GJ
-
-
-kWh
Declared coefficient of performance or primary energy ratio for part load atindoor temperature 20 °C and outdoor temperature Tj
Item
Rated heat output (*)
Tj = -7℃
Tj = 2℃
Tj = 7℃
Tj = 12℃
Tj = bivalent temperature
Tj = operating limit
For air-to-water heat pumps: Tj = -15℃
Bivalent temperature
Cycling interval capacity for heating
Degradation co-efficient (**)
Off mode
Standby mode
Thermostat-off mode
Crankcase heater mode
Declared capacity for heating for part load at indoor temperature 20 °Cand outdoor temperature Tj
Rated heat output (**)
Type of energy input
Power consumption in modes other than active mode
%
-
-
-
-
-
-
-
°C
-
°C
kW
Supplementary heater
Electrical
Value
87
2.13
3.16
4.47
6.49
1.6
1.24
-
-20
60
2.0
-
-
-
5116 m3/h
m3/h-
0.019
0.019
0.014
-
-
-
7319
0.051
Other items
For heat pump combination heater:
YES
NO
NO
NO
NO
YES
Outdoor unit: MHA-V8W/D2N1 Indoor unit: SMK-80/CD30GN1-B
COLDER
ERP DATA (TDS = TECHNICAL DATA SHEET ) / DATI ERP (TDS = FOGLIO DATI TECNICI)
OMNIA-UE 08
Parameters are declared for medium-temperature (55°C) application.
Ferroli spa ¬ 37047 San Bonifacio (Verona) Italy ¬ Via Ritonda 78/A - tel. +39.045.6139411 ¬ fax +39.045.6100933 ¬ www.ferroli.com
Mod . 08 - Heating mode - Colder climate - Medium temperature (55°C) / Modo riscaldamento - Clima più freddo - Media temperatura (55°C)
26
10
0.019
0.019
0.014
0.051
Annual energy consumption
Declared load profile Water heating energy efficiency
Daily electricity consumption Daily fuel consumption
Annual electricity consumption Annual fuel consumption
Contact details
(*) For heat pump space heaters and heat pump combination heaters, the rated heat output Prated is equal to the design load for heating Pdesignh, and the rated heat output of a supplementary heater Psup is equal to the supplementary capacity for heating sup(Tj). (**) If Cdh is not determined by measurement then the default degradation coefficient is Cdh = 0,9.
GD Midea Heating & Ventilating Equipment Co. Ltd (Penglai industry road, Beijiao, Shunde, Foshan, Guangdong, P.R China)
variable
-
Capacity control For air-to-water heat pumps:Rated air flow rate, outdoors
For water-or brine-to-water heat pumps: Rated brine or water flow rate, outdoorheat exchanger
Sound power level, indoors/outdoors
Air-to-water heat pump:
Model(s):
Water-to-water heat pump:
Brine-to-water heat pump:
Low-temperature heat pump:
Equipped with a supplementary heater:
Heat pump combination heater:
Parameters are declared for medium-temperature application.
Declared climate condition:
Technical parameters
Value Unit Item Symbol Unit
7 kW Seasonal space heating energy efficiency ηs
- kW Tj = -7℃ COPd
7.2 kW Tj = 2℃ COPd
4.7 kW Tj = 7℃ COPd
2.1 kW Tj = 12℃ COPd
7.2 kW Tj = bivalent temperature COPd
7.2 kW
kW
kW
Tj = operating limit COPd
COPd
TOL
- For air-to-water heat pumps: Tj = -15℃
2 °C For air-to-water heat pumps: Operation limit temperature
- Cycling interval efficiency
Heating water operating limit temperature0.9 --
kW
kW
kW
Symbol
Prated
Pdh
Pdh
Pdh
Pdh
Pdh
Pdh
Pdh
Tbiv
Pcych
Cdh
Poff
COPcyc
WTOL
PsupPsb
Pto
Pck
LWA
ηwh
Qfuel
AFC
Qclec
AEC
QHE
kW
dB
kWh
kWh kWh
%
GJ
-
-
-kWh
Declared coefficient of performance or primary energy ratio for part load atindoor temperature 20 °C and outdoor temperature Tj
Item
Rated heat output (*)
Tj = -7℃
Tj = 2℃
Tj = 7℃
Tj = 12℃
Tj = bivalent temperature
Tj = operating limit
For air-to-water heat pumps: Tj = -15℃
Bivalent temperature
Cycling interval capacity for heating
Degradation co-efficient (**)
Off mode
Standby mode
Thermostat-off mode
Crankcase heater mode
Declared capacity for heating for part load at indoor temperature 20 °Cand outdoor temperature Tj
Rated heat output (**)
Type of energy input
Power consumption in modes other than active mode
%
-
-
-
-
-
-
-
°C
-
°C
kW
Supplementary heater
Electrical
Value
149
-
2.24
3.22
5.00
2.24
2.24
-
2
60
0
-
-
-
5116 m3/h
m3/h--
-
-
2572
Other items
For heat pump combination heater:
YES
NO
NO
NO
NO
YES
Outdoor unit: MHA-V8W/D2N1 Indoor unit: SMK-80/CD30GN1-B
WARMER
ERP DATA (TDS = TECHNICAL DATA SHEET ) / DATI ERP (TDS = FOGLIO DATI TECNICI)
OMNIA-UE 08
Parameters are declared for medium-temperature (55°C) application.
Ferroli spa ¬ 37047 San Bonifacio (Verona) Italy ¬ Via Ritonda 78/A - tel. +39.045.6139411 ¬ fax +39.045.6100933 ¬ www.ferroli.com
Mod . 08 - Heating mode - Warmer climate - Medium temperature (55°C) / Modo riscaldamento - Clima più caldo - Media temperatura (55°C)
2737
Information requirements for comfort chillers
Power consumption in modes other than "active mode"
Other items
Model(s):
Outdoor side heat exchanger of chiller:
Indoor side heat exchanger chiller:
Type:
Driver of compressor:
MHA-V8W/D2N1
Air to water
Water
Compressor driven vapour compression
Electric motor
Tj=+35℃
Tj=+30℃
Tj=+25℃
Tj=+20℃
Tj=+35℃
Tj=+30℃
Tj=+25℃
Tj=+20℃
EERd
EERd
EERd
EERd
4.27
6.51
9.33
9.93
-
-
-
-
7.8
5.8
3.8
1.8
kW
kW
kW
kW
Item Symbol Value UnitItem
Rated cooling capacity
Degradation co-efficientfor chillers (*)
Declared cooling capacity for part load at given outdoor temperature Tj
Declared energy efficiency ratio for part load at given outdoor temperature Tj
Prated,c
Pdc
Pdc
Pdc
Pdc
Cdc 0.9 -
7.8 kW Seasonal space coolingenergy efficiency ηs,c 288 %
Symbol Value Unit
Off mode
Thermosat-off mode
Crankcase heatermode
Standby mode
0.000
0.018
kW
kW
0.018
0.046
kW
kW
POFF PCK
PSBPTO
Capacity control
Contact details
Standard rating conditions used Medium temperature application
GD Midea Heating & Ventilating Equipment Co. , Ltd.Penglai industry Road, Beijiao, Shunde, Foshan, Guangdong, 528311 P.R. China
(*) If Cdc is not determined by measurement then the default degradation coefficient of chillers shall be 0,9. (**) From 26 September 2018.
Sound power level, indoors / outdoors
Emissions of nitrogen oxides (if applicable)
GWP of the refrigerant
For air-to-water comfort chillers: air flow rate, outdoor measured
For water / brine-to-waterchillers: Rated brine or water flow rate, outdoor side heat exchanger
5116-
- -
m3/h
m3/h
variable
43/69
-
2088
dB
kg CO2 eq(100years)
mg/kWh input GCV
LWA
NOx (**)
-
ERP DATA (TDS = TECHNICAL DATA SHEET ) / DATI ERP (TDS = FOGLIO DATI TECNICI)
Ferroli spa ¬ 37047 San Bonifacio (Verona) Italy ¬ Via Ritonda 78/A - tel. +39.045.6139411 ¬ fax +39.045.6100933 ¬ www.ferroli.com
OMNIA-UE 08
Mod . 08 - Cooling mode - Average climate - Medium temperature (18°C) / Modo raffreddamento - Clima medio - Media temperatura (18°C)
28 36
Information requirements for comfort chillers
Power consumption in modes other than "active mode"
Other items
Model(s):
Outdoor side heat exchanger of chiller:
Indoor side heat exchanger chiller:
Type:
Driver of compressor:
MHA-V8W/D2N1
Air to water
Water
Compressor driven vapour compression
Electric motor
Tj=+35℃
Tj=+30℃
Tj=+25℃
Tj=+20℃
Tj=+35℃
Tj=+30℃
Tj=+25℃
Tj=+20℃
EERd
EERd
EERd
EERd
2.61
4.26
5.81
8.17
-
-
-
-
6.3
4.7
2.8
1.4
kW
kW
kW
kW
Item Symbol Value UnitItem
Rated cooling capacity
Degradation co-efficientfor chillers (*)
Declared cooling capacity for part load at given outdoor temperature Tj
Declared energy efficiency ratio for part load at given outdoor temperature Tj
Prated,c
Pdc
Pdc
Pdc
Pdc
Cdc 0.9 -
6.3 kW Seasonal space coolingenergy efficiency ηs,c 195 %
Symbol Value Unit
Off mode
Thermosat-off mode
Crankcase heatermode
Standby mode
0.000
0.018
kW
kW
0.018
0.046
kW
kW
POFF PCK
PSBPTO
Capacity control
Contact details
Standard rating conditions used Low temperature application
GD Midea Heating & Ventilating Equipment Co. , Ltd.Penglai industry Road, Beijiao, Shunde, Foshan, Guangdong, 528311 P.R. China
(*) If Cdc is not determined by measurement then the default degradation coefficient of chillers shall be 0,9. (**) From 26 September 2018.
Sound power level, indoors / outdoors
Emissions of nitrogen oxides (if applicable)
GWP of the refrigerant
For air-to-water comfort chillers: air flow rate, outdoor measured
For water / brine-to-waterchillers: Rated brine or water flow rate, outdoor side heat exchanger
5116-
- -
m3/h
m3/h
variable
43/69
-
2088
dB
kg CO2 eq(100years)
mg/kWh input GCV
LWA
NOx (**)
-
ERP DATA (TDS = TECHNICAL DATA SHEET ) / DATI ERP (TDS = FOGLIO DATI TECNICI)
Ferroli spa ¬ 37047 San Bonifacio (Verona) Italy ¬ Via Ritonda 78/A - tel. +39.045.6139411 ¬ fax +39.045.6100933 ¬ www.ferroli.com
OMNIA-UE 08
Mod . 08 - Cooling mode - Average climate - Low temperature (7°C) / Modo raffreddamento - Clima medio - Bassa temperatura (7°C)
29
11
Annual energy consumption
Declared load profile Water heating energy efficiency
Daily electricity consumption Daily fuel consumption
Annual electricity consumption Annual fuel consumption
Contact details
(*) For heat pump space heaters and heat pump combination heaters, the rated heat output Prated is equal to the design load for heating Pdesignh, and the rated heat output of a supplementary heater Psup is equal to the supplementary capacity for heating sup(Tj). (**) If Cdh is not determined by measurement then the default degradation coefficient is Cdh = 0,9.
GD Midea Heating & Ventilating Equipment Co. Ltd (Penglai industry road, Beijiao, Shunde, Foshan, Guangdong, P.R China)
variable
-
Capacity control For air-to-water heat pumps:Rated air flow rate, outdoors
For water-or brine-to-water heat pumps: Rated brine or water flow rate, outdoorheat exchanger
Sound power level, indoors/outdoors
Air-to-water heat pump: YES
Outdoor unit: MHA-V10W/D2N1 Indoor unit: SMK-160/CD30GN1-B
NO
NO
NO
NO
Model(s):
Water-to-water heat pump:
Brine-to-water heat pump:
Low-temperature heat pump:
Equipped with a supplementary heater:
Heat pump combination heater:
Parameters are declared for medium-temperature application.
YES
Declared climate condition: AVERAGE
Technical parameters
Value Unit Item Symbol Unit
12 kW Seasonal space heating energy efficiency ηs
10.9 kW Tj = -7℃ COPd
7.0 kW Tj = 2℃ COPd
4.2 kW Tj = 7℃ COPd
2.5 kW Tj = 12℃ COPd
10.9 kW Tj = bivalent temperature COPd
10.3 kW
kW
kW
Tj = operating limit COPd
COPd
TOL
- For air-to-water heat pumps: Tj = -15℃
-7 °C For air-to-water heat pumps: Operation limit temperature
- Cycling interval efficiency
Heating water operating limit temperature0.9 --
kW
kW
kW
Symbol
Prated
Pdh
Pdh
Pdh
Pdh
Pdh
Pdh
Pdh
Tbiv
Pcych
Cdh
Poff
COPcyc
WTOL
PsupPsb
Pto
Pck
LWA
ηwh
Qfuel
AFC
Qclec
AEC
QHE
kW
dB
kWh
kWh kWh
%
GJ
-
-
-kWh
Declared coefficient of performance or primary energy ratio for part load atindoor temperature 20 °C and outdoor temperature Tj
Item
Rated heat output (*)
Tj = -7℃
Tj = 2℃
Tj = 7℃
Tj = 12℃
Tj = bivalent temperature
Tj = operating limit
For air-to-water heat pumps: Tj = -15℃
Bivalent temperature
Cycling interval capacity for heating
Degradation co-efficient (**)
Off mode
Standby mode
Thermostat-off mode
Crankcase heater mode
Declared capacity for heating for part load at indoor temperature 20 °Cand outdoor temperature Tj
Rated heat output (**)
Type of energy input
Power consumption in modes other than active mode
%
-
-
-
-
-
-
-
°C
-
°C
kW
Supplementary heater
Electrical
Value
127
2.02
3.05
4.49
5.97
2.02
1.73
-
-10
60
2.0
-
-
-
6500 m3/h
m3/h-
0.019
0.019
0.014
45/67
-
-
7833
0.078
Other items
For heat pump combination heater:
ERP DATA (TDS = TECHNICAL DATA SHEET ) / DATI ERP (TDS = FOGLIO DATI TECNICI)
OMNIA-UE 10
Parameters are declared for medium-temperature (55°C) application.
Ferroli spa ¬ 37047 San Bonifacio (Verona) Italy ¬ Via Ritonda 78/A - tel. +39.045.6139411 ¬ fax +39.045.6100933 ¬ www.ferroli.com
Mod . 10 - Heating mode - Average climate - Medium temperature (55°C) / Modo riscaldamento - Clima medio - Media temperatura (55°C)
30
12
Annual energy consumption
Declared load profile Water heating energy efficiency
Daily electricity consumption Daily fuel consumption
Annual electricity consumption Annual fuel consumption
Contact details
(*) For heat pump space heaters and heat pump combination heaters, the rated heat output Prated is equal to the design load for heating Pdesignh, and the rated heat output of a supplementary heater Psup is equal to the supplementary capacity for heating sup(Tj). (**) If Cdh is not determined by measurement then the default degradation coefficient is Cdh = 0,9.
GD Midea Heating & Ventilating Equipment Co. Ltd (Penglai industry road, Beijiao, Shunde, Foshan, Guangdong, P.R China)
variable
-
Capacity control For air-to-water heat pumps:Rated air flow rate, outdoors
For water-or brine-to-water heat pumps: Rated brine or water flow rate, outdoorheat exchanger
Sound power level, indoors/outdoors
Air-to-water heat pump:
Model(s):
Water-to-water heat pump:
Brine-to-water heat pump:
Low-temperature heat pump:
Equipped with a supplementary heater:
Heat pump combination heater:
Parameters are declared for medium-temperature application.
Declared climate condition:
Technical parameters
Value Unit Item Symbol Unit
10 kW Seasonal space heating energy efficiency ηs
6.4 kW Tj = -7℃ COPd
3.9 kW Tj = 2℃ COPd
2.2 kW Tj = 7℃ COPd
3.6 kW Tj = 12℃ COPd
8.9 kW Tj = bivalent temperature COPd
7.5 kW
kW
kW
Tj = operating limit COPd
COPd
TOL
- For air-to-water heat pumps: Tj = -15℃
-15 °C For air-to-water heat pumps: Operation limit temperature
- Cycling interval efficiency
Heating water operating limit temperature0.9 --
kW
kW
kW
Symbol
Prated
Pdh
Pdh
Pdh
Pdh
Pdh
Pdh
Pdh
Tbiv
Pcych
Cdh
Poff
COPcyc
WTOL
PsupPsb
Pto
Pck
LWA
ηwh
Qfuel
AFC
Qclec
AEC
QHE
kW
dB
kWh
kWh kWh
%
GJ
-
-
-kWh
Declared coefficient of performance or primary energy ratio for part load atindoor temperature 20 °C and outdoor temperature Tj
Item
Rated heat output (*)
Tj = -7℃
Tj = 2℃
Tj = 7℃
Tj = 12℃
Tj = bivalent temperature
Tj = operating limit
For air-to-water heat pumps: Tj = -15℃
Bivalent temperature
Cycling interval capacity for heating
Degradation co-efficient (**)
Off mode
Standby mode
Thermostat-off mode
Crankcase heater mode
Declared capacity for heating for part load at indoor temperature 20 °Cand outdoor temperature Tj
Rated heat output (**)
Type of energy input
Power consumption in modes other than active mode
%
-
-
-
-
-
-
-
°C
-
°C
kW
Supplementary heater
Electrical
Value
96
2.26
3.02
3.67
7.65
1.80
1.27
-
-20
60
10.9
-
-
-
6500 m3/h
m3/h-
0.019
0.019
0.014
-
-
-
10902
0.078
Other items
For heat pump combination heater:
YES
NO
NO
NO
NO
YES
Outdoor unit: MHA-V10W/D2N1 Indoor unit: SMK-160/CD30GN1-B
COLDER
ERP DATA (TDS = TECHNICAL DATA SHEET ) / DATI ERP (TDS = FOGLIO DATI TECNICI)
OMNIA-UE 10
Parameters are declared for medium-temperature (55°C) application.
Ferroli spa ¬ 37047 San Bonifacio (Verona) Italy ¬ Via Ritonda 78/A - tel. +39.045.6139411 ¬ fax +39.045.6100933 ¬ www.ferroli.com
Mod . 10 - Heating mode - Colder climate - Medium temperature (55°C) / Modo riscaldamento - Clima più freddo - Media temperatura (55°C)
31
13
0.019
0.019
0.014
0.078
Annual energy consumption
Declared load profile Water heating energy efficiency
Daily electricity consumption Daily fuel consumption
Annual electricity consumption Annual fuel consumption
Contact details
(*) For heat pump space heaters and heat pump combination heaters, the rated heat output Prated is equal to the design load for heating Pdesignh, and the rated heat output of a supplementary heater Psup is equal to the supplementary capacity for heating sup(Tj). (**) If Cdh is not determined by measurement then the default degradation coefficient is Cdh = 0,9.
GD Midea Heating & Ventilating Equipment Co. Ltd (Penglai industry road, Beijiao, Shunde, Foshan, Guangdong, P.R China)
variable
-
Capacity control For air-to-water heat pumps:Rated air flow rate, outdoors
For water-or brine-to-water heat pumps: Rated brine or water flow rate, outdoorheat exchanger
Sound power level, indoors/outdoors
Air-to-water heat pump:
Model(s):
Water-to-water heat pump:
Brine-to-water heat pump:
Low-temperature heat pump:
Equipped with a supplementary heater:
Heat pump combination heater:
Parameters are declared for medium-temperature application.
Declared climate condition:
Technical parameters
Value Unit Item Symbol Unit
10 kW Seasonal space heating energy efficiency ηs
- kW Tj = -7℃ COPd
10.3 kW Tj = 2℃ COPd
6.7 kW Tj = 7℃ COPd
5.2 kW Tj = 12℃ COPd
10.3 kW Tj = bivalent temperature COPd
10.3 kW
kW
kW
Tj = operating limit COPd
COPd
TOL
- For air-to-water heat pumps: Tj = -15℃
2 °C For air-to-water heat pumps: Operation limit temperature
- Cycling interval efficiency
Heating water operating limit temperature0.9 --
kW
kW
kW
Symbol
Prated
Pdh
Pdh
Pdh
Pdh
Pdh
Pdh
Pdh
Tbiv
Pcych
Cdh
Poff
COPcyc
WTOL
PsupPsb
Pto
Pck
LWA
ηwh
Qfuel
AFC
Qclec
AEC
QHE
kW
dB
kWh
kWh kWh
%
GJ
-
-
-kWh
Declared coefficient of performance or primary energy ratio for part load atindoor temperature 20 °C and outdoor temperature Tj
Item
Rated heat output (*)
Tj = -7℃
Tj = 2℃
Tj = 7℃
Tj = 12℃
Tj = bivalent temperature
Tj = operating limit
For air-to-water heat pumps: Tj = -15℃
Bivalent temperature
Cycling interval capacity for heating
Degradation co-efficient (**)
Off mode
Standby mode
Thermostat-off mode
Crankcase heater mode
Declared capacity for heating for part load at indoor temperature 20 °Cand outdoor temperature Tj
Rated heat output (**)
Type of energy input
Power consumption in modes other than active mode
%
-
-
-
-
-
-
-
°C
-
°C
kW
Supplementary heater
Electrical
Value
167
-
2.34
3.53
6.25
2.34
2.34
-
2
60
0
-
-
-
6500 m3/h
m3/h--
-
-
3228
Other items
For heat pump combination heater:
YES
NO
NO
NO
NO
YES
Outdoor unit: MHA-V10W/D2N1 Indoor unit: SMK-160/CD30GN1-B
WARMER
ERP DATA (TDS = TECHNICAL DATA SHEET ) / DATI ERP (TDS = FOGLIO DATI TECNICI)
OMNIA-UE 10
Parameters are declared for medium-temperature (55°C) application.
Ferroli spa ¬ 37047 San Bonifacio (Verona) Italy ¬ Via Ritonda 78/A - tel. +39.045.6139411 ¬ fax +39.045.6100933 ¬ www.ferroli.com
Mod . 10 - Heating mode - Warmer climate - Medium temperature (55°C) / Modo riscaldamento - Clima più caldo - Media temperatura (55°C)
32 39
Information requirements for comfort chillers
Power consumption in modes other than "active mode"
Other items
Model(s):
Outdoor side heat exchanger of chiller:
Indoor side heat exchanger chiller:
Type:
Driver of compressor:
MHA-V10W/D2N1
Air to water
Water
Compressor driven vapour compression
Electric motor
Tj=+35℃
Tj=+30℃
Tj=+25℃
Tj=+20℃
Tj=+35℃
Tj=+30℃
Tj=+25℃
Tj=+20℃
EERd
EERd
EERd
EERd
4.59
7.24
7.90
11.81
-
-
-
-
9.7
7.2
4.9
3.4
kW
kW
kW
kW
Item Symbol Value UnitItem
Rated cooling capacity
Degradation co-efficientfor chillers (*)
Declared cooling capacity for part load at given outdoor temperature Tj
Declared energy efficiency ratio for part load at given outdoor temperature Tj
Prated,c
Pdc
Pdc
Pdc
Pdc
Cdc 0.9 -
9.7 kW Seasonal space coolingenergy efficiency ηs,c 286 %
Symbol Value Unit
Off mode
Thermosat-off mode
Crankcase heatermode
Standby mode
0.000
0.019
kW
kW
0.019
0.074
kW
kW
POFF PCK
PSBPTO
Capacity control
Contact details
Standard rating conditions used Medium temperature application
GD Midea Heating & Ventilating Equipment Co. , Ltd.Penglai industry Road, Beijiao, Shunde, Foshan, Guangdong, 528311 P.R. China
(*) If Cdc is not determined by measurement then the default degradation coefficient of chillers shall be 0,9. (**) From 26 September 2018.
Sound power level, indoors / outdoors
Emissions of nitrogen oxides (if applicable)
GWP of the refrigerant
For air-to-water comfort chillers: air flow rate, outdoor measured
For water / brine-to-waterchillers: Rated brine or water flow rate, outdoor side heat exchanger
6500-
- -
m3/h
m3/h
variable
45/67
-
2088
dB
kg CO2 eq(100years)
mg/kWh input GCV
LWA
NOx (**)
-
ERP DATA (TDS = TECHNICAL DATA SHEET ) / DATI ERP (TDS = FOGLIO DATI TECNICI)
Ferroli spa ¬ 37047 San Bonifacio (Verona) Italy ¬ Via Ritonda 78/A - tel. +39.045.6139411 ¬ fax +39.045.6100933 ¬ www.ferroli.com
OMNIA-UE 10
Mod . 10 - Cooling mode - Average climate - Medium temperature (18°C) / Modo raffreddamento - Clima medio - Media temperatura (18°C)
3338
Information requirements for comfort chillers
Power consumption in modes other than "active mode"
Other items
Model(s):
Outdoor side heat exchanger of chiller:
Indoor side heat exchanger chiller:
Type:
Driver of compressor:
MHA-V10W/D2N1
Air to water
Water
Compressor driven vapour compression
Electric motor
Tj=+35℃
Tj=+30℃
Tj=+25℃
Tj=+20℃
Tj=+35℃
Tj=+30℃
Tj=+25℃
Tj=+20℃
EERd
EERd
EERd
EERd
2.74
4.44
5.77
7.48
-
-
-
-
9.1
6.9
4.6
2.5
kW
kW
kW
kW
Item Symbol Value UnitItem
Rated cooling capacity
Degradation co-efficientfor chillers (*)
Declared cooling capacity for part load at given outdoor temperature Tj
Declared energy efficiency ratio for part load at given outdoor temperature Tj
Prated,c
Pdc
Pdc
Pdc
Pdc
Cdc 0.9 -
9.1 kW Seasonal space coolingenergy efficiency ηs,c 194 %
Symbol Value Unit
Off mode
Thermosat-off mode
Crankcase heatermode
Standby mode
0.000
0.019
kW
kW
0.019
0.074
kW
kW
POFF PCK
PSBPTO
Capacity control
Contact details
Standard rating conditions used Low temperature application
GD Midea Heating & Ventilating Equipment Co. , Ltd.Penglai industry Road, Beijiao, Shunde, Foshan, Guangdong, 528311 P.R. China
(*) If Cdc is not determined by measurement then the default degradation coefficient of chillers shall be 0,9. (**) From 26 September 2018.
Sound power level, indoors / outdoors
Emissions of nitrogen oxides (if applicable)
GWP of the refrigerant
For air-to-water comfort chillers: air flow rate, outdoor measured
For water / brine-to-waterchillers: Rated brine or water flow rate, outdoor side heat exchanger
6500-
- -
m3/h
m3/h
variable
45/67
-
2088
dB
kg CO2 eq(100years)
mg/kWh input GCV
LWA
NOx (**)
-
ERP DATA (TDS = TECHNICAL DATA SHEET ) / DATI ERP (TDS = FOGLIO DATI TECNICI)
Ferroli spa ¬ 37047 San Bonifacio (Verona) Italy ¬ Via Ritonda 78/A - tel. +39.045.6139411 ¬ fax +39.045.6100933 ¬ www.ferroli.com
OMNIA-UE 10
Mod . 10 - Cooling mode - Average climate - Low temperature (7°C) / Modo raffreddamento - Clima medio - Bassa temperatura (7°C)
34
14
Annual energy consumption
Declared load profile Water heating energy efficiency
Daily electricity consumption Daily fuel consumption
Annual electricity consumption Annual fuel consumption
Contact details
(*) For heat pump space heaters and heat pump combination heaters, the rated heat output Prated is equal to the design load for heating Pdesignh, and the rated heat output of a supplementary heater Psup is equal to the supplementary capacity for heating sup(Tj). (**) If Cdh is not determined by measurement then the default degradation coefficient is Cdh = 0,9.
GD Midea Heating & Ventilating Equipment Co. Ltd (Penglai industry road, Beijiao, Shunde, Foshan, Guangdong, P.R China)
variable
-
Capacity control For air-to-water heat pumps:Rated air flow rate, outdoors
For water-or brine-to-water heat pumps: Rated brine or water flow rate, outdoorheat exchanger
Sound power level, indoors/outdoors
Air-to-water heat pump: YES
Outdoor unit: MHA-V12W/D2N1 Indoor unit: SMK-160/CD30GN1-B
NO
NO
NO
NO
Model(s):
Water-to-water heat pump:
Brine-to-water heat pump:
Low-temperature heat pump:
Equipped with a supplementary heater:
Heat pump combination heater:
Parameters are declared for medium-temperature application.
YES
Declared climate condition: AVERAGE
Technical parameters
Value Unit Item Symbol Unit
12 kW Seasonal space heating energy efficiency ηs
10.9 kW Tj = -7℃ COPd
7.0 kW Tj = 2℃ COPd
4.2 kW Tj = 7℃ COPd
2.5 kW Tj = 12℃ COPd
10.9 kW Tj = bivalent temperature COPd
10.3 kW
kW
kW
Tj = operating limit COPd
COPd
TOL
- For air-to-water heat pumps: Tj = -15℃
-7 °C For air-to-water heat pumps: Operation limit temperature
- Cycling interval efficiency
Heating water operating limit temperature0.9 --
kW
kW
kW
Symbol
Prated
Pdh
Pdh
Pdh
Pdh
Pdh
Pdh
Pdh
Tbiv
Pcych
Cdh
Poff
COPcyc
WTOL
PsupPsb
Pto
Pck
LWA
ηwh
Qfuel
AFC
Qclec
AEC
QHE
kW
dB
kWh
kWh kWh
%
GJ
-
-
-kWh
Declared coefficient of performance or primary energy ratio for part load atindoor temperature 20 °C and outdoor temperature Tj
Item
Rated heat output (*)
Tj = -7℃
Tj = 2℃
Tj = 7℃
Tj = 12℃
Tj = bivalent temperature
Tj = operating limit
For air-to-water heat pumps: Tj = -15℃
Bivalent temperature
Cycling interval capacity for heating
Degradation co-efficient (**)
Off mode
Standby mode
Thermostat-off mode
Crankcase heater mode
Declared capacity for heating for part load at indoor temperature 20 °Cand outdoor temperature Tj
Rated heat output (**)
Type of energy input
Power consumption in modes other than active mode
%
-
-
-
-
-
-
-
°C
-
°C
kW
Supplementary heater
Electrical
Value
127
2.02
3.05
4.49
5.97
2.02
1.73
-
-10
60
2.0
-
-
-
6500 m3/h
m3/h-
0.019
0.019
0.014
45/68
-
-
7833
0.078
Other items
For heat pump combination heater:
ERP DATA (TDS = TECHNICAL DATA SHEET ) / DATI ERP (TDS = FOGLIO DATI TECNICI)
OMNIA-UE 12
Parameters are declared for medium-temperature (55°C) application.
Ferroli spa ¬ 37047 San Bonifacio (Verona) Italy ¬ Via Ritonda 78/A - tel. +39.045.6139411 ¬ fax +39.045.6100933 ¬ www.ferroli.com
Mod . 12 - Heating mode - Average climate - Medium temperature (55°C) / Modo riscaldamento - Clima medio - Media temperatura (55°C)
35
15
Annual energy consumption
Declared load profile Water heating energy efficiency
Daily electricity consumption Daily fuel consumption
Annual electricity consumption Annual fuel consumption
Contact details
(*) For heat pump space heaters and heat pump combination heaters, the rated heat output Prated is equal to the design load for heating Pdesignh, and the rated heat output of a supplementary heater Psup is equal to the supplementary capacity for heating sup(Tj). (**) If Cdh is not determined by measurement then the default degradation coefficient is Cdh = 0,9.
GD Midea Heating & Ventilating Equipment Co. Ltd (Penglai industry road, Beijiao, Shunde, Foshan, Guangdong, P.R China)
variable
-
Capacity control For air-to-water heat pumps:Rated air flow rate, outdoors
For water-or brine-to-water heat pumps: Rated brine or water flow rate, outdoorheat exchanger
Sound power level, indoors/outdoors
Air-to-water heat pump:
Model(s):
Water-to-water heat pump:
Brine-to-water heat pump:
Low-temperature heat pump:
Equipped with a supplementary heater:
Heat pump combination heater:
Parameters are declared for medium-temperature application.
Declared climate condition:
Technical parameters
Value Unit Item Symbol Unit
12 kW Seasonal space heating energy efficiency ηs
7.8 kW Tj = -7℃ COPd
4.8 kW Tj = 2℃ COPd
2.9 kW Tj = 7℃ COPd
3.9 kW Tj = 12℃ COPd
10.0 kW Tj = bivalent temperature COPd
7.4 kW
kW
kW
Tj = operating limit COPd
COPd
TOL
- For air-to-water heat pumps: Tj = -15℃
-14 °C For air-to-water heat pumps: Operation limit temperature
- Cycling interval efficiency
Heating water operating limit temperature0.9 --
kW
kW
kW
Symbol
Prated
Pdh
Pdh
Pdh
Pdh
Pdh
Pdh
Pdh
Tbiv
Pcych
Cdh
Poff
COPcyc
WTOL
PsupPsb
Pto
Pck
LWA
ηwh
Qfuel
AFC
Qclec
AEC
QHE
kW
dB
kWh
kWh kWh
%
GJ
-
-
-kWh
Declared coefficient of performance or primary energy ratio for part load atindoor temperature 20 °C and outdoor temperature Tj
Item
Rated heat output (*)
Tj = -7℃
Tj = 2℃
Tj = 7℃
Tj = 12℃
Tj = bivalent temperature
Tj = operating limit
For air-to-water heat pumps: Tj = -15℃
Bivalent temperature
Cycling interval capacity for heating
Degradation co-efficient (**)
Off mode
Standby mode
Thermostat-off mode
Crankcase heater mode
Declared capacity for heating for part load at indoor temperature 20 °Cand outdoor temperature Tj
Rated heat output (**)
Type of energy input
Power consumption in modes other than active mode
%
-
-
-
-
-
-
-
°C
-
°C
kW
Supplementary heater
Electrical
Value
111
2.34
3.52
4.58
8.02
1.87
1.26
-
-20
60
5.3
-
-
-
6500 m3/h
m3/h-
0.019
0.019
0.014
-
-
-
10972
0.078
Other items
For heat pump combination heater:
YES
NO
NO
NO
NO
YES
Outdoor unit: MHA-V12W/D2N1 Indoor unit: SMK-160/CD30GN1-B
COLDER
ERP DATA (TDS = TECHNICAL DATA SHEET ) / DATI ERP (TDS = FOGLIO DATI TECNICI)
OMNIA-UE 12
Parameters are declared for medium-temperature (55°C) application.
Ferroli spa ¬ 37047 San Bonifacio (Verona) Italy ¬ Via Ritonda 78/A - tel. +39.045.6139411 ¬ fax +39.045.6100933 ¬ www.ferroli.com
Mod . 12 - Heating mode - Colder climate - Medium temperature (55°C) / Modo riscaldamento - Clima più freddo - Media temperatura (55°C)
36
16
0.019
0.019
0.014
0.078
Annual energy consumption
Declared load profile Water heating energy efficiency
Daily electricity consumption Daily fuel consumption
Annual electricity consumption Annual fuel consumption
Contact details
(*) For heat pump space heaters and heat pump combination heaters, the rated heat output Prated is equal to the design load for heating Pdesignh, and the rated heat output of a supplementary heater Psup is equal to the supplementary capacity for heating sup(Tj). (**) If Cdh is not determined by measurement then the default degradation coefficient is Cdh = 0,9.
GD Midea Heating & Ventilating Equipment Co. Ltd (Penglai industry road, Beijiao, Shunde, Foshan, Guangdong, P.R China)
variable
-
Capacity control For air-to-water heat pumps:Rated air flow rate, outdoors
For water-or brine-to-water heat pumps: Rated brine or water flow rate, outdoorheat exchanger
Sound power level, indoors/outdoors
Air-to-water heat pump:
Model(s):
Water-to-water heat pump:
Brine-to-water heat pump:
Low-temperature heat pump:
Equipped with a supplementary heater:
Heat pump combination heater:
Parameters are declared for medium-temperature application.
Declared climate condition:
Technical parameters
Value Unit Item Symbol Unit
11 kW Seasonal space heating energy efficiency ηs
- kW Tj = -7℃ COPd
11.4 kW Tj = 2℃ COPd
7.4 kW Tj = 7℃ COPd
5.3 kW Tj = 12℃ COPd
11.4 kW Tj = bivalent temperature COPd
11.4 kW
kW
kW
Tj = operating limit COPd
COPd
TOL
- For air-to-water heat pumps: Tj = -15℃
2 °C For air-to-water heat pumps: Operation limit temperature
- Cycling interval efficiency
Heating water operating limit temperature0.9 --
kW
kW
kW
Symbol
Prated
Pdh
Pdh
Pdh
Pdh
Pdh
Pdh
Pdh
Tbiv
Pcych
Cdh
Poff
COPcyc
WTOL
PsupPsb
Pto
Pck
LWA
ηwh
Qfuel
AFC
Qclec
AEC
QHE
kW
dB
kWh
kWh kWh
%
GJ
-
-
-kWh
Declared coefficient of performance or primary energy ratio for part load atindoor temperature 20 °C and outdoor temperature Tj
Item
Rated heat output (*)
Tj = -7℃
Tj = 2℃
Tj = 7℃
Tj = 12℃
Tj = bivalent temperature
Tj = operating limit
For air-to-water heat pumps: Tj = -15℃
Bivalent temperature
Cycling interval capacity for heating
Degradation co-efficient (**)
Off mode
Standby mode
Thermostat-off mode
Crankcase heater mode
Declared capacity for heating for part load at indoor temperature 20 °Cand outdoor temperature Tj
Rated heat output (**)
Type of energy input
Power consumption in modes other than active mode
%
-
-
-
-
-
-
-
°C
-
°C
kW
Supplementary heater
Electrical
Value
172
-
2.50
3.59
6.36
2.50
2.50
-
2
60
0
-
-
-
6500 m3/h
m3/h--
-
-
3491
Other items
For heat pump combination heater:
YES
NO
NO
NO
NO
YES
Outdoor unit: MHA-V12W/D2N1 Indoor unit: SMK-160/CD30GN1-B
WARMER
ERP DATA (TDS = TECHNICAL DATA SHEET ) / DATI ERP (TDS = FOGLIO DATI TECNICI)
OMNIA-UE 12
Parameters are declared for medium-temperature (55°C) application.
Ferroli spa ¬ 37047 San Bonifacio (Verona) Italy ¬ Via Ritonda 78/A - tel. +39.045.6139411 ¬ fax +39.045.6100933 ¬ www.ferroli.com
Mod . 12 - Heating mode - Warmer climate - Medium temperature (55°C) / Modo riscaldamento - Clima più caldo - Media temperatura (55°C)
3741
Information requirements for comfort chillers
Power consumption in modes other than "active mode"
Other items
Model(s):
Outdoor side heat exchanger of chiller:
Indoor side heat exchanger chiller:
Type:
Driver of compressor:
MHA-V12W/D2N1
Air to water
Water
Compressor driven vapour compression
Electric motor
Tj=+35℃
Tj=+30℃
Tj=+25℃
Tj=+20℃
Tj=+35℃
Tj=+30℃
Tj=+25℃
Tj=+20℃
EERd
EERd
EERd
EERd
4.23
6.74
7.53
11.08
-
-
-
-
11.4
8.9
5.4
3.3
kW
kW
kW
kW
Item Symbol Value UnitItem
Rated cooling capacity
Degradation co-efficientfor chillers (*)
Declared cooling capacity for part load at given outdoor temperature Tj
Declared energy efficiency ratio for part load at given outdoor temperature Tj
Prated,c
Pdc
Pdc
Pdc
Pdc
Cdc 0.9 -
11.4 kW Seasonal space coolingenergy efficiency ηs,c 276 %
Symbol Value Unit
Off mode
Thermosat-off mode
Crankcase heatermode
Standby mode
0.000
0.019
kW
kW
0.019
0.074
kW
kW
POFF PCK
PSBPTO
Capacity control
Contact details
Standard rating conditions used Medium temperature application
GD Midea Heating & Ventilating Equipment Co. , Ltd.Penglai industry Road, Beijiao, Shunde, Foshan, Guangdong, 528311 P.R. China
(*) If Cdc is not determined by measurement then the default degradation coefficient of chillers shall be 0,9. (**) From 26 September 2018.
Sound power level, indoors / outdoors
Emissions of nitrogen oxides (if applicable)
GWP of the refrigerant
For air-to-water comfort chillers: air flow rate, outdoor measured
For water / brine-to-waterchillers: Rated brine or water flow rate, outdoor side heat exchanger
6500-
- -
m3/h
m3/h
variable
45/68
-
2088
dB
kg CO2 eq(100years)
mg/kWh input GCV
LWA
NOx (**)
-
ERP DATA (TDS = TECHNICAL DATA SHEET ) / DATI ERP (TDS = FOGLIO DATI TECNICI)
Ferroli spa ¬ 37047 San Bonifacio (Verona) Italy ¬ Via Ritonda 78/A - tel. +39.045.6139411 ¬ fax +39.045.6100933 ¬ www.ferroli.com
OMNIA-UE 12
Mod . 12 - Cooling mode - Average climate - Medium temperature (18°C) / Modo raffreddamento - Clima medio - Media temperatura (18°C)
38 40
Information requirements for comfort chillers
Power consumption in modes other than "active mode"
Other items
Model(s):
Outdoor side heat exchanger of chiller:
Indoor side heat exchanger chiller:
Type:
Driver of compressor:
MHA-V12W/D2N1
Air to water
Water
Compressor driven vapour compression
Electric motor
Tj=+35℃
Tj=+30℃
Tj=+25℃
Tj=+20℃
Tj=+35℃
Tj=+30℃
Tj=+25℃
Tj=+20℃
EERd
EERd
EERd
EERd
2.55
4.28
5.65
7.67
-
-
-
-
10.7
8.2
5.2
2.8
kW
kW
kW
kW
Item Symbol Value UnitItem
Rated cooling capacity
Degradation co-efficientfor chillers (*)
Declared cooling capacity for part load at given outdoor temperature Tj
Declared energy efficiency ratio for part load at given outdoor temperature Tj
Prated,c
Pdc
Pdc
Pdc
Pdc
Cdc 0.9 -
10.7 kW Seasonal space coolingenergy efficiency ηs,c 193 %
Symbol Value Unit
Off mode
Thermosat-off mode
Crankcase heatermode
Standby mode
0.000
0.019
kW
kW
0.019
0.074
kW
kW
POFF PCK
PSBPTO
Capacity control
Contact details
Standard rating conditions used Low temperature application
GD Midea Heating & Ventilating Equipment Co. , Ltd.Penglai industry Road, Beijiao, Shunde, Foshan, Guangdong, 528311 P.R. China
(*) If Cdc is not determined by measurement then the default degradation coefficient of chillers shall be 0,9. (**) From 26 September 2018.
Sound power level, indoors / outdoors
Emissions of nitrogen oxides (if applicable)
GWP of the refrigerant
For air-to-water comfort chillers: air flow rate, outdoor measured
For water / brine-to-waterchillers: Rated brine or water flow rate, outdoor side heat exchanger
6500-
- -
m3/h
m3/h
variable
45/68
-
2088
dB
kg CO2 eq(100years)
mg/kWh input GCV
LWA
NOx (**)
-
ERP DATA (TDS = TECHNICAL DATA SHEET ) / DATI ERP (TDS = FOGLIO DATI TECNICI)
Ferroli spa ¬ 37047 San Bonifacio (Verona) Italy ¬ Via Ritonda 78/A - tel. +39.045.6139411 ¬ fax +39.045.6100933 ¬ www.ferroli.com
OMNIA-UE 12
Mod . 12 - Cooling mode - Average climate - Low temperature (7°C) / Modo raffreddamento - Clima medio - Bassa temperatura (7°C)
39
23
Annual energy consumption
Declared load profile Water heating energy efficiency
Daily electricity consumption Daily fuel consumption
Annual electricity consumption Annual fuel consumption
Contact details
(*) For heat pump space heaters and heat pump combination heaters, the rated heat output Prated is equal to the design load for heating Pdesignh, and the rated heat output of a supplementary heater Psup is equal to the supplementary capacity for heating sup(Tj). (**) If Cdh is not determined by measurement then the default degradation coefficient is Cdh = 0,9.
GD Midea Heating & Ventilating Equipment Co. Ltd (Penglai industry road, Beijiao, Shunde, Foshan, Guangdong, P.R China)
variable
-
Capacity control For air-to-water heat pumps:Rated air flow rate, outdoors
For water-or brine-to-water heat pumps: Rated brine or water flow rate, outdoorheat exchanger
Sound power level, indoors/outdoors
Air-to-water heat pump: YES
Outdoor unit: MHA-V12W/D2RN1 Indoor unit: SMK-160/CSD45GN1-B
NO
NO
NO
NO
Model(s):
Water-to-water heat pump:
Brine-to-water heat pump:
Low-temperature heat pump:
Equipped with a supplementary heater:
Heat pump combination heater:
Parameters are declared for medium-temperature application.
YES
Declared climate condition: AVERAGE
Technical parameters
Value Unit Item Symbol Unit
12 kW Seasonal space heating energy efficiency ηs
11.1 kW Tj = -7℃ COPd
6.8 kW Tj = 2℃ COPd
4.2 kW Tj = 7℃ COPd
3.5 kW Tj = 12℃ COPd
11.5 kW Tj = bivalent temperature COPd
11.4 kW
kW
kW
Tj = operating limit COPd
COPd
TOL
- For air-to-water heat pumps: Tj = -15℃
-9 °C For air-to-water heat pumps: Operation limit temperature
- Cycling interval efficiency
Heating water operating limit temperature0.9 --
kW
kW
kW
Symbol
Prated
Pdh
Pdh
Pdh
Pdh
Pdh
Pdh
Pdh
Tbiv
Pcych
Cdh
Poff
COPcyc
WTOL
PsupPsb
Pto
Pck
LWA
ηwh
Qfuel
AFC
Qclec
AEC
QHE
kW
dB
kWh
kWh kWh
%
GJ
-
-
-kWh
Declared coefficient of performance or primary energy ratio for part load atindoor temperature 20 °C and outdoor temperature Tj
Item
Rated heat output (*)
Tj = -7℃
Tj = 2℃
Tj = 7℃
Tj = 12℃
Tj = bivalent temperature
Tj = operating limit
For air-to-water heat pumps: Tj = -15℃
Bivalent temperature
Cycling interval capacity for heating
Degradation co-efficient (**)
Off mode
Standby mode
Thermostat-off mode
Crankcase heater mode
Declared capacity for heating for part load at indoor temperature 20 °Cand outdoor temperature Tj
Rated heat output (**)
Type of energy input
Power consumption in modes other than active mode
%
-
-
-
-
-
-
-
°C
-
°C
kW
Supplementary heater
Electrical
Value
128
1.98
3.11
4.50
6.72
1.78
1.73
-
-10
60
0.6
-
-
-
6500 m3/h
m3/h-
0.015
0.015
0.027
45/70
-
-
7537
0.063
Other items
For heat pump combination heater:
ERP DATA (TDS = TECHNICAL DATA SHEET ) / DATI ERP (TDS = FOGLIO DATI TECNICI)
OMNIA-UE 12T
Parameters are declared for medium-temperature (55°C) application.
Ferroli spa ¬ 37047 San Bonifacio (Verona) Italy ¬ Via Ritonda 78/A - tel. +39.045.6139411 ¬ fax +39.045.6100933 ¬ www.ferroli.com
Mod . 12T - Heating mode - Average climate - Medium temperature (55°C) / Modo riscaldamento - Clima medio - Media temperatura (55°C)
40
24
Annual energy consumption
Declared load profile Water heating energy efficiency
Daily electricity consumption Daily fuel consumption
Annual electricity consumption Annual fuel consumption
Contact details
(*) For heat pump space heaters and heat pump combination heaters, the rated heat output Prated is equal to the design load for heating Pdesignh, and the rated heat output of a supplementary heater Psup is equal to the supplementary capacity for heating sup(Tj). (**) If Cdh is not determined by measurement then the default degradation coefficient is Cdh = 0,9.
GD Midea Heating & Ventilating Equipment Co. Ltd (Penglai industry road, Beijiao, Shunde, Foshan, Guangdong, P.R China)
variable
-
Capacity control For air-to-water heat pumps:Rated air flow rate, outdoors
For water-or brine-to-water heat pumps: Rated brine or water flow rate, outdoorheat exchanger
Sound power level, indoors/outdoors
Air-to-water heat pump:
Model(s):
Water-to-water heat pump:
Brine-to-water heat pump:
Low-temperature heat pump:
Equipped with a supplementary heater:
Heat pump combination heater:
Parameters are declared for medium-temperature application.
Declared climate condition:
Technical parameters
Value Unit Item Symbol Unit
12 kW Seasonal space heating energy efficiency ηs
7.5 kW Tj = -7℃ COPd
4.5 kW Tj = 2℃ COPd
2.8 kW Tj = 7℃ COPd
3.4 kW Tj = 12℃ COPd
9.8 kW Tj = bivalent temperature COPd
7.6 kW
kW
kW
Tj = operating limit COPd
COPd
TOL
- For air-to-water heat pumps: Tj = -15℃
-15 °C For air-to-water heat pumps: Operation limit temperature
- Cycling interval efficiency
Heating water operating limit temperature0.9 --
kW
kW
kW
Symbol
Prated
Pdh
Pdh
Pdh
Pdh
Pdh
Pdh
Pdh
Tbiv
Pcych
Cdh
Poff
COPcyc
WTOL
PsupPsb
Pto
Pck
LWA
ηwh
Qfuel
AFC
Qclec
AEC
QHE
kW
dB
kWh
kWh kWh
%
GJ
-
-
-kWh
Declared coefficient of performance or primary energy ratio for part load atindoor temperature 20 °C and outdoor temperature Tj
Item
Rated heat output (*)
Tj = -7℃
Tj = 2℃
Tj = 7℃
Tj = 12℃
Tj = bivalent temperature
Tj = operating limit
For air-to-water heat pumps: Tj = -15℃
Bivalent temperature
Cycling interval capacity for heating
Degradation co-efficient (**)
Off mode
Standby mode
Thermostat-off mode
Crankcase heater mode
Declared capacity for heating for part load at indoor temperature 20 °Cand outdoor temperature Tj
Rated heat output (**)
Type of energy input
Power consumption in modes other than active mode
%
-
-
-
-
-
-
-
°C
-
°C
kW
Supplementary heater
Electrical
Value
110
2.26
3.41
4.67
7.68
1.70
1.34
-
-20
60
3.65
-
-
-
6500 m3/h
m3/h-
0.015
0.015
0.027
-
-
-
10454
0.063
Other items
For heat pump combination heater:
YES
NO
NO
NO
NO
YES
Outdoor unit: MHA-V12W/D2RN1 Indoor unit: SMK-160/CSD45GN1-B
COLDER
ERP DATA (TDS = TECHNICAL DATA SHEET ) / DATI ERP (TDS = FOGLIO DATI TECNICI)
OMNIA-UE 12T
Parameters are declared for medium-temperature (55°C) application.
Ferroli spa ¬ 37047 San Bonifacio (Verona) Italy ¬ Via Ritonda 78/A - tel. +39.045.6139411 ¬ fax +39.045.6100933 ¬ www.ferroli.com
Mod . 12T - Heating mode - Colder climate - Medium temperature (55°C) / Modo riscaldamento - Clima più freddo - Media temperatura (55°C)
41
25
0.015
0.015
0.027
0.063
Annual energy consumption
Declared load profile Water heating energy efficiency
Daily electricity consumption Daily fuel consumption
Annual electricity consumption Annual fuel consumption
Contact details
(*) For heat pump space heaters and heat pump combination heaters, the rated heat output Prated is equal to the design load for heating Pdesignh, and the rated heat output of a supplementary heater Psup is equal to the supplementary capacity for heating sup(Tj). (**) If Cdh is not determined by measurement then the default degradation coefficient is Cdh = 0,9.
GD Midea Heating & Ventilating Equipment Co. Ltd (Penglai industry road, Beijiao, Shunde, Foshan, Guangdong, P.R China)
variable
-
Capacity control For air-to-water heat pumps:Rated air flow rate, outdoors
For water-or brine-to-water heat pumps: Rated brine or water flow rate, outdoorheat exchanger
Sound power level, indoors/outdoors
Air-to-water heat pump:
Model(s):
Water-to-water heat pump:
Brine-to-water heat pump:
Low-temperature heat pump:
Equipped with a supplementary heater:
Heat pump combination heater:
Parameters are declared for medium-temperature application.
Declared climate condition:
Technical parameters
Value Unit Item Symbol Unit
12 kW Seasonal space heating energy efficiency ηs
- kW Tj = -7℃ COPd
11.6 kW Tj = 2℃ COPd
8.0 kW Tj = 7℃ COPd
3.8 kW Tj = 12℃ COPd
11.6 kW Tj = bivalent temperature COPd
11.6 kW
kW
kW
Tj = operating limit COPd
COPd
TOL
- For air-to-water heat pumps: Tj = -15℃
2 °C For air-to-water heat pumps: Operation limit temperature
- Cycling interval efficiency
Heating water operating limit temperature0.9 --
kW
kW
kW
Symbol
Prated
Pdh
Pdh
Pdh
Pdh
Pdh
Pdh
Pdh
Tbiv
Pcych
Cdh
Poff
COPcyc
WTOL
PsupPsb
Pto
Pck
LWA
ηwh
Qfuel
AFC
Qclec
AEC
QHE
kW
dB
kWh
kWh kWh
%
GJ
-
-
-kWh
Declared coefficient of performance or primary energy ratio for part load atindoor temperature 20 °C and outdoor temperature Tj
Item
Rated heat output (*)
Tj = -7℃
Tj = 2℃
Tj = 7℃
Tj = 12℃
Tj = bivalent temperature
Tj = operating limit
For air-to-water heat pumps: Tj = -15℃
Bivalent temperature
Cycling interval capacity for heating
Degradation co-efficient (**)
Off mode
Standby mode
Thermostat-off mode
Crankcase heater mode
Declared capacity for heating for part load at indoor temperature 20 °Cand outdoor temperature Tj
Rated heat output (**)
Type of energy input
Power consumption in modes other than active mode
%
-
-
-
-
-
-
-
°C
-
°C
kW
Supplementary heater
Electrical
Value
164
-
2.34
3.43
5.82
2.34
2.34
-
2
60
0
-
-
-
6500 m3/h
m3/h--
-
-
3700
Other items
For heat pump combination heater:
YES
NO
NO
NO
NO
YES
Outdoor unit: MHA-V12W/D2RN1 Indoor unit: SMK-160/CSD45GN1-B
WARMER
ERP DATA (TDS = TECHNICAL DATA SHEET ) / DATI ERP (TDS = FOGLIO DATI TECNICI)
OMNIA-UE 12T
Parameters are declared for medium-temperature (55°C) application.
Ferroli spa ¬ 37047 San Bonifacio (Verona) Italy ¬ Via Ritonda 78/A - tel. +39.045.6139411 ¬ fax +39.045.6100933 ¬ www.ferroli.com
Mod . 12T - Heating mode - Warmer climate - Medium temperature (55°C) / Modo riscaldamento - Clima più caldo - Media temperatura (55°C)
42 47
Information requirements for comfort chillers
Power consumption in modes other than "active mode"
Other items
Model(s):
Outdoor side heat exchanger of chiller:
Indoor side heat exchanger chiller:
Type:
Driver of compressor:
MHA-V12W/D2RN1
Air to water
Water
Compressor driven vapour compression
Electric motor
Tj=+35℃
Tj=+30℃
Tj=+25℃
Tj=+20℃
Tj=+35℃
Tj=+30℃
Tj=+25℃
Tj=+20℃
EERd
EERd
EERd
EERd
4.36
7.32
10.00
13.54
-
-
-
-
11.4
8.4
6.1
4.6
kW
kW
kW
kW
Item Symbol Value UnitItem
Rated cooling capacity
Degradation co-efficientfor chillers (*)
Declared cooling capacity for part load at given outdoor temperature Tj
Declared energy efficiency ratio for part load at given outdoor temperature Tj
Prated,c
Pdc
Pdc
Pdc
Pdc
Cdc 0.9 -
11.4 kW Seasonal space coolingenergy efficiency ηs,c 326 %
Symbol Value Unit
Off mode
Thermosat-off mode
Crankcase heatermode
Standby mode
0.000
0.015
kW
kW
0.015
0.063
kW
kW
POFF PCK
PSBPTO
Capacity control
Contact details
Standard rating conditions used Medium temperature application
GD Midea Heating & Ventilating Equipment Co. , Ltd.Penglai industry Road, Beijiao, Shunde, Foshan, Guangdong, 528311 P.R. China
(*) If Cdc is not determined by measurement then the default degradation coefficient of chillers shall be 0,9. (**) From 26 September 2018.
Sound power level, indoors / outdoors
Emissions of nitrogen oxides (if applicable)
GWP of the refrigerant
For air-to-water comfort chillers: air flow rate, outdoor measured
For water / brine-to-waterchillers: Rated brine or water flow rate, outdoor side heat exchanger
6500-
- -
m3/h
m3/h
variable
45/70
-
2088
dB
kg CO2 eq(100years)
mg/kWh input GCV
LWA
NOx (**)
-
ERP DATA (TDS = TECHNICAL DATA SHEET ) / DATI ERP (TDS = FOGLIO DATI TECNICI)
Ferroli spa ¬ 37047 San Bonifacio (Verona) Italy ¬ Via Ritonda 78/A - tel. +39.045.6139411 ¬ fax +39.045.6100933 ¬ www.ferroli.com
OMNIA-UE 12T
Mod . 12T - Cooling mode - Average climate - Medium temperature (18°C) / Modo raffreddamento - Clima medio - Media temperatura (18°C)
4346
Information requirements for comfort chillers
Power consumption in modes other than "active mode"
Other items
Model(s):
Outdoor side heat exchanger of chiller:
Indoor side heat exchanger chiller:
Type:
Driver of compressor:
MHA-V12W/D2RN1
Air to water
Water
Compressor driven vapour compression
Electric motor
Tj=+35℃
Tj=+30℃
Tj=+25℃
Tj=+20℃
Tj=+35℃
Tj=+30℃
Tj=+25℃
Tj=+20℃
EERd
EERd
EERd
EERd
2.56
3.93
6.08
7.40
-
-
-
-
11.9
9.4
6.2
3.2
kW
kW
kW
kW
Item Symbol Value UnitItem
Rated cooling capacity
Degradation co-efficientfor chillers (*)
Declared cooling capacity for part load at given outdoor temperature Tj
Declared energy efficiency ratio for part load at given outdoor temperature Tj
Prated,c
Pdc
Pdc
Pdc
Pdc
Cdc 0.9 -
11.9 kW Seasonal space coolingenergy efficiency ηs,c 195 %
Symbol Value Unit
Off mode
Thermosat-off mode
Crankcase heatermode
Standby mode
0.000
0.015
kW
kW
0.015
0.063
kW
kW
POFF PCK
PSBPTO
Capacity control
Contact details
Standard rating conditions used Low temperature application
GD Midea Heating & Ventilating Equipment Co. , Ltd.Penglai industry Road, Beijiao, Shunde, Foshan, Guangdong, 528311 P.R. China
(*) If Cdc is not determined by measurement then the default degradation coefficient of chillers shall be 0,9. (**) From 26 September 2018.
Sound power level, indoors / outdoors
Emissions of nitrogen oxides (if applicable)
GWP of the refrigerant
For air-to-water comfort chillers: air flow rate, outdoor measured
For water / brine-to-waterchillers: Rated brine or water flow rate, outdoor side heat exchanger
6500-
- -
m3/h
m3/h
variable
45/70
-
2088
dB
kg CO2 eq(100years)
mg/kWh input GCV
LWA
NOx (**)
-
ERP DATA (TDS = TECHNICAL DATA SHEET ) / DATI ERP (TDS = FOGLIO DATI TECNICI)
Ferroli spa ¬ 37047 San Bonifacio (Verona) Italy ¬ Via Ritonda 78/A - tel. +39.045.6139411 ¬ fax +39.045.6100933 ¬ www.ferroli.com
OMNIA-UE 12T
Mod . 12T - Cooling mode - Average climate - Low temperature (7°C) / Modo raffreddamento - Clima medio - Bassa temperatura (7°C)
44
17
Annual energy consumption
Declared load profile Water heating energy efficiency
Daily electricity consumption Daily fuel consumption
Annual electricity consumption Annual fuel consumption
Contact details
(*) For heat pump space heaters and heat pump combination heaters, the rated heat output Prated is equal to the design load for heating Pdesignh, and the rated heat output of a supplementary heater Psup is equal to the supplementary capacity for heating sup(Tj). (**) If Cdh is not determined by measurement then the default degradation coefficient is Cdh = 0,9.
GD Midea Heating & Ventilating Equipment Co. Ltd (Penglai industry road, Beijiao, Shunde, Foshan, Guangdong, P.R China)
variable
-
Capacity control For air-to-water heat pumps:Rated air flow rate, outdoors
For water-or brine-to-water heat pumps: Rated brine or water flow rate, outdoorheat exchanger
Sound power level, indoors/outdoors
Air-to-water heat pump: YES
Outdoor unit: MHA-V14W/D2N1 Indoor unit: SMK-160/CD30GN1-B
NO
NO
NO
NO
Model(s):
Water-to-water heat pump:
Brine-to-water heat pump:
Low-temperature heat pump:
Equipped with a supplementary heater:
Heat pump combination heater:
Parameters are declared for medium-temperature application.
YES
Declared climate condition: AVERAGE
Technical parameters
Value Unit Item Symbol Unit
14 kW Seasonal space heating energy efficiency ηs
12.2 kW Tj = -7℃ COPd
7.7 kW Tj = 2℃ COPd
5.0 kW Tj = 7℃ COPd
2.7 kW Tj = 12℃ COPd
12.2 kW Tj = bivalent temperature COPd
10.3 kW
kW
kW
Tj = operating limit COPd
COPd
TOL
- For air-to-water heat pumps: Tj = -15℃
-7 °C For air-to-water heat pumps: Operation limit temperature
- Cycling interval efficiency
Heating water operating limit temperature0.9 --
kW
kW
kW
Symbol
Prated
Pdh
Pdh
Pdh
Pdh
Pdh
Pdh
Pdh
Tbiv
Pcych
Cdh
Poff
COPcyc
WTOL
PsupPsb
Pto
Pck
LWA
ηwh
Qfuel
AFC
Qclec
AEC
QHE
kW
dB
kWh
kWh kWh
%
GJ
-
-
-kWh
Declared coefficient of performance or primary energy ratio for part load atindoor temperature 20 °C and outdoor temperature Tj
Item
Rated heat output (*)
Tj = -7℃
Tj = 2℃
Tj = 7℃
Tj = 12℃
Tj = bivalent temperature
Tj = operating limit
For air-to-water heat pumps: Tj = -15℃
Bivalent temperature
Cycling interval capacity for heating
Degradation co-efficient (**)
Off mode
Standby mode
Thermostat-off mode
Crankcase heater mode
Declared capacity for heating for part load at indoor temperature 20 °Cand outdoor temperature Tj
Rated heat output (**)
Type of energy input
Power consumption in modes other than active mode
%
-
-
-
-
-
-
-
°C
-
°C
kW
Supplementary heater
Electrical
Value
128
2.00
3.10
4.55
6.24
2.00
1.66
-
-10
60
3.5
-
-
-
6500 m3/h
m3/h-
0.019
0.019
0.014
45/71
-
-
8688
0.078
Other items
For heat pump combination heater:
ERP DATA (TDS = TECHNICAL DATA SHEET ) / DATI ERP (TDS = FOGLIO DATI TECNICI)
OMNIA-UE 14
Parameters are declared for medium-temperature (55°C) application.
Ferroli spa ¬ 37047 San Bonifacio (Verona) Italy ¬ Via Ritonda 78/A - tel. +39.045.6139411 ¬ fax +39.045.6100933 ¬ www.ferroli.com
Mod . 14 - Heating mode - Average climate - Medium temperature (55°C) / Modo riscaldamento - Clima medio - Media temperatura (55°C)
45
18
Annual energy consumption
Declared load profile Water heating energy efficiency
Daily electricity consumption Daily fuel consumption
Annual electricity consumption Annual fuel consumption
Contact details
(*) For heat pump space heaters and heat pump combination heaters, the rated heat output Prated is equal to the design load for heating Pdesignh, and the rated heat output of a supplementary heater Psup is equal to the supplementary capacity for heating sup(Tj). (**) If Cdh is not determined by measurement then the default degradation coefficient is Cdh = 0,9.
GD Midea Heating & Ventilating Equipment Co. Ltd (Penglai industry road, Beijiao, Shunde, Foshan, Guangdong, P.R China)
variable
-
Capacity control For air-to-water heat pumps:Rated air flow rate, outdoors
For water-or brine-to-water heat pumps: Rated brine or water flow rate, outdoorheat exchanger
Sound power level, indoors/outdoors
Air-to-water heat pump:
Model(s):
Water-to-water heat pump:
Brine-to-water heat pump:
Low-temperature heat pump:
Equipped with a supplementary heater:
Heat pump combination heater:
Parameters are declared for medium-temperature application.
Declared climate condition:
Technical parameters
Value Unit Item Symbol Unit
14 kW Seasonal space heating energy efficiency ηs
9.0 kW Tj = -7℃ COPd
5.2 kW Tj = 2℃ COPd
3.3 kW Tj = 7℃ COPd
3.9 kW Tj = 12℃ COPd
10.9 kW Tj = bivalent temperature COPd
7.4 kW
kW
kW
Tj = operating limit COPd
COPd
TOL
- For air-to-water heat pumps: Tj = -15℃
-13 °C For air-to-water heat pumps: Operation limit temperature
- Cycling interval efficiency
Heating water operating limit temperature0.9 --
kW
kW
kW
Symbol
Prated
Pdh
Pdh
Pdh
Pdh
Pdh
Pdh
Pdh
Tbiv
Pcych
Cdh
Poff
COPcyc
WTOL
PsupPsb
Pto
Pck
LWA
ηwh
Qfuel
AFC
Qclec
AEC
QHE
kW
dB
kWh
kWh kWh
%
GJ
-
-
-kWh
Declared coefficient of performance or primary energy ratio for part load atindoor temperature 20 °C and outdoor temperature Tj
Item
Rated heat output (*)
Tj = -7℃
Tj = 2℃
Tj = 7℃
Tj = 12℃
Tj = bivalent temperature
Tj = operating limit
For air-to-water heat pumps: Tj = -15℃
Bivalent temperature
Cycling interval capacity for heating
Degradation co-efficient (**)
Off mode
Standby mode
Thermostat-off mode
Crankcase heater mode
Declared capacity for heating for part load at indoor temperature 20 °Cand outdoor temperature Tj
Rated heat output (**)
Type of energy input
Power consumption in modes other than active mode
%
-
-
-
-
-
-
-
°C
-
°C
kW
Supplementary heater
Electrical
Value
111
2.39
3.50
4.85
7.15
1.96
1.25
-
-20
60
6.6
-
-
-
6500 m3/h
m3/h-
0.019
0.019
0.014
-
-
-
12378
0.078
Other items
For heat pump combination heater:
YES
NO
NO
NO
NO
YES
Outdoor unit: MHA-V14W/D2N1 Indoor unit: SMK-160/CD30GN1-B
COLDER
ERP DATA (TDS = TECHNICAL DATA SHEET ) / DATI ERP (TDS = FOGLIO DATI TECNICI)
OMNIA-UE 14
Parameters are declared for medium-temperature (55°C) application.
Ferroli spa ¬ 37047 San Bonifacio (Verona) Italy ¬ Via Ritonda 78/A - tel. +39.045.6139411 ¬ fax +39.045.6100933 ¬ www.ferroli.com
Mod . 14 - Heating mode - Colder climate - Medium temperature (55°C) / Modo riscaldamento - Clima più freddo - Media temperatura (55°C)
46
19
0.019
0.019
0.014
0.078
Annual energy consumption
Declared load profile Water heating energy efficiency
Daily electricity consumption Daily fuel consumption
Annual electricity consumption Annual fuel consumption
Contact details
(*) For heat pump space heaters and heat pump combination heaters, the rated heat output Prated is equal to the design load for heating Pdesignh, and the rated heat output of a supplementary heater Psup is equal to the supplementary capacity for heating sup(Tj). (**) If Cdh is not determined by measurement then the default degradation coefficient is Cdh = 0,9.
GD Midea Heating & Ventilating Equipment Co. Ltd (Penglai industry road, Beijiao, Shunde, Foshan, Guangdong, P.R China)
variable
-
Capacity control For air-to-water heat pumps:Rated air flow rate, outdoors
For water-or brine-to-water heat pumps: Rated brine or water flow rate, outdoorheat exchanger
Sound power level, indoors/outdoors
Air-to-water heat pump:
Model(s):
Water-to-water heat pump:
Brine-to-water heat pump:
Low-temperature heat pump:
Equipped with a supplementary heater:
Heat pump combination heater:
Parameters are declared for medium-temperature application.
Declared climate condition:
Technical parameters
Value Unit Item Symbol Unit
14 kW Seasonal space heating energy efficiency ηs
- kW Tj = -7℃ COPd
14.0 kW Tj = 2℃ COPd
9.3 kW Tj = 7℃ COPd
4.2 kW Tj = 12℃ COPd
14.0 kW Tj = bivalent temperature COPd
14.0 kW
kW
kW
Tj = operating limit COPd
COPd
TOL
- For air-to-water heat pumps: Tj = -15℃
2 °C For air-to-water heat pumps: Operation limit temperature
- Cycling interval efficiency
Heating water operating limit temperature0.9
热水机热水机
--
kW
kW
kW
Symbol
Prated
Pdh
Pdh
Pdh
Pdh
Pdh
Pdh
Pdh
Tbiv
Pcych
Cdh
Poff
COPcyc
WTOL
PsupPsb
Pto
Pck
LWA
ηwh
Qfuel
AFC
Qclec
AEC
QHE
kW
dB
kWh
kWh kWh
%
GJ
-
-
-kWh
Declared coefficient of performance or primary energy ratio for part load atindoor temperature 20 °C and outdoor temperature Tj
Item
Rated heat output (*)
Tj = -7℃
Tj = 2℃
Tj = 7℃
Tj = 12℃
Tj = bivalent temperature
Tj = operating limit
For air-to-water heat pumps: Tj = -15℃
Bivalent temperature
Cycling interval capacity for heating
Degradation co-efficient (**)
Off mode
Standby mode
Thermostat-off mode
Crankcase heater mode
Declared capacity for heating for part load at indoor temperature 20 °Cand outdoor temperature Tj
Rated heat output (**)
Type of energy input
Power consumption in modes other than active mode
%
-
-
-
-
-
-
-
°C
-
°C
kW
Supplementary heater
Electrical
Value
166
-
2.31
3.45
5.76
2.31
2.31
-
2
60
0
-
-
-
6500 m3/h
m3/h--
-
-
4432
Other items
For heat pump combination heater:
YES
NO
NO
NO
NO
YES
Outdoor unit: MHA-V14W/D2N1 Indoor unit: SMK-160/CD30GN1-B
WARMER
ERP DATA (TDS = TECHNICAL DATA SHEET ) / DATI ERP (TDS = FOGLIO DATI TECNICI)
OMNIA-UE 14
Parameters are declared for medium-temperature (55°C) application.
Ferroli spa ¬ 37047 San Bonifacio (Verona) Italy ¬ Via Ritonda 78/A - tel. +39.045.6139411 ¬ fax +39.045.6100933 ¬ www.ferroli.com
Mod . 14 - Heating mode - Warmer climate - Medium temperature (55°C) / Modo riscaldamento - Clima più caldo - Media temperatura (55°C)
4743
Information requirements for comfort chillers
Power consumption in modes other than "active mode"
Other items
Model(s):
Outdoor side heat exchanger of chiller:
Indoor side heat exchanger chiller:
Type:
Driver of compressor:
MHA-V14W/D2N1
Air to water
Water
Compressor driven vapour compression
Electric motor
Tj=+35℃
Tj=+30℃
Tj=+25℃
Tj=+20℃
Tj=+35℃
Tj=+30℃
Tj=+25℃
Tj=+20℃
EERd
EERd
EERd
EERd
3.82
6.34
8.67
10.42
-
-
-
-
12.6
9.8
6.1
3.3
kW
kW
kW
kW
Item Symbol Value UnitItem
Rated cooling capacity
Degradation co-efficientfor chillers (*)
Declared cooling capacity for part load at given outdoor temperature Tj
Declared energy efficiency ratio for part load at given outdoor temperature Tj
Prated,c
Pdc
Pdc
Pdc
Pdc
Cdc 0.9 -
12.6 kW Seasonal space coolingenergy efficiency ηs,c 281 %
Symbol Value Unit
Off mode
Thermosat-off mode
Crankcase heatermode
Standby mode
0.000
0.019
kW
kW
0.019
0.074
kW
kW
POFF PCK
PSBPTO
Capacity control
Contact details
Standard rating conditions used Medium temperature application
GD Midea Heating & Ventilating Equipment Co. , Ltd.Penglai industry Road, Beijiao, Shunde, Foshan, Guangdong, 528311 P.R. China
(*) If Cdc is not determined by measurement then the default degradation coefficient of chillers shall be 0,9. (**) From 26 September 2018.
Sound power level, indoors / outdoors
Emissions of nitrogen oxides (if applicable)
GWP of the refrigerant
For air-to-water comfort chillers: air flow rate, outdoor measured
For water / brine-to-waterchillers: Rated brine or water flow rate, outdoor side heat exchanger
6500-
- -
m3/h
m3/h
variable
45/71
-
2088
dB
kg CO2 eq(100years)
mg/kWh input GCV
LWA
NOx (**)
-
ERP DATA (TDS = TECHNICAL DATA SHEET ) / DATI ERP (TDS = FOGLIO DATI TECNICI)
Ferroli spa ¬ 37047 San Bonifacio (Verona) Italy ¬ Via Ritonda 78/A - tel. +39.045.6139411 ¬ fax +39.045.6100933 ¬ www.ferroli.com
OMNIA-UE 14
Mod . 14 - Cooling mode - Average climate - Medium temperature (18°C) / Modo raffreddamento - Clima medio - Media temperatura (18°C)
48 42
Information requirements for comfort chillers
Power consumption in modes other than "active mode"
Other items
Model(s):
Outdoor side heat exchanger of chiller:
Indoor side heat exchanger chiller:
Type:
Driver of compressor:
MHA-V14W/D2N1
Air to water
Water
Compressor driven vapour compression
Electric motor
Tj=+35℃
Tj=+30℃
Tj=+25℃
Tj=+20℃
Tj=+35℃
Tj=+30℃
Tj=+25℃
Tj=+20℃
EERd
EERd
EERd
EERd
2.50
4.01
5.58
7.74
-
-
-
-
12.1
9.3
5.8
3.4
kW
kW
kW
kW
Item Symbol Value UnitItem
Rated cooling capacity
Degradation co-efficientfor chillers (*)
Declared cooling capacity for part load at given outdoor temperature Tj
Declared energy efficiency ratio for part load at given outdoor temperature Tj
Prated,c
Pdc
Pdc
Pdc
Pdc
Cdc 0.9 -
12.1 kW Seasonal space coolingenergy efficiency ηs,c 189 %
Symbol Value Unit
Off mode
Thermosat-off mode
Crankcase heatermode
Standby mode
0.000
0.019
kW
kW
0.019
0.074
kW
kW
POFF PCK
PSBPTO
Capacity control
Contact details
Standard rating conditions used Low temperature application
GD Midea Heating & Ventilating Equipment Co. , Ltd.Penglai industry Road, Beijiao, Shunde, Foshan, Guangdong, 528311 P.R. China
(*) If Cdc is not determined by measurement then the default degradation coefficient of chillers shall be 0,9. (**) From 26 September 2018.
Sound power level, indoors / outdoors
Emissions of nitrogen oxides (if applicable)
GWP of the refrigerant
For air-to-water comfort chillers: air flow rate, outdoor measured
For water / brine-to-waterchillers: Rated brine or water flow rate, outdoor side heat exchanger
6500-
- -
m3/h
m3/h
variable
45/71
-
2088
dB
kg CO2 eq(100years)
mg/kWh input GCV
LWA
NOx (**)
-
ERP DATA (TDS = TECHNICAL DATA SHEET ) / DATI ERP (TDS = FOGLIO DATI TECNICI)
Ferroli spa ¬ 37047 San Bonifacio (Verona) Italy ¬ Via Ritonda 78/A - tel. +39.045.6139411 ¬ fax +39.045.6100933 ¬ www.ferroli.com
OMNIA-UE 14
Mod . 14 - Cooling mode - Average climate - Low temperature (7°C) / Modo raffreddamento - Clima medio - Bassa temperatura (7°C)
49
26
Annual energy consumption
Declared load profile Water heating energy efficiency
Daily electricity consumption Daily fuel consumption
Annual electricity consumption Annual fuel consumption
Contact details
(*) For heat pump space heaters and heat pump combination heaters, the rated heat output Prated is equal to the design load for heating Pdesignh, and the rated heat output of a supplementary heater Psup is equal to the supplementary capacity for heating sup(Tj). (**) If Cdh is not determined by measurement then the default degradation coefficient is Cdh = 0,9.
GD Midea Heating & Ventilating Equipment Co. Ltd (Penglai industry road, Beijiao, Shunde, Foshan, Guangdong, P.R China)
variable
-
Capacity control For air-to-water heat pumps:Rated air flow rate, outdoors
For water-or brine-to-water heat pumps: Rated brine or water flow rate, outdoorheat exchanger
Sound power level, indoors/outdoors
Air-to-water heat pump: YES
Outdoor unit: MHA-V14W/D2RN1 Indoor unit: SMK-160/CSD45GN1-B
NO
NO
NO
NO
Model(s):
Water-to-water heat pump:
Brine-to-water heat pump:
Low-temperature heat pump:
Equipped with a supplementary heater:
Heat pump combination heater:
Parameters are declared for medium-temperature application.
YES
Declared climate condition: AVERAGE
Technical parameters
Value Unit Item Symbol Unit
14 kW Seasonal space heating energy efficiency ηs
12.4 kW Tj = -7℃ COPd
7.5 kW Tj = 2℃ COPd
5.0 kW Tj = 7℃ COPd
3.4 kW Tj = 12℃ COPd
12.4 kW Tj = bivalent temperature COPd
11.5 kW
kW
kW
Tj = operating limit COPd
COPd
TOL
- For air-to-water heat pumps: Tj = -15℃
-7 °C For air-to-water heat pumps: Operation limit temperature
- Cycling interval efficiency
Heating water operating limit temperature0.9 --
kW
kW
kW
Symbol
Prated
Pdh
Pdh
Pdh
Pdh
Pdh
Pdh
Pdh
Tbiv
Pcych
Cdh
Poff
COPcyc
WTOL
PsupPsb
Pto
Pck
LWA
ηwh
Qfuel
AFC
Qclec
AEC
QHE
kW
dB
kWh
kWh kWh
%
GJ
-
-
-kWh
Declared coefficient of performance or primary energy ratio for part load atindoor temperature 20 °C and outdoor temperature Tj
Item
Rated heat output (*)
Tj = -7℃
Tj = 2℃
Tj = 7℃
Tj = 12℃
Tj = bivalent temperature
Tj = operating limit
For air-to-water heat pumps: Tj = -15℃
Bivalent temperature
Cycling interval capacity for heating
Degradation co-efficient (**)
Off mode
Standby mode
Thermostat-off mode
Crankcase heater mode
Declared capacity for heating for part load at indoor temperature 20 °Cand outdoor temperature Tj
Rated heat output (**)
Type of energy input
Power consumption in modes other than active mode
%
-
-
-
-
-
-
-
°C
-
°C
kW
Supplementary heater
Electrical
Value
130
2.02
3.09
4.71
6.72
2.02
1.74
-
-10
60
2.5
-
-
-
6500 m3/h
m3/h-
0.015
0.015
0.027
45/72
-
-
8689
0.063
Other items
For heat pump combination heater:
ERP DATA (TDS = TECHNICAL DATA SHEET ) / DATI ERP (TDS = FOGLIO DATI TECNICI)
OMNIA-UE 14T
Parameters are declared for medium-temperature (55°C) application.
Ferroli spa ¬ 37047 San Bonifacio (Verona) Italy ¬ Via Ritonda 78/A - tel. +39.045.6139411 ¬ fax +39.045.6100933 ¬ www.ferroli.com
Mod . 14T - Heating mode - Average climate - Medium temperature (55°C) / Modo riscaldamento - Clima medio - Media temperatura (55°C)
50
27
Annual energy consumption
Declared load profile Water heating energy efficiency
Daily electricity consumption Daily fuel consumption
Annual electricity consumption Annual fuel consumption
Contact details
(*) For heat pump space heaters and heat pump combination heaters, the rated heat output Prated is equal to the design load for heating Pdesignh, and the rated heat output of a supplementary heater Psup is equal to the supplementary capacity for heating sup(Tj). (**) If Cdh is not determined by measurement then the default degradation coefficient is Cdh = 0,9.
GD Midea Heating & Ventilating Equipment Co. Ltd (Penglai industry road, Beijiao, Shunde, Foshan, Guangdong, P.R China)
variable
-
Capacity control For air-to-water heat pumps:Rated air flow rate, outdoors
For water-or brine-to-water heat pumps: Rated brine or water flow rate, outdoorheat exchanger
Sound power level, indoors/outdoors
Air-to-water heat pump:
Model(s):
Water-to-water heat pump:
Brine-to-water heat pump:
Low-temperature heat pump:
Equipped with a supplementary heater:
Heat pump combination heater:
Parameters are declared for medium-temperature application.
Declared climate condition:
Technical parameters
Value Unit Item Symbol Unit
14 kW Seasonal space heating energy efficiency ηs
8.6 kW Tj = -7℃ COPd
5.3 kW Tj = 2℃ COPd
3.3 kW Tj = 7℃ COPd
3.4 kW Tj = 12℃ COPd
10.7 kW Tj = bivalent temperature COPd
7.7 kW
kW
kW
Tj = operating limit COPd
COPd
TOL
- For air-to-water heat pumps: Tj = -15℃
-12 °C For air-to-water heat pumps: Operation limit temperature
- Cycling interval efficiency
Heating water operating limit temperature0.9 --
kW
kW
kW
Symbol
Prated
Pdh
Pdh
Pdh
Pdh
Pdh
Pdh
Pdh
Tbiv
Pcych
Cdh
Poff
COPcyc
WTOL
PsupPsb
Pto
Pck
LWA
ηwh
Qfuel
AFC
Qclec
AEC
QHE
kW
dB
kWh
kWh kWh
%
GJ
-
-
-kWh
Declared coefficient of performance or primary energy ratio for part load atindoor temperature 20 °C and outdoor temperature Tj
Item
Rated heat output (*)
Tj = -7℃
Tj = 2℃
Tj = 7℃
Tj = 12℃
Tj = bivalent temperature
Tj = operating limit
For air-to-water heat pumps: Tj = -15℃
Bivalent temperature
Cycling interval capacity for heating
Degradation co-efficient (**)
Off mode
Standby mode
Thermostat-off mode
Crankcase heater mode
Declared capacity for heating for part load at indoor temperature 20 °Cand outdoor temperature Tj
Rated heat output (**)
Type of energy input
Power consumption in modes other than active mode
%
-
-
-
-
-
-
-
°C
-
°C
kW
Supplementary heater
Electrical
Value
108
2.28
3.52
4.98
7.83
1.82
1.33
-
-20
60
6.1
-
-
-
6500 m3/h
m3/h-
0.015
0.015
0.027
-
-
-
12892
0.063
Other items
For heat pump combination heater:
YES
NO
NO
NO
NO
YES
Outdoor unit: MHA-V14W/D2RN1 Indoor unit: SMK-160/CSD45GN1-B
COLDER
ERP DATA (TDS = TECHNICAL DATA SHEET ) / DATI ERP (TDS = FOGLIO DATI TECNICI)
OMNIA-UE 14T
Parameters are declared for medium-temperature (55°C) application.
Ferroli spa ¬ 37047 San Bonifacio (Verona) Italy ¬ Via Ritonda 78/A - tel. +39.045.6139411 ¬ fax +39.045.6100933 ¬ www.ferroli.com
Mod . 14T - Heating mode - Colder climate - Medium temperature (55°C) / Modo riscaldamento - Clima più freddo - Media temperatura (55°C)
51
28
0.015
0.015
0.027
0.063
Annual energy consumption
Declared load profile Water heating energy efficiency
Daily electricity consumption Daily fuel consumption
Annual electricity consumption Annual fuel consumption
Contact details
(*) For heat pump space heaters and heat pump combination heaters, the rated heat output Prated is equal to the design load for heating Pdesignh, and the rated heat output of a supplementary heater Psup is equal to the supplementary capacity for heating sup(Tj). (**) If Cdh is not determined by measurement then the default degradation coefficient is Cdh = 0,9.
GD Midea Heating & Ventilating Equipment Co. Ltd (Penglai industry road, Beijiao, Shunde, Foshan, Guangdong, P.R China)
variable
-
Capacity control For air-to-water heat pumps:Rated air flow rate, outdoors
For water-or brine-to-water heat pumps: Rated brine or water flow rate, outdoorheat exchanger
Sound power level, indoors/outdoors
Air-to-water heat pump:
Model(s):
Water-to-water heat pump:
Brine-to-water heat pump:
Low-temperature heat pump:
Equipped with a supplementary heater:
Heat pump combination heater:
Parameters are declared for medium-temperature application.
Declared climate condition:
Technical parameters
Value Unit Item Symbol Unit
14 kW Seasonal space heating energy efficiency ηs
- kW Tj = -7℃ COPd
13.5 kW Tj = 2℃ COPd
9.2 kW Tj = 7℃ COPd
4.2 kW Tj = 12℃ COPd
13.5 kW Tj = bivalent temperature COPd
13.5 kW
kW
kW
Tj = operating limit COPd
COPd
TOL
- For air-to-water heat pumps: Tj = -15℃
2 °C For air-to-water heat pumps: Operation limit temperature
- Cycling interval efficiency
Heating water operating limit temperature0.9 --
kW
kW
kW
Symbol
Prated
Pdh
Pdh
Pdh
Pdh
Pdh
Pdh
Pdh
Tbiv
Pcych
Cdh
Poff
COPcyc
WTOL
PsupPsb
Pto
Pck
LWA
ηwh
Qfuel
AFC
Qclec
AEC
QHE
kW
dB
kWh
kWh kWh
%
GJ
-
-
-kWh
Declared coefficient of performance or primary energy ratio for part load atindoor temperature 20 °C and outdoor temperature Tj
Item
Rated heat output (*)
Tj = -7℃
Tj = 2℃
Tj = 7℃
Tj = 12℃
Tj = bivalent temperature
Tj = operating limit
For air-to-water heat pumps: Tj = -15℃
Bivalent temperature
Cycling interval capacity for heating
Degradation co-efficient (**)
Off mode
Standby mode
Thermostat-off mode
Crankcase heater mode
Declared capacity for heating for part load at indoor temperature 20 °Cand outdoor temperature Tj
Rated heat output (**)
Type of energy input
Power consumption in modes other than active mode
%
-
-
-
-
-
-
-
°C
-
°C
kW
Supplementary heater
Electrical
Value
167
-
2.29
3.41
5.97
2.29
2.29
-
2
60
0
-
-
-
6500 m3/h
m3/h--
-
-
4249
Other items
For heat pump combination heater:
YES
NO
NO
NO
NO
YES
Outdoor unit: MHA-V14W/D2RN1 Indoor unit: SMK-160/CSD45GN1-B
WARMER
ERP DATA (TDS = TECHNICAL DATA SHEET ) / DATI ERP (TDS = FOGLIO DATI TECNICI)
OMNIA-UE 14T
Parameters are declared for medium-temperature (55°C) application.
Ferroli spa ¬ 37047 San Bonifacio (Verona) Italy ¬ Via Ritonda 78/A - tel. +39.045.6139411 ¬ fax +39.045.6100933 ¬ www.ferroli.com
Mod . 14T - Heating mode - Warmer climate - Medium temperature (55°C) / Modo riscaldamento - Clima più caldo - Media temperatura (55°C)
52 49
Information requirements for comfort chillers
Power consumption in modes other than "active mode"
Other items
Model(s):
Outdoor side heat exchanger of chiller:
Indoor side heat exchanger chiller:
Type:
Driver of compressor:
MHA-V14W/D2RN1
Air to water
Water
Compressor driven vapour compression
Electric motor
Tj=+35℃
Tj=+30℃
Tj=+25℃
Tj=+20℃
Tj=+35℃
Tj=+30℃
Tj=+25℃
Tj=+20℃
EERd
EERd
EERd
EERd
4.00
6.45
9.40
12.81
-
-
-
-
13.4
10.5
7.1
4.6
kW
kW
kW
kW
Item Symbol Value UnitItem
Rated cooling capacity
Degradation co-efficientfor chillers (*)
Declared cooling capacity for part load at given outdoor temperature Tj
Declared energy efficiency ratio for part load at given outdoor temperature Tj
Prated,c
Pdc
Pdc
Pdc
Pdc
Cdc 0.9 -
13.4 kW Seasonal space coolingenergy efficiency ηs,c 306 %
Symbol Value Unit
Off mode
Thermosat-off mode
Crankcase heatermode
Standby mode
0.000
0.015
kW
kW
0.015
0.063
kW
kW
POFF PCK
PSBPTO
Capacity control
Contact details
Standard rating conditions used Medium temperature application
GD Midea Heating & Ventilating Equipment Co. , Ltd.Penglai industry Road, Beijiao, Shunde, Foshan, Guangdong, 528311 P.R. China
(*) If Cdc is not determined by measurement then the default degradation coefficient of chillers shall be 0,9. (**) From 26 September 2018.
Sound power level, indoors / outdoors
Emissions of nitrogen oxides (if applicable)
GWP of the refrigerant
For air-to-water comfort chillers: air flow rate, outdoor measured
For water / brine-to-waterchillers: Rated brine or water flow rate, outdoor side heat exchanger
6500-
- -
m3/h
m3/h
variable
45/72
-
2088
dB
kg CO2 eq(100years)
mg/kWh input GCV
LWA
NOx (**)
-
ERP DATA (TDS = TECHNICAL DATA SHEET ) / DATI ERP (TDS = FOGLIO DATI TECNICI)
Ferroli spa ¬ 37047 San Bonifacio (Verona) Italy ¬ Via Ritonda 78/A - tel. +39.045.6139411 ¬ fax +39.045.6100933 ¬ www.ferroli.com
OMNIA-UE 14T
Mod . 14T - Cooling mode - Average climate - Medium temperature (18°C) / Modo raffreddamento - Clima medio - Media temperatura (18°C)
5348
Information requirements for comfort chillers
Power consumption in modes other than "active mode"
Other items
Model(s):
Outdoor side heat exchanger of chiller:
Indoor side heat exchanger chiller:
Type:
Driver of compressor:
MHA-V14W/D2RN1
Air to water
Water
Compressor driven vapour compression
Electric motor
Tj=+35℃
Tj=+30℃
Tj=+25℃
Tj=+20℃
Tj=+35℃
Tj=+30℃
Tj=+25℃
Tj=+20℃
EERd
EERd
EERd
EERd
2.38
3.76
5.91
6.90
-
-
-
-
12.8
9.8
6.6
3.2
kW
kW
kW
kW
Item Symbol Value UnitItem
Rated cooling capacity
Degradation co-efficientfor chillers (*)
Declared cooling capacity for part load at given outdoor temperature Tj
Declared energy efficiency ratio for part load at given outdoor temperature Tj
Prated,c
Pdc
Pdc
Pdc
Pdc
Cdc 0.9 -
12.8 kW Seasonal space coolingenergy efficiency ηs,c 187 %
Symbol Value Unit
Off mode
Thermosat-off mode
Crankcase heatermode
Standby mode
0.000
0.015
kW
kW
0.015
0.063
kW
kW
POFF PCK
PSBPTO
Capacity control
Contact details
Standard rating conditions used Low temperature application
GD Midea Heating & Ventilating Equipment Co. , Ltd.Penglai industry Road, Beijiao, Shunde, Foshan, Guangdong, 528311 P.R. China
(*) If Cdc is not determined by measurement then the default degradation coefficient of chillers shall be 0,9. (**) From 26 September 2018.
Sound power level, indoors / outdoors
Emissions of nitrogen oxides (if applicable)
GWP of the refrigerant
For air-to-water comfort chillers: air flow rate, outdoor measured
For water / brine-to-waterchillers: Rated brine or water flow rate, outdoor side heat exchanger
6500-
- -
m3/h
m3/h
variable
45/72
-
2088
dB
kg CO2 eq(100years)
mg/kWh input GCV
LWA
NOx (**)
-
ERP DATA (TDS = TECHNICAL DATA SHEET ) / DATI ERP (TDS = FOGLIO DATI TECNICI)
Ferroli spa ¬ 37047 San Bonifacio (Verona) Italy ¬ Via Ritonda 78/A - tel. +39.045.6139411 ¬ fax +39.045.6100933 ¬ www.ferroli.com
OMNIA-UE 14T
Mod . 14T - Cooling mode - Average climate - Low temperature (7°C) / Modo raffreddamento - Clima medio - Bassa temperatura (7°C)
54
20
Annual energy consumption
Declared load profile Water heating energy efficiency
Daily electricity consumption Daily fuel consumption
Annual electricity consumption Annual fuel consumption
Contact details
(*) For heat pump space heaters and heat pump combination heaters, the rated heat output Prated is equal to the design load for heating Pdesignh, and the rated heat output of a supplementary heater Psup is equal to the supplementary capacity for heating sup(Tj). (**) If Cdh is not determined by measurement then the default degradation coefficient is Cdh = 0,9.
GD Midea Heating & Ventilating Equipment Co. Ltd (Penglai industry road, Beijiao, Shunde, Foshan, Guangdong, P.R China)
variable
-
Capacity control For air-to-water heat pumps:Rated air flow rate, outdoors
For water-or brine-to-water heat pumps: Rated brine or water flow rate, outdoorheat exchanger
Sound power level, indoors/outdoors
Air-to-water heat pump: YES
Outdoor unit: MHA-V16W/D2N1 Indoor unit: SMK-160/CD30GN1-B
NO
NO
NO
NO
Model(s):
Water-to-water heat pump:
Brine-to-water heat pump:
Low-temperature heat pump:
Equipped with a supplementary heater:
Heat pump combination heater:
Parameters are declared for medium-temperature application.
YES
Declared climate condition: AVERAGE
Technical parameters
Value Unit Item Symbol Unit
15 kW Seasonal space heating energy efficiency ηs
11.7 kW Tj = -7℃ COPd
8.1 kW Tj = 2℃ COPd
5.4 kW Tj = 7℃ COPd
2.8 kW Tj = 12℃ COPd
12.1 kW Tj = bivalent temperature COPd
10.2 kW
kW
kW
Tj = operating limit COPd
COPd
TOL
- For air-to-water heat pumps: Tj = -15℃
-5 °C For air-to-water heat pumps: Operation limit temperature
- Cycling interval efficiency
Heating water operating limit temperature0.9 --
kW
kW
kW
Symbol
Prated
Pdh
Pdh
Pdh
Pdh
Pdh
Pdh
Pdh
Tbiv
Pcych
Cdh
Poff
COPcyc
WTOL
PsupPsb
Pto
Pck
LWA
ηwh
Qfuel
AFC
Qclec
AEC
QHE
kW
dB
kWh
kWh kWh
%
GJ
-
-
-kWh
Declared coefficient of performance or primary energy ratio for part load atindoor temperature 20 °C and outdoor temperature Tj
Item
Rated heat output (*)
Tj = -7℃
Tj = 2℃
Tj = 7℃
Tj = 12℃
Tj = bivalent temperature
Tj = operating limit
For air-to-water heat pumps: Tj = -15℃
Bivalent temperature
Cycling interval capacity for heating
Degradation co-efficient (**)
Off mode
Standby mode
Thermostat-off mode
Crankcase heater mode
Declared capacity for heating for part load at indoor temperature 20 °Cand outdoor temperature Tj
Rated heat output (**)
Type of energy input
Power consumption in modes other than active mode
%
-
-
-
-
-
-
-
°C
-
°C
kW
Supplementary heater
Electrical
Value
127
1.99
3.09
4.73
6.81
2.15
1.70
-
-10
60
4.3
-
-
-
6500 m3/h
m3/h-
0.019
0.019
0.014
45/72
-
-
9491
0.078
Other items
For heat pump combination heater:
ERP DATA (TDS = TECHNICAL DATA SHEET ) / DATI ERP (TDS = FOGLIO DATI TECNICI)
OMNIA-UE 16
Parameters are declared for medium-temperature (55°C) application.
Ferroli spa ¬ 37047 San Bonifacio (Verona) Italy ¬ Via Ritonda 78/A - tel. +39.045.6139411 ¬ fax +39.045.6100933 ¬ www.ferroli.com
Mod . 16 - Heating mode - Average climate - Medium temperature (55°C) / Modo riscaldamento - Clima medio - Media temperatura (55°C)
55
21
Annual energy consumption
Declared load profile Water heating energy efficiency
Daily electricity consumption Daily fuel consumption
Annual electricity consumption Annual fuel consumption
Contact details
(*) For heat pump space heaters and heat pump combination heaters, the rated heat output Prated is equal to the design load for heating Pdesignh, and the rated heat output of a supplementary heater Psup is equal to the supplementary capacity for heating sup(Tj). (**) If Cdh is not determined by measurement then the default degradation coefficient is Cdh = 0,9.
GD Midea Heating & Ventilating Equipment Co. Ltd (Penglai industry road, Beijiao, Shunde, Foshan, Guangdong, P.R China)
variable
-
Capacity control For air-to-water heat pumps:Rated air flow rate, outdoors
For water-or brine-to-water heat pumps: Rated brine or water flow rate, outdoorheat exchanger
Sound power level, indoors/outdoors
Air-to-water heat pump:
Model(s):
Water-to-water heat pump:
Brine-to-water heat pump:
Low-temperature heat pump:
Equipped with a supplementary heater:
Heat pump combination heater:
Parameters are declared for medium-temperature application.
Declared climate condition:
Technical parameters
Value Unit Item Symbol Unit
15 kW Seasonal space heating energy efficiency ηs
10.4 kW Tj = -7℃ COPd
6.2 kW Tj = 2℃ COPd
4.0 kW Tj = 7℃ COPd
4.0 kW Tj = 12℃ COPd
11.6 kW Tj = bivalent temperature COPd
7.3 kW
kW
kW
Tj = operating limit COPd
COPd
TOL
- For air-to-water heat pumps: Tj = -15℃
-12 °C For air-to-water heat pumps: Operation limit temperature
- Cycling interval efficiency
Heating water operating limit temperature0.9 --
kW
kW
kW
Symbol
Prated
Pdh
Pdh
Pdh
Pdh
Pdh
Pdh
Pdh
Tbiv
Pcych
Cdh
Poff
COPcyc
WTOL
PsupPsb
Pto
Pck
LWA
ηwh
Qfuel
AFC
Qclec
AEC
QHE
kW
dB
kWh
kWh kWh
%
GJ
-
-
-kWh
Declared coefficient of performance or primary energy ratio for part load atindoor temperature 20 °C and outdoor temperature Tj
Item
Rated heat output (*)
Tj = -7℃
Tj = 2℃
Tj = 7℃
Tj = 12℃
Tj = bivalent temperature
Tj = operating limit
For air-to-water heat pumps: Tj = -15℃
Bivalent temperature
Cycling interval capacity for heating
Degradation co-efficient (**)
Off mode
Standby mode
Thermostat-off mode
Crankcase heater mode
Declared capacity for heating for part load at indoor temperature 20 °Cand outdoor temperature Tj
Rated heat output (**)
Type of energy input
Power consumption in modes other than active mode
%
-
-
-
-
-
-
-
°C
-
°C
kW
Supplementary heater
Electrical
Value
114
2.44
3.55
5.40
8.20
1.94
1.24
-
-20
60
8.4
-
-
-
6500 m3/h
m3/h-
0.019
0.019
0.014
-
-
-
13244
0.078
Other items
For heat pump combination heater:
YES
NO
NO
NO
NO
YES
Outdoor unit: MHA-V16W/D2N1 Indoor unit: SMK-160/CD30GN1-B
COLDER
ERP DATA (TDS = TECHNICAL DATA SHEET ) / DATI ERP (TDS = FOGLIO DATI TECNICI)
OMNIA-UE 16
Parameters are declared for medium-temperature (55°C) application.
Ferroli spa ¬ 37047 San Bonifacio (Verona) Italy ¬ Via Ritonda 78/A - tel. +39.045.6139411 ¬ fax +39.045.6100933 ¬ www.ferroli.com
Mod . 16 - Heating mode - Colder climate - Medium temperature (55°C) / Modo riscaldamento - Clima più freddo - Media temperatura (55°C)
56
22
0.019
0.019
0.014
0.078
Annual energy consumption
Declared load profile Water heating energy efficiency
Daily electricity consumption Daily fuel consumption
Annual electricity consumption Annual fuel consumption
Contact details
(*) For heat pump space heaters and heat pump combination heaters, the rated heat output Prated is equal to the design load for heating Pdesignh, and the rated heat output of a supplementary heater Psup is equal to the supplementary capacity for heating sup(Tj). (**) If Cdh is not determined by measurement then the default degradation coefficient is Cdh = 0,9.
GD Midea Heating & Ventilating Equipment Co. Ltd (Penglai industry road, Beijiao, Shunde, Foshan, Guangdong, P.R China)
variable
-
Capacity control For air-to-water heat pumps:Rated air flow rate, outdoors
For water-or brine-to-water heat pumps: Rated brine or water flow rate, outdoorheat exchanger
Sound power level, indoors/outdoors
Air-to-water heat pump:
Model(s):
Water-to-water heat pump:
Brine-to-water heat pump:
Low-temperature heat pump:
Equipped with a supplementary heater:
Heat pump combination heater:
Parameters are declared for medium-temperature application.
Declared climate condition:
Technical parameters
Value Unit Item Symbol Unit
15 kW Seasonal space heating energy efficiency ηs
- kW Tj = -7℃ COPd
15.3 kW Tj = 2℃ COPd
9.9 kW Tj = 7℃ COPd
4.4 kW Tj = 12℃ COPd
15.3 kW Tj = bivalent temperature COPd
15.3 kW
kW
kW
Tj = operating limit COPd
COPd
TOL
- For air-to-water heat pumps: Tj = -15℃
2 °C For air-to-water heat pumps: Operation limit temperature
- Cycling interval efficiency
Heating water operating limit temperature0.9 --
kW
kW
kW
Symbol
Prated
Pdh
Pdh
Pdh
Pdh
Pdh
Pdh
Pdh
Tbiv
Pcych
Cdh
Poff
COPcyc
WTOL
PsupPsb
Pto
Pck
LWA
ηwh
Qfuel
AFC
Qclec
AEC
QHE
kW
dB
kWh
kWh kWh
%
GJ
-
-
-kWh
Declared coefficient of performance or primary energy ratio for part load atindoor temperature 20 °C and outdoor temperature Tj
Item
Rated heat output (*)
Tj = -7℃
Tj = 2℃
Tj = 7℃
Tj = 12℃
Tj = bivalent temperature
Tj = operating limit
For air-to-water heat pumps: Tj = -15℃
Bivalent temperature
Cycling interval capacity for heating
Degradation co-efficient (**)
Off mode
Standby mode
Thermostat-off mode
Crankcase heater mode
Declared capacity for heating for part load at indoor temperature 20 °Cand outdoor temperature Tj
Rated heat output (**)
Type of energy input
Power consumption in modes other than active mode
%
-
-
-
-
-
-
-
°C
-
°C
kW
Supplementary heater
Electrical
Value
179
-
2.34
3.81
6.16
2.34
2.34
-
2
60
0
-
-
-
6500 m3/h
m3/h--
-
-
4483
Other items
For heat pump combination heater:
YES
NO
NO
NO
NO
YES
Outdoor unit: MHA-V16W/D2N1 Indoor unit: SMK-160/CD30GN1-B
WARMER
ERP DATA (TDS = TECHNICAL DATA SHEET ) / DATI ERP (TDS = FOGLIO DATI TECNICI)
OMNIA-UE 16
Parameters are declared for medium-temperature (55°C) application.
Ferroli spa ¬ 37047 San Bonifacio (Verona) Italy ¬ Via Ritonda 78/A - tel. +39.045.6139411 ¬ fax +39.045.6100933 ¬ www.ferroli.com
Mod . 16 - Heating mode - Warmer climate - Medium temperature (55°C) / Modo riscaldamento - Clima più caldo - Media temperatura (55°C)
5745
Information requirements for comfort chillers
Power consumption in modes other than "active mode"
Other items
Model(s):
Outdoor side heat exchanger of chiller:
Indoor side heat exchanger chiller:
Type:
Driver of compressor:
MHA-V16W/D2N1
Air to water
Water
Compressor driven vapour compression
Electric motor
Tj=+35℃
Tj=+30℃
Tj=+25℃
Tj=+20℃
Tj=+35℃
Tj=+30℃
Tj=+25℃
Tj=+20℃
EERd
EERd
EERd
EERd
3.68
6.10
8.52
10.07
-
-
-
-
13.6
10.5
6.4
3.3
kW
kW
kW
kW
Item Symbol Value UnitItem
Rated cooling capacity
Degradation co-efficientfor chillers (*)
Declared cooling capacity for part load at given outdoor temperature Tj
Declared energy efficiency ratio for part load at given outdoor temperature Tj
Prated,c
Pdc
Pdc
Pdc
Pdc
Cdc 0.9 -
13.6 kW Seasonal space coolingenergy efficiency ηs,c 276 %
Symbol Value Unit
Off mode
Thermosat-off mode
Crankcase heatermode
Standby mode
0.000
0.019
kW
kW
0.019
0.074
kW
kW
POFF PCK
PSBPTO
Capacity control
Contact details
Standard rating conditions used Medium temperature application
GD Midea Heating & Ventilating Equipment Co. , Ltd.Penglai industry Road, Beijiao, Shunde, Foshan, Guangdong, 528311 P.R. China
(*) If Cdc is not determined by measurement then the default degradation coefficient of chillers shall be 0,9. (**) From 26 September 2018.
Sound power level, indoors / outdoors
Emissions of nitrogen oxides (if applicable)
GWP of the refrigerant
For air-to-water comfort chillers: air flow rate, outdoor measured
For water / brine-to-waterchillers: Rated brine or water flow rate, outdoor side heat exchanger
6500-
- -
m3/h
m3/h
variable
45/72
-
2088
dB
kg CO2 eq(100years)
mg/kWh input GCV
LWA
NOx (**)
-
ERP DATA (TDS = TECHNICAL DATA SHEET ) / DATI ERP (TDS = FOGLIO DATI TECNICI)
Ferroli spa ¬ 37047 San Bonifacio (Verona) Italy ¬ Via Ritonda 78/A - tel. +39.045.6139411 ¬ fax +39.045.6100933 ¬ www.ferroli.com
OMNIA-UE 16
Mod . 16 - Cooling mode - Average climate - Medium temperature (18°C) / Modo raffreddamento - Clima medio - Media temperatura (18°C)
58 44
Information requirements for comfort chillers
Power consumption in modes other than "active mode"
Other items
Model(s):
Outdoor side heat exchanger of chiller:
Indoor side heat exchanger chiller:
Type:
Driver of compressor:
MHA-V16W/D2N1
Air to water
Water
Compressor driven vapour compression
Electric motor
Tj=+35℃
Tj=+30℃
Tj=+25℃
Tj=+20℃
Tj=+35℃
Tj=+30℃
Tj=+25℃
Tj=+20℃
EERd
EERd
EERd
EERd
2.31
3.97
5.78
8.11
-
-
-
-
12.5
9.7
6.1
3.5
kW
kW
kW
kW
Item Symbol Value UnitItem
Rated cooling capacity
Degradation co-efficientfor chillers (*)
Declared cooling capacity for part load at given outdoor temperature Tj
Declared energy efficiency ratio for part load at given outdoor temperature Tj
Prated,c
Pdc
Pdc
Pdc
Pdc
Cdc 0.9 -
12.5 kW Seasonal space coolingenergy efficiency ηs,c 191 %
Symbol Value Unit
Off mode
Thermosat-off mode
Crankcase heatermode
Standby mode
0.000
0.019
kW
kW
0.019
0.074
kW
kW
POFF PCK
PSBPTO
Capacity control
Contact details
Standard rating conditions used Low temperature application
GD Midea Heating & Ventilating Equipment Co. , Ltd.Penglai industry Road, Beijiao, Shunde, Foshan, Guangdong, 528311 P.R. China
(*) If Cdc is not determined by measurement then the default degradation coefficient of chillers shall be 0,9. (**) From 26 September 2018.
Sound power level, indoors / outdoors
Emissions of nitrogen oxides (if applicable)
GWP of the refrigerant
For air-to-water comfort chillers: air flow rate, outdoor measured
For water / brine-to-waterchillers: Rated brine or water flow rate, outdoor side heat exchanger
6500-
- -
m3/h
m3/h
variable
45/72
-
2088
dB
kg CO2 eq(100years)
mg/kWh input GCV
LWA
NOx (**)
-
ERP DATA (TDS = TECHNICAL DATA SHEET ) / DATI ERP (TDS = FOGLIO DATI TECNICI)
Ferroli spa ¬ 37047 San Bonifacio (Verona) Italy ¬ Via Ritonda 78/A - tel. +39.045.6139411 ¬ fax +39.045.6100933 ¬ www.ferroli.com
OMNIA-UE 16
Mod . 16 - Cooling mode - Average climate - Low temperature (7°C) / Modo raffreddamento - Clima medio - Bassa temperatura (7°C)
59
29
Annual energy consumption
Declared load profile Water heating energy efficiency
Daily electricity consumption Daily fuel consumption
Annual electricity consumption Annual fuel consumption
Contact details
(*) For heat pump space heaters and heat pump combination heaters, the rated heat output Prated is equal to the design load for heating Pdesignh, and the rated heat output of a supplementary heater Psup is equal to the supplementary capacity for heating sup(Tj). (**) If Cdh is not determined by measurement then the default degradation coefficient is Cdh = 0,9.
GD Midea Heating & Ventilating Equipment Co. Ltd (Penglai industry road, Beijiao, Shunde, Foshan, Guangdong, P.R China)
variable
-
Capacity control For air-to-water heat pumps:Rated air flow rate, outdoors
For water-or brine-to-water heat pumps: Rated brine or water flow rate, outdoorheat exchanger
Sound power level, indoors/outdoors
Air-to-water heat pump: YES
Outdoor unit: MHA-V16W/D2RN1 Indoor unit: SMK-160/CSD45GN1-B
NO
NO
NO
NO
Model(s):
Water-to-water heat pump:
Brine-to-water heat pump:
Low-temperature heat pump:
Equipped with a supplementary heater:
Heat pump combination heater:
Parameters are declared for medium-temperature application.
YES
Declared climate condition: AVERAGE
Technical parameters
Value Unit Item Symbol Unit
15 kW Seasonal space heating energy efficiency ηs
13.1 kW Tj = -7℃ COPd
8.4 kW Tj = 2℃ COPd
5.1 kW Tj = 7℃ COPd
3.6 kW Tj = 12℃ COPd
12.7 kW Tj = bivalent temperature COPd
11.3 kW
kW
kW
Tj = operating limit COPd
COPd
TOL
- For air-to-water heat pumps: Tj = -15℃
-6 °C For air-to-water heat pumps: Operation limit temperature
- Cycling interval efficiency
Heating water operating limit temperature0.9 --
kW
kW
kW
Symbol
Prated
Pdh
Pdh
Pdh
Pdh
Pdh
Pdh
Pdh
Tbiv
Pcych
Cdh
Poff
COPcyc
WTOL
PsupPsb
Pto
Pck
LWA
ηwh
Qfuel
AFC
Qclec
AEC
QHE
kW
dB
kWh
kWh kWh
%
GJ
-
-
-kWh
Declared coefficient of performance or primary energy ratio for part load atindoor temperature 20 °C and outdoor temperature Tj
Item
Rated heat output (*)
Tj = -7℃
Tj = 2℃
Tj = 7℃
Tj = 12℃
Tj = bivalent temperature
Tj = operating limit
For air-to-water heat pumps: Tj = -15℃
Bivalent temperature
Cycling interval capacity for heating
Degradation co-efficient (**)
Off mode
Standby mode
Thermostat-off mode
Crankcase heater mode
Declared capacity for heating for part load at indoor temperature 20 °Cand outdoor temperature Tj
Rated heat output (**)
Type of energy input
Power consumption in modes other than active mode
%
-
-
-
-
-
-
-
°C
-
°C
kW
Supplementary heater
Electrical
Value
130
2.04
3.11
4.74
7.04
2.07
1.71
-
-10
60
3.7
-
-
-
6500 m3/h
m3/h-
0.015
0.015
0.027
45/72
-
-
9312
0.063
Other items
For heat pump combination heater:
ERP DATA (TDS = TECHNICAL DATA SHEET ) / DATI ERP (TDS = FOGLIO DATI TECNICI)
OMNIA-UE 16T
Parameters are declared for medium-temperature (55°C) application.
Ferroli spa ¬ 37047 San Bonifacio (Verona) Italy ¬ Via Ritonda 78/A - tel. +39.045.6139411 ¬ fax +39.045.6100933 ¬ www.ferroli.com
Mod . 16T - Heating mode - Average climate - Medium temperature (55°C) / Modo riscaldamento - Clima medio - Media temperatura (55°C)
60
30
Annual energy consumption
Declared load profile Water heating energy efficiency
Daily electricity consumption Daily fuel consumption
Annual electricity consumption Annual fuel consumption
Contact details
(*) For heat pump space heaters and heat pump combination heaters, the rated heat output Prated is equal to the design load for heating Pdesignh, and the rated heat output of a supplementary heater Psup is equal to the supplementary capacity for heating sup(Tj). (**) If Cdh is not determined by measurement then the default degradation coefficient is Cdh = 0,9.
GD Midea Heating & Ventilating Equipment Co. Ltd (Penglai industry road, Beijiao, Shunde, Foshan, Guangdong, P.R China)
variable
L
Capacity control For air-to-water heat pumps:Rated air flow rate, outdoors
For water-or brine-to-water heat pumps: Rated brine or water flow rate, outdoorheat exchanger
Sound power level, indoors/outdoors
Air-to-water heat pump: YES
Outdoor unit: MHA-V16W/D2RN1 Indoor unit: SMK-160/CSD45GN1-B Tank model: BSX190
NO
NO
NO
NO
Model(s):
Water-to-water heat pump:
Brine-to-water heat pump:
Low-temperature heat pump:
Equipped with a supplementary heater:
Heat pump combination heater:
Parameters are declared for medium-temperature application.
YES
Declared climate condition: AVERAGE
Technical parameters
Value Unit Item Symbol Unit
15 kW Seasonal space heating energy efficiency ηs
13.1 kW Tj = -7℃ COPd
8.4 kW Tj = 2℃ COPd
5.1 kW Tj = 7℃ COPd
3.6 kW Tj = 12℃ COPd
12.7 kW Tj = bivalent temperature COPd
11.3 kW
kW
kW
Tj = operating limit COPd
COPd
TOL
- For air-to-water heat pumps: Tj = -15℃
-6 °C For air-to-water heat pumps: Operation limit temperature
- Cycling interval efficiency
Heating water operating limit temperature0.9 --
kW
kW
kW
Symbol
Prated
Pdh
Pdh
Pdh
Pdh
Pdh
Pdh
Pdh
Tbiv
Pcych
Cdh
Poff
COPcyc
WTOL
PsupPsb
Pto
Pck
LWA
ηwh
Qfuel
AFC
Qclec
AEC
QHE
kW
dB
kWh
kWh kWh
%
GJ
-
82
-kWh
Declared coefficient of performance or primary energy ratio for part load atindoor temperature 20 °C and outdoor temperature Tj
Item
Rated heat output (*)
Tj = -7℃
Tj = 2℃
Tj = 7℃
Tj = 12℃
Tj = bivalent temperature
Tj = operating limit
For air-to-water heat pumps: Tj = -15℃
Bivalent temperature
Cycling interval capacity for heating
Degradation co-efficient (**)
Off mode
Standby mode
Thermostat-off mode
Crankcase heater mode
Declared capacity for heating for part load at indoor temperature 20 °Cand outdoor temperature Tj
Rated heat output (**)
Type of energy input
Power consumption in modes other than active mode
%
-
-
-
-
-
-
-
°C
-
°C
kW
Supplementary heater
Electrical
Value
130
2.04
3.11
4.74
7.04
2.07
1.71
-
-10
60
3.7
-
-
-
6500 m3/h
m3/h-
0.015
0.015
0.027
45/72
6.212
1367
9312
0.063
Other items
For heat pump combination heater:
Annual energy consumption
Declared load profile Water heating energy efficiency
Daily electricity consumption Daily fuel consumption
Annual electricity consumption Annual fuel consumption
Contact details
(*) For heat pump space heaters and heat pump combination heaters, the rated heat output Prated is equal to the design load for heating Pdesignh, and the rated heat output of a supplementary heater Psup is equal to the supplementary capacity for heating sup(Tj). (**) If Cdh is not determined by measurement then the default degradation coefficient is Cdh = 0,9.
GD Midea Heating & Ventilating Equipment Co. Ltd (Penglai industry road, Beijiao, Shunde, Foshan, Guangdong, P.R China)
variable
-
Capacity control For air-to-water heat pumps:Rated air flow rate, outdoors
For water-or brine-to-water heat pumps: Rated brine or water flow rate, outdoorheat exchanger
Sound power level, indoors/outdoors
Air-to-water heat pump:
Model(s):
Water-to-water heat pump:
Brine-to-water heat pump:
Low-temperature heat pump:
Equipped with a supplementary heater:
Heat pump combination heater:
Parameters are declared for medium-temperature application.
Declared climate condition:
Technical parameters
Value Unit Item Symbol Unit
15 kW Seasonal space heating energy efficiency ηs
9.1 kW Tj = -7℃ COPd
6.2 kW Tj = 2℃ COPd
3.8 kW Tj = 7℃ COPd
3.4 kW Tj = 12℃ COPd
11.3 kW Tj = bivalent temperature COPd
7.6 kW
kW
kW
Tj = operating limit COPd
COPd
TOL
- For air-to-water heat pumps: Tj = -15℃
-11 °C For air-to-water heat pumps: Operation limit temperature
- Cycling interval efficiency
Heating water operating limit temperature0.9 --
kW
kW
kW
Symbol
Prated
Pdh
Pdh
Pdh
Pdh
Pdh
Pdh
Pdh
Tbiv
Pcych
Cdh
Poff
COPcyc
WTOL
PsupPsb
Pto
Pck
LWA
ηwh
Qfuel
AFC
Qclec
AEC
QHE
kW
dB
kWh
kWh kWh
%
GJ
-
-
-kWh
Declared coefficient of performance or primary energy ratio for part load atindoor temperature 20 °C and outdoor temperature Tj
Item
Rated heat output (*)
Tj = -7℃
Tj = 2℃
Tj = 7℃
Tj = 12℃
Tj = bivalent temperature
Tj = operating limit
For air-to-water heat pumps: Tj = -15℃
Bivalent temperature
Cycling interval capacity for heating
Degradation co-efficient (**)
Off mode
Standby mode
Thermostat-off mode
Crankcase heater mode
Declared capacity for heating for part load at indoor temperature 20 °Cand outdoor temperature Tj
Rated heat output (**)
Type of energy input
Power consumption in modes other than active mode
%
-
-
-
-
-
-
-
°C
-
°C
kW
Supplementary heater
Electrical
Value
109
2.22
3.67
5.09
7.47
1.91
1.32
-
-20
60
7.4
-
-
-
6500 m3/h
m3/h-
0.015
0.015
0.027
-
-
-
13924
0.063
Other items
For heat pump combination heater:
YES
NO
NO
NO
NO
YES
Outdoor unit: MHA-V16W/D2RN1 Indoor unit: SMK-160/CSD45GN1-B
COLDER
ERP DATA (TDS = TECHNICAL DATA SHEET ) / DATI ERP (TDS = FOGLIO DATI TECNICI)
OMNIA-UE 16T
Parameters are declared for medium-temperature (55°C) application.
Ferroli spa ¬ 37047 San Bonifacio (Verona) Italy ¬ Via Ritonda 78/A - tel. +39.045.6139411 ¬ fax +39.045.6100933 ¬ www.ferroli.com
Mod . 16T - Heating mode - Colder climate - Medium temperature (55°C) / Modo riscaldamento - Clima più freddo - Media temperatura (55°C)
61
0.015
0.015
0.027
0.063
Annual energy consumption
Declared load profile Water heating energy efficiency
Daily electricity consumption Daily fuel consumption
Annual electricity consumption Annual fuel consumption
Contact details
(*) For heat pump space heaters and heat pump combination heaters, the rated heat output Prated is equal to the design load for heating Pdesignh, and the rated heat output of a supplementary heater Psup is equal to the supplementary capacity for heating sup(Tj). (**) If Cdh is not determined by measurement then the default degradation coefficient is Cdh = 0,9.
GD Midea Heating & Ventilating Equipment Co. Ltd (Penglai industry road, Beijiao, Shunde, Foshan, Guangdong, P.R China)
variable
-
Capacity control For air-to-water heat pumps:Rated air flow rate, outdoors
For water-or brine-to-water heat pumps: Rated brine or water flow rate, outdoorheat exchanger
Sound power level, indoors/outdoors
Air-to-water heat pump:
Model(s):
Water-to-water heat pump:
Brine-to-water heat pump:
Low-temperature heat pump:
Equipped with a supplementary heater:
Heat pump combination heater:
Parameters are declared for medium-temperature application.
Declared climate condition:
Technical parameters
Value Unit Item Symbol Unit
15 kW Seasonal space heating energy efficiency ηs
- kW Tj = -7℃ COPd
15.0 kW Tj = 2℃ COPd
9.8 kW Tj = 7℃ COPd
4.5 kW Tj = 12℃ COPd
15.0 kW Tj = bivalent temperature COPd
15.0 kW
kW
kW
Tj = operating limit COPd
COPd
TOL
- For air-to-water heat pumps: Tj = -15℃
2 °C For air-to-water heat pumps: Operation limit temperature
- Cycling interval efficiency
Heating water operating limit temperature0.9 --
kW
kW
kW
Symbol
Prated
Pdh
Pdh
Pdh
Pdh
Pdh
Pdh
Pdh
Tbiv
Pcych
Cdh
Poff
COPcyc
WTOL
PsupPsb
Pto
Pck
LWA
ηwh
Qfuel
AFC
Qclec
AEC
QHE
kW
dB
kWh
kWh kWh
%
GJ
-
-
-kWh
Declared coefficient of performance or primary energy ratio for part load atindoor temperature 20 °C and outdoor temperature Tj
Item
Rated heat output (*)
Tj = -7℃
Tj = 2℃
Tj = 7℃
Tj = 12℃
Tj = bivalent temperature
Tj = operating limit
For air-to-water heat pumps: Tj = -15℃
Bivalent temperature
Cycling interval capacity for heating
Degradation co-efficient (**)
Off mode
Standby mode
Thermostat-off mode
Crankcase heater mode
Declared capacity for heating for part load at indoor temperature 20 °Cand outdoor temperature Tj
Rated heat output (**)
Type of energy input
Power consumption in modes other than active mode
%
-
-
-
-
-
-
-
°C
-
°C
kW
Supplementary heater
Electrical
Value
167
-
2.21
3.35
6.06
2.21
2.21
-
2
60
0
-
-
-
6500 m3/h
m3/h--
-
-
4723
Other items
For heat pump combination heater:
YES
NO
NO
NO
NO
YES
Outdoor unit: MHA-V16W/D2RN1 Indoor unit: SMK-160/CSD45GN1-B
WARMER
31
ERP DATA (TDS = TECHNICAL DATA SHEET ) / DATI ERP (TDS = FOGLIO DATI TECNICI)
OMNIA-UE 16T
Parameters are declared for medium-temperature (55°C) application.
Ferroli spa ¬ 37047 San Bonifacio (Verona) Italy ¬ Via Ritonda 78/A - tel. +39.045.6139411 ¬ fax +39.045.6100933 ¬ www.ferroli.com
Mod . 16T - Heating mode - Warmer climate - Medium temperature (55°C) / Modo riscaldamento - Clima più caldo - Media temperatura (55°C)
62 51
Information requirements for comfort chillers
Power consumption in modes other than "active mode"
Other items
Model(s):
Outdoor side heat exchanger of chiller:
Indoor side heat exchanger chiller:
Type:
Driver of compressor:
MHA-V16W/D2RN1
Air to water
Water
Compressor driven vapour compression
Electric motor
Tj=+35℃
Tj=+30℃
Tj=+25℃
Tj=+20℃
Tj=+35℃
Tj=+30℃
Tj=+25℃
Tj=+20℃
EERd
EERd
EERd
EERd
3.71
6.43
9.37
12.70
-
-
-
-
14.3
10.6
7.2
4.5
kW
kW
kW
kW
Item Symbol Value UnitItem
Rated cooling capacity
Degradation co-efficientfor chillers (*)
Declared cooling capacity for part load at given outdoor temperature Tj
Declared energy efficiency ratio for part load at given outdoor temperature Tj
Prated,c
Pdc
Pdc
Pdc
Pdc
Cdc 0.9 -
14.3 kW Seasonal space coolingenergy efficiency ηs,c 306 %
Symbol Value Unit
Off mode
Thermosat-off mode
Crankcase heatermode
Standby mode
0.000
0.015
kW
kW
0.015
0.063
kW
kW
POFF PCK
PSBPTO
Capacity control
Contact details
Standard rating conditions used Medium temperature application
GD Midea Heating & Ventilating Equipment Co. , Ltd.Penglai industry Road, Beijiao, Shunde, Foshan, Guangdong, 528311 P.R. China
(*) If Cdc is not determined by measurement then the default degradation coefficient of chillers shall be 0,9. (**) From 26 September 2018.
Sound power level, indoors / outdoors
Emissions of nitrogen oxides (if applicable)
GWP of the refrigerant
For air-to-water comfort chillers: air flow rate, outdoor measured
For water / brine-to-waterchillers: Rated brine or water flow rate, outdoor side heat exchanger
6500-
- -
m3/h
m3/h
variable
45/72
-
2088
dB
kg CO2 eq(100years)
mg/kWh input GCV
LWA
NOx (**)
-
ERP DATA (TDS = TECHNICAL DATA SHEET ) / DATI ERP (TDS = FOGLIO DATI TECNICI)
Ferroli spa ¬ 37047 San Bonifacio (Verona) Italy ¬ Via Ritonda 78/A - tel. +39.045.6139411 ¬ fax +39.045.6100933 ¬ www.ferroli.com
OMNIA-UE 16T
Mod . 16T - Cooling mode - Average climate - Medium temperature (18°C) / Modo raffreddamento - Clima medio - Media temperatura (18°C)
6350
Information requirements for comfort chillers
Power consumption in modes other than "active mode"
Other items
Model(s):
Outdoor side heat exchanger of chiller:
Indoor side heat exchanger chiller:
Type:
Driver of compressor:
MHA-V16W/D2RN1
Air to water
Water
Compressor driven vapour compression
Electric motor
Tj=+35℃
Tj=+30℃
Tj=+25℃
Tj=+20℃
Tj=+35℃
Tj=+30℃
Tj=+25℃
Tj=+20℃
EERd
EERd
EERd
EERd
2.31
3.75
5.81
6.90
-
-
-
-
13.0
9.8
6.7
3.2
kW
kW
kW
kW
Item Symbol Value UnitItem
Rated cooling capacity
Degradation co-efficientfor chillers (*)
Declared cooling capacity for part load at given outdoor temperature Tj
Declared energy efficiency ratio for part load at given outdoor temperature Tj
Prated,c
Pdc
Pdc
Pdc
Pdc
Cdc 0.9 -
13.0 kW Seasonal space coolingenergy efficiency ηs,c 185 %
Symbol Value Unit
Off mode
Thermosat-off mode
Crankcase heatermode
Standby mode
0.000
0.015
kW
kW
0.015
0.063
kW
kW
POFF PCK
PSBPTO
Capacity control
Contact details
Standard rating conditions used Low temperature application
GD Midea Heating & Ventilating Equipment Co. , Ltd.Penglai industry Road, Beijiao, Shunde, Foshan, Guangdong, 528311 P.R. China
(*) If Cdc is not determined by measurement then the default degradation coefficient of chillers shall be 0,9. (**) From 26 September 2018.
Sound power level, indoors / outdoors
Emissions of nitrogen oxides (if applicable)
GWP of the refrigerant
For air-to-water comfort chillers: air flow rate, outdoor measured
For water / brine-to-waterchillers: Rated brine or water flow rate, outdoor side heat exchanger
6500-
- -
m3/h
m3/h
variable
45/72
-
2088
dB
kg CO2 eq(100years)
mg/kWh input GCV
LWA
NOx (**)
-
ERP DATA (TDS = TECHNICAL DATA SHEET ) / DATI ERP (TDS = FOGLIO DATI TECNICI)
Ferroli spa ¬ 37047 San Bonifacio (Verona) Italy ¬ Via Ritonda 78/A - tel. +39.045.6139411 ¬ fax +39.045.6100933 ¬ www.ferroli.com
OMNIA-UE 16T
Mod . 16T - Cooling mode - Average climate - Low temperature (7°C) / Modo raffreddamento - Clima medio - Bassa temperatura (7°C)
64
Product Fiche
1
Manufacture: GD Midea Heating & Ventilating Equipment Co.,Ltd.
Address: Penglai Industry Road, Beijiao, Shunde, Foshan, Guangdong, 528311, P.R. China
Models
Climate condition
Sound power
level(indoor/outdoor), LWA[dB]
Medium - temperature appl ication Low-temperature application
Outdoorunit
Indoorunit
Rated heat
output [kW]
Rated heat
output [kW]
Energy efficiency
Annual energy
consumption [kWh]
Energy efficiency classes
Energy efficiency
Annual energy
consumption [kWh]
Energy efficiency classes
Average 43 / 62 4 127% 2700 A++ 4 183% 1941 A+++
Colder / 4 103% 3905 / 4 142% 2757 /
Warmer / 4 150% 1520 / 4 218% 1030 /
Average 43/ 66 6 130% 3875 A++ 6 185% 2635 A+++
Colder / 5 109% 4713 / 6 153% 3691 /
Warmer / 6 143% 2293 / 6 182% 1844 /
Average 43 / 69 7 125% 4474 A++ 8 170% 3790 A++
Colder / 7 87% 7319 / 8 135% 5818 /
Warmer / 7 149% 2572 / 8 229% 1792 /
Average 45 / 67 12 127% 7833 A++ 10 177% 4570 A+++
Colder / 10 96% 10902 / 10 146% 6508 /
Warmer / 10 167% 3228 / 10 239% 2269 /
Average 45 / 69 12 127% 7833 A++ 12 175% 5558 A+++
Colder / 12 111% 10972 / 12 142% 8924 /
Warmer / 11 172% 3491 / 12 245% 2633 /
Average 45 / 71 14 128% 8688 A++ 14 168% 6715 A++
Colder / 14 111% 12378 / 14 132% 9984 /
Warmer / 14 166% 4432 / 14 211% 3505 /
Average 45/ 72 15 127% 9491 A++ 16 157% 8272 A++
Colder / 15 114% 13244 / 16 135% 11613 /
Warmer / 15 179% 4483 / 16 210% 4044 /
Average 45/ 70 12 128% 7537 A++ 12 184% 5383 A+++
Colder / 12 110% 10454 / 12 157% 7445 /
Warmer / 12 164% 3700 / 12 255% 2602 /
Average 45/ 72 14 130% 8689 A++ 14 179% 6405 A+++
Colder / 14 108% 12892 / 14 150% 9123 /
Warmer / 14 167% 4249 / 14 260% 2832 /
Average 45 / 72 15 130% 9312 A++ 16 172% 7421 A++
Colder / 15 109% 13924 / 16 143% 11009 /
Warmer / 15 167% 4723 / 244% 3438 /16
MHA-V4W/D2N1
MHA-V6W/D2N1
MHA-V8W/D2N1
MHA-V10W/D2N1
MHA-V12W/D2N1
MHA-V14W/D2N1
MHA-V16W/D2N1
MHA-V12W/D2RN1
MHA-V14W/D2RN1
MHA-V16W/D2RN1
SMK-80/CD30GN1-B
SMK-80/CD30GN1-B
SMK-80/CD30GN1-B
SMK-160/CD30GN1-B
SMK-160/CD30GN1-B
SMK-160/CD30GN1-B
SMK-160/CD30GN1-B
SMK-160/CSD45GN1-B
SMK-160/CSD45GN1-B
SMK-160/CSD45GN1-B
Specific precautions when the space heater is assembled, installed or maintained:(1) This appliance is not intended for use by persons (including children) with reduced physical, sensory or mental capabilities, or lack of experience and knowledge, unless they have been given supervision or instruction concerning use of the appliance by a person responsible for their safety.(2) Turn off the main power supply switch or breaker before attempting any electrical work.Make sure all power switches are off.Failure to do so may cause electric shock.(3) Perform installation work properly according to the Installation Manual.(4) Install the heat pump securely in a location where the base can sustain the weight adequately.Perform the specified installation work to guard against an earthquake.If the heat pump is not installed appropriately, accidents may occur due to the falling units.(5) Conform to the regulations of the local electric company when wiring the power supply.Inappropriate grounding may cause electric shock.(6) Before cleaning, be sure to stop the operation, turn the breaker off or pull out the supply cord.(7) Do not operate the heat pump with a wet hand.(8) Never touch the internal parts of the units.(9) The company reserves the right to revise product technical parameter without having to notify the clients individually.
Product Fiche
1
Manufacture: GD Midea Heating & Ventilating Equipment Co.,Ltd.
Address: Penglai Industry Road, Beijiao, Shunde, Foshan, Guangdong, 528311, P.R. China
Models
Climate condition
Sound power
level(indoor/outdoor), LWA[dB]
Medium - temperature appl ication Low-temperature application
Outdoorunit
Indoorunit
Rated heat
output [kW]
Rated heat
output [kW]
Energy efficiency
Annual energy
consumption [kWh]
Energy efficiency classes
Energy efficiency
Annual energy
consumption [kWh]
Energy efficiency classes
Average 43 / 62 4 127% 2700 A++ 4 183% 1941 A+++
Colder / 4 103% 3905 / 4 142% 2757 /
Warmer / 4 150% 1520 / 4 218% 1030 /
Average 43/ 66 6 130% 3875 A++ 6 185% 2635 A+++
Colder / 5 109% 4713 / 6 153% 3691 /
Warmer / 6 143% 2293 / 6 182% 1844 /
Average 43 / 69 7 125% 4474 A++ 8 170% 3790 A++
Colder / 7 87% 7319 / 8 135% 5818 /
Warmer / 7 149% 2572 / 8 229% 1792 /
Average 45 / 67 12 127% 7833 A++ 10 177% 4570 A+++
Colder / 10 96% 10902 / 10 146% 6508 /
Warmer / 10 167% 3228 / 10 239% 2269 /
Average 45 / 69 12 127% 7833 A++ 12 175% 5558 A+++
Colder / 12 111% 10972 / 12 142% 8924 /
Warmer / 11 172% 3491 / 12 245% 2633 /
Average 45 / 71 14 128% 8688 A++ 14 168% 6715 A++
Colder / 14 111% 12378 / 14 132% 9984 /
Warmer / 14 166% 4432 / 14 211% 3505 /
Average 45/ 72 15 127% 9491 A++ 16 157% 8272 A++
Colder / 15 114% 13244 / 16 135% 11613 /
Warmer / 15 179% 4483 / 16 210% 4044 /
Average 45/ 70 12 128% 7537 A++ 12 184% 5383 A+++
Colder / 12 110% 10454 / 12 157% 7445 /
Warmer / 12 164% 3700 / 12 255% 2602 /
Average 45/ 72 14 130% 8689 A++ 14 179% 6405 A+++
Colder / 14 108% 12892 / 14 150% 9123 /
Warmer / 14 167% 4249 / 14 260% 2832 /
Average 45 / 72 15 130% 9312 A++ 16 172% 7421 A++
Colder / 15 109% 13924 / 16 143% 11009 /
Warmer / 15 167% 4723 / 244% 3438 /16
MHA-V4W/D2N1
MHA-V6W/D2N1
MHA-V8W/D2N1
MHA-V10W/D2N1
MHA-V12W/D2N1
MHA-V14W/D2N1
MHA-V16W/D2N1
MHA-V12W/D2RN1
MHA-V14W/D2RN1
MHA-V16W/D2RN1
SMK-80/CD30GN1-B
SMK-80/CD30GN1-B
SMK-80/CD30GN1-B
SMK-160/CD30GN1-B
SMK-160/CD30GN1-B
SMK-160/CD30GN1-B
SMK-160/CD30GN1-B
SMK-160/CSD45GN1-B
SMK-160/CSD45GN1-B
SMK-160/CSD45GN1-B
Specific precautions when the space heater is assembled, installed or maintained:(1) This appliance is not intended for use by persons (including children) with reduced physical, sensory or mental capabilities, or lack of experience and knowledge, unless they have been given supervision or instruction concerning use of the appliance by a person responsible for their safety.(2) Turn off the main power supply switch or breaker before attempting any electrical work.Make sure all power switches are off.Failure to do so may cause electric shock.(3) Perform installation work properly according to the Installation Manual.(4) Install the heat pump securely in a location where the base can sustain the weight adequately.Perform the specified installation work to guard against an earthquake.If the heat pump is not installed appropriately, accidents may occur due to the falling units.(5) Conform to the regulations of the local electric company when wiring the power supply.Inappropriate grounding may cause electric shock.(6) Before cleaning, be sure to stop the operation, turn the breaker off or pull out the supply cord.(7) Do not operate the heat pump with a wet hand.(8) Never touch the internal parts of the units.(9) The company reserves the right to revise product technical parameter without having to notify the clients individually.
Product Fiche
1
Manufacture: GD Midea Heating & Ventilating Equipment Co.,Ltd.
Address: Penglai Industry Road, Beijiao, Shunde, Foshan, Guangdong, 528311, P.R. China
Models
Climate condition
Sound power
level(indoor/outdoor), LWA[dB]
Medium - temperature appl ication Low-temperature application
Outdoorunit
Indoorunit
Rated heat
output [kW]
Rated heat
output [kW]
Energy efficiency
Annual energy
consumption [kWh]
Energy efficiency classes
Energy efficiency
Annual energy
consumption [kWh]
Energy efficiency classes
Average 43 / 62 4 127% 2700 A++ 4 183% 1941 A+++
Colder / 4 103% 3905 / 4 142% 2757 /
Warmer / 4 150% 1520 / 4 218% 1030 /
Average 43/ 66 6 130% 3875 A++ 6 185% 2635 A+++
Colder / 5 109% 4713 / 6 153% 3691 /
Warmer / 6 143% 2293 / 6 182% 1844 /
Average 43 / 69 7 125% 4474 A++ 8 170% 3790 A++
Colder / 7 87% 7319 / 8 135% 5818 /
Warmer / 7 149% 2572 / 8 229% 1792 /
Average 45 / 67 12 127% 7833 A++ 10 177% 4570 A+++
Colder / 10 96% 10902 / 10 146% 6508 /
Warmer / 10 167% 3228 / 10 239% 2269 /
Average 45 / 69 12 127% 7833 A++ 12 175% 5558 A+++
Colder / 12 111% 10972 / 12 142% 8924 /
Warmer / 11 172% 3491 / 12 245% 2633 /
Average 45 / 71 14 128% 8688 A++ 14 168% 6715 A++
Colder / 14 111% 12378 / 14 132% 9984 /
Warmer / 14 166% 4432 / 14 211% 3505 /
Average 45/ 72 15 127% 9491 A++ 16 157% 8272 A++
Colder / 15 114% 13244 / 16 135% 11613 /
Warmer / 15 179% 4483 / 16 210% 4044 /
Average 45/ 70 12 128% 7537 A++ 12 184% 5383 A+++
Colder / 12 110% 10454 / 12 157% 7445 /
Warmer / 12 164% 3700 / 12 255% 2602 /
Average 45/ 72 14 130% 8689 A++ 14 179% 6405 A+++
Colder / 14 108% 12892 / 14 150% 9123 /
Warmer / 14 167% 4249 / 14 260% 2832 /
Average 45 / 72 15 130% 9312 A++ 16 172% 7421 A++
Colder / 15 109% 13924 / 16 143% 11009 /
Warmer / 15 167% 4723 / 244% 3438 /16
MHA-V4W/D2N1
MHA-V6W/D2N1
MHA-V8W/D2N1
MHA-V10W/D2N1
MHA-V12W/D2N1
MHA-V14W/D2N1
MHA-V16W/D2N1
MHA-V12W/D2RN1
MHA-V14W/D2RN1
MHA-V16W/D2RN1
SMK-80/CD30GN1-B
SMK-80/CD30GN1-B
SMK-80/CD30GN1-B
SMK-160/CD30GN1-B
SMK-160/CD30GN1-B
SMK-160/CD30GN1-B
SMK-160/CD30GN1-B
SMK-160/CSD45GN1-B
SMK-160/CSD45GN1-B
SMK-160/CSD45GN1-B
Specific precautions when the space heater is assembled, installed or maintained:(1) This appliance is not intended for use by persons (including children) with reduced physical, sensory or mental capabilities, or lack of experience and knowledge, unless they have been given supervision or instruction concerning use of the appliance by a person responsible for their safety.(2) Turn off the main power supply switch or breaker before attempting any electrical work.Make sure all power switches are off.Failure to do so may cause electric shock.(3) Perform installation work properly according to the Installation Manual.(4) Install the heat pump securely in a location where the base can sustain the weight adequately.Perform the specified installation work to guard against an earthquake.If the heat pump is not installed appropriately, accidents may occur due to the falling units.(5) Conform to the regulations of the local electric company when wiring the power supply.Inappropriate grounding may cause electric shock.(6) Before cleaning, be sure to stop the operation, turn the breaker off or pull out the supply cord.(7) Do not operate the heat pump with a wet hand.(8) Never touch the internal parts of the units.(9) The company reserves the right to revise product technical parameter without having to notify the clients individually.
Mod. 04
Mod. 06
Mod. 08
Mod. 10
Mod. 12
Mod. 14
Mod. 16
Mod. 12T
Mod. 14T
Mod. 16T
65
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66
Ferroli spa ¬ 37047 San Bonifacio (Verona) Italy ¬ Via Ritonda 78/A tel. +39.045.6139411 ¬ fax +39.045.6100933 ¬ www.ferroli.com
CO
D.
3QE
4562
0