broad ix absorption chillercooling water flowrate (a) of broad absorption chiller is 20%~30% less...

ABSORPTIONAIRCONDITIONING EQUIPMENT61UAFile No. MH19712

LISTED

0063JB8656ISO9001

CONFORMS TOUL STD 726, 795

3018577

R

The cooling and heatingequipment powered by heatsources of solar energy,exhaust from generator andindustrial waste streams

Function:CoolingCooling/HeatingCooling, Heating/Hot Water

Heat Source:0.01~0.9MPa Steam75~200°C Hot Water230~600°C ExhaustNatural Gas, Town Gas, Diesel

Cooling Capacity:151KW ~ 23260kW(43Rt~6614Rt)

ARI SI/EN 2004

BROAD IX ABSORPTION CHILLERSteam Type

Hot Water Type

Exhaust Type

Direct-fired & Steam Type

Direct-fired & Hot Water Type

Direct-fired & Exhaust Type

Direct-fired, Hot Water & Exhaust Type

(simplified version)

All absorption chillers introduced in this catalog are the technology extension of BROAD

IX DFA with its generators designed for different heat sources. It shares the same

design with BROAD IX DFA for all other parts including main shell and control system.

This is the simplified version. You are welcome to contact BROAD for the complete

version of BROAD IX Absorption Chiller to learn Performance Curves, Piping, Valve

and Device Diagram, Supply List, Dimension Drawing, Electrical System Diagram,

Machine Room Design and Construction Tips, etc.

ABSORPTION CHILLERS APPLIED FORDIFFERENT HEAT SOURCES

Notes: 1.The supplementary gas (or diesel) burner can be applied for all two-stage absorptionchillers, which can keep chiller in cooling/heating when heat sources are not availabletemporarily.

2.For those heat source data not specified above, the utilization in single-stage or two-stage will be confirmed per cooling water temperature and chilled water temperature.

Initialenergysolar energy

geothermal(hot spring)

natual gas,diesel

natual gas,town gas,coal gas,coke gas,propane,diesel,bio-gas

garbage

Heat sourceequipmentparabolictrough solarcollectornil

turbine

engine

fuel cell,thermalpower station,industrialstove,industrialboiler

garbageincinerator

Heat source

� 0.6MPa steam,� 160°C hot water

� 75 °C hot water

230°C~350°Cexhaust

� 450°C exhaust

� 450°C exhaust,>90°C jacket water

� 450°C exhaust,� 0.3MPa steam

� 450°C exhaust

Chiller type

multi-energy DFA type

single-stage hot water type

single-stage exhaust type

two-stage exhaust type,multi-energy DFA typetwo-stage exhaust type,multi-energy DFA type

two-stage exhaust type,two-stage steam chiller,multi-energy DFA type

two-stage exhaust type

Function

cooling/heating/hot water

cooling

cooling/heating

cooling /heating/hot watercooling /heating/hot water

cooling,cooling /heating/hot water

cooling /heating

Safety Standards

TechnicalStandards

Quality ControlSystem

EnvironmentalManagementSystem Standard

:

Operating Noise

PRODUCT CERTIFICATION

EnvironmentalProtection Features

MMSP

U.S. UL-296, 726, 795CE by German TUV - 73/23/EEC, CE - 89/336/EECCE by Holland GASTEC - 90/396/EECChinese CCMS - JB 8656U.S.ETLU.S. ASMEEU PED

Swiss SGS - ISO14001

German TUV -ISO 9001

U.S. Air-Conditioning & Refrigeration Institute ARI Standard 560-2000“Absorption Water Chilling and Water Heating Packages”Japanese Industry Standard JIS B 8622 “Absorption Chiller”China National Standard GB/T 18362-2001 “Direct-Fired LiBr Absorption Water Chiller/heater”China National Standard GB 18361-2001 “Safety Requirements of LiBr Absorption Water Chiller/heater”

CO/CO2 � 0.02% NOx� 46ppm (O2=5%)

:

Model

Burner without sound absorber dB (A)Burner with sound absorber dB(A)

BZ15~BZ30

� TR

� ST

BZ40~BZ75

� TS

� SU

BZ85~BZ200

� TU

� SV

� BZ250

� UM

� TM

(Parameters of three standardsdiffer, it’s all up to cutomers)

Note: China National Standard GB/T 18362-2001 “Direct-Fired LiBr Absorption Water Chiller/heater” is the first national standard of DFA. China National Standard GB 18361-2001 “Safety Requirements of LiBr Absorption Water Chiller/heater” is the first national safety standard implemented by the government. The two above-mentioned standards are compiled by BROAD.

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The model selection should be based upon building’s cooling load. BROAD has found, through extensive research, the universal phenomena that the designed air conditioning load is usuallylarger than actual requirement, and in extreme case twice as large. This severely wastes capital investment on the equip-ment and machine room. Following table is about the air conditioning load per square meter recommended by BROAD. Asthe customer conditions vary greatly this should be decided by the consultant.

Steam chiller should indicate saturated steam pressure. 0.6MPa, 0.7MPa and 0.8MPa are the standard pressure. But theprices of 0.7MPa and 0.8MPa chillers are more competitive.Hot water chiller should indicate heat source water inlet temperature and flowrate (or temperature difference), etc.Please pay attention to changes of steam pressure, heat source water temperature and flowrate, which will affect thechiller’s capacity and COP.Exhaust chiller should indicate exhaust data, such as temperature, flowrate and composition, etc.Notice: The higher heat source temperature, the higher COP and the lower price as well.

Please refer to P2 for the details of all kinds of heat sources and chillers coupled with.If customer chooses solar energy to be heat source, the fuel(natural gas or light oil) can be supplementary at night time andon cloudy or raining days, instead of costing a lot to invest on larger thermal collector and thermal storage equipment. Thusthe investment on solar energy collector system can be paid back within 3 to 5 years. If cutomer has existing equipment withindustrial waste streams or power generator, the exhaust from which can be utilized. As the power generation and airconditioning are not needed simultaneously all the time, a back-up heat source for chiller is required for independentoperation. The extra investment on utilization of waste heat will be paid back within 2 to 4 years.The products listed in this brochure cover all the heat sources applicable to absorption chillers and every application mode,including a chiller powered by 2 or 3 heat sources.

The higher the chilled water temperature, the greater the cooling capacity and COP. And the lower the cooling watertemperature, the higher cooling capacity and COP. Please pay best attention to Performance Curves, which seems compli-cated but the ambient conditions effect upon cooling capacity and COP can be calculated in 2 minutes. It is the unique ofBROAD with precision and convenient features.

Flowrate and temperature requirements must be carefully studied. A large temperature difference and low flowrate can bea good solution to reduce the power consumption of water pumps. Besides the chilled water temperature range shown inthe performance data, BROAD recommends chilled water inlet~outlet temperature differenceas 8 °C, 9 °C, 10 °C or even15 °C. BROAD can design specially to meet customer’s temperature difference requirement without any effect upon coolingcapacity and COP due to the low flowrate.Cooling water flowrate (a) of BROAD absorption chiller is 20%~30% less than that of traditional chiller. Designer can chooselarger size (the same specification required for the high flowrate chiller) cooling tower per performance curve. Thus thecooling water pump specification and load can be decreased a lot without increasing those of cooling tower.It’s significantly electricity saving by lowering cooling water and chilled water flowrate. Compared with other chillers, BROADchillers are 40% ~60% electricity saving for water pumps.

To decide the quantity, you should take load, load fluctuation, building function, installation site and economic factors intoconsideration. Please be noted that the fewer units, the lower initial investment and operation cost (as the chiller’s COP willbe higher and water system’s electric consumption will be lower at part load). You need not consider having backup equip-ment because continuous operation is better for the life-span than intermittent operation. 1~2 units recommended for smalland medium sized applications and 3 units for big-sized applications (at least 2 units will be in continuous operation all yearlong). BROAD can manufacture the biggest chiller in the world, which can meet customers’ requirement of fewer units.

The rated chilled/heating water and cooling water pressure for BROAD absorption chiller are 0.8MPa, 0.81~1.2MPa for highbuilding, 3 categories: 1.21~1.6MPa, 1.61~2.0MPa and 2.01~ 2.4MPa for extra high building.Please calculate the pressure of cooling water system and chilled/heating water system separately and specify this informa-tion in your order. If system pressure is over 0.8MPa, you can choose high-pressure type. Another solution is to divide thesystem into several sections instead of choosing high-pressure type chiller. In this way, you have saved the extra cost of thehigh-pressure chiller and piping.

The standard model is equippped with automatic control system as well as remote control through internet. Please refer tothe P&I diagram for the details.If a building automation system (BAS) will be used, the BAS control interface should be selected optionally.If the BAS interface is not ordered along with chiller, it can be purchased later.

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house, hotel 50~90Whospital, school 80~130Wdining hall, shopping mall 150~230W

TWO-STAGE STEAM CHILLER

Model BS 300 400 500 600 800 1000 1200 1600 2000cooling capacity

ât PQUV QSRO RUNR SVTU VPMQ NNSPM NPVRS NUSMU OPOSM

NMQâÅ~äLÜ PMM QMM RMM SMM UMM NMMM NOMM NSMM OMMM

oq VVO NPOP NSRP NVUQ OSQS PPMT PVSU ROVN SSNQ

chilled water 7°C/12°C high flow(A)flowrate ãPLÜ SMM UMM NMMM NOMM NSMM OMMM OQMM POMM QMMM

pressure drop âm~ TT TT PU QS QS VM QS QS VM

chilled water 7°C/14°C low flow(B)flowrate ãPLÜ QOV RTN TNQ URT NNQP NQOV NTNQ OOUS OURT

pressure drop âm~ QO QO ON OR OR QV OR OR QV

cooling water 37°C/30°C low flow(a)flowrate ãPLÜ TQM VUT NOPQ NQUN NVTR OQST OVSN PVQV QVPQ

pressure drop âm~ UN UN TU NMU NMU NPU NMU NMU NPU

cooling water 37.5°C/32°C high flow(b)flowrate ãPLÜ VQO NORT NRTM NUUQ ORNP PNQM PTSV RMOS SOUM

pressure drop âm~ NOS NOS NON NSU NSU ONR NSU NSU ONR

0.8MPa two-stage steam(BS)consumption âÖLÜ PUQT RNPO SQMU TSVR NMOSQ NOUNT NRPVN OMROU ORSPQ

power ât UKU NMKP NTKQ NTKQ OMKQ PQKS PQKS QNKO SVKM

solution weight í VKO NOKM NQKR NTKO OOKR OTKU PQKM QRKM RRKM

unit ship. wt.(with LiBr solution) í PQKQ L L L L L L L L

unit ship. wt.(without LiBr solution) í NUKR OPKR OVKM PR QP RO PR QP RO

operation weight í PVKM QVKM SMKM SV UN VQ NPU NSP NUV

0.6MPa two-stage steam(BS)consumption âÖLÜ PUSQ RNRQ SQPS TTOU NMPMU NOUTN NRQRS OMSNS ORTQP

unit ship. wt.(with LiBr solution) í PSKR L L L L L L L L


operation weight í QNKN RNKQ SOKM TM UP VS NQN NSS NVP

Model BS 15 20 25 30 40 50 65 75 85 100 125 150 175 200 250cooling capacity

ât NTQ OPP OVN PQV QSR RUO TRS UTO VUV NNSP NQRQ NTQR OMPR OPOS OVMU

NMQâÅ~äLÜ NR OM OR PM QM RM SR TR UR NMM NOR NRM NTR OMM ORM

oí RM SS UP VV NPO NSR ONR OQU OUN PPN QNP QVS RTV SSN UOT

chilled water 7°C/12°C high flow(A)flowrate ãPLÜ PM QM RM SM UM NMM NPM NRM NTM OMM ORM PMM PRM QMM RMM

pressure drop âm~ S S NM NM NM OM OM OQ OQ OQ QT QT QT QT TT

chilled water 7°C/14°C low flow(B)flowrate ãPLÜ ONKQ OUKS PRKT QOKV RTKN TNKQ VOKV NMT NON NQP NTV ONQ ORM OUS PRT

pressure drop âm~ P P R R R NN NN NP NP NP OS OS OS OS QO

cooling water 37°C/30°C low flow(a)flowrate ãPLÜ PSKV QVKP SNKR TPKU VUKR NOP NSM NUR ONM OQT PMU PTM QPO QVP SNT

pressure drop âm~ PU PU SO SO SO TU TU TM TM TM RM RM RM RM UN

cooling water 37.5°C/32°C high flow(b)flowrate ãPLÜ QTKM SOKT TUKO VQKM NOR NRT OMQ OPR OST PNQ PVO QTN RQV SOU TUR

pressure drop âm~ SM SM VT VT VT NON NON NMU NMU NMU TU TU TU TU NOS

0.8MPa two-stage steam(BS)consumption âÖLÜ NVN ORR PNU PUO RNN SQM UPM VRV NMUT NOUM NRVV NVON OOQO ORSN POMQ

power ât NKQ NKQ OKR OKR OKR OKR QKM QKM QKP QKP SKQ SKQ SKQ UKQ UKU

solution weight í MKT MKU NKM NKN NKP NKS NKV OKO OKR PKN PKU QKP RKS SKS UKO

unit ship. wt.(with LiBr solution) í PKT QKM RKN RKU SKQ TKP UKS VKQ NNKQ NOKT NSKM NUKO ONKM ORKM OVKU

unit ship. wt.(without LiBr solution) í L L L OKT PKS QKM QKS RKM SKO TKN VKM NMKO NNKU NQKM NRKT

operation weight í PKV QKP RKQ SKO SKV TKU VKP NMKR NOKR NQKM NTKR NVKU OPKM OTKV POKU

0.6MPa two-stage steam(BS)consumption âÖLÜ NVO ORS PNV PUQ RNP SQO UPQ VSP NMVO NOUS NSMS NVOV OORO ORTO PONU

unit ship. wt.(with LiBr solution) í PKU QKO RKP SKM SKT TKT UKV NMKN NNKV NPKU NSKU NVKN OOKP OSKU PNKQ


operation weight í QKM QKR RKS SKQ TKO UKO VKS NNKO NPKM NQKT NUKN OMKT OQKP OVKT PQKQ

SPECIFICATIONSSPECIFICATIONSSPECIFICATIONSSPECIFICATIONSSPECIFICATIONS

General Conditions: 1. Rated saturated steam pressure: 0.6MPa (or 0.7, 0.8MPa) Rated

condensate temperature: 95°C 2. Rated chilled W. outlet/inlet temp.: (A)7°C/12°C (B)7°C/14°C 3. Rated cooling W. outlet/inlet temp.: (a)37°C/30°C (b)37.5°C/32°C 4. Lowest permitted outlet temperature for chilled water: 5°C

(except special order) 5. Lowest permitted inlet temperature for cooling water: 10°C

Lowest inlet temperature in operating: 18°C 6. Steam pressure upper limit for operation is 110% than rated

steam pressure. 7. Pressure limit for chilled/cooling water: 0.8MPa (800kPa) (except

special order) 8. Fouling factor for chilled/cooling water: 0.086m2

�K/kW 9. Power: 3 phase 380V/50Hz

10. Libr solution concentration: 50%11. Machine room temperature: 5~43°C, humidity� 85%12. Adjustable chilled water flowrate: 50%~120% (according to

flowrate A)13. Adjustable cooling water flowrate: 30%~140% (according to

flowrate a)14. Adjustable load: 5%~105%15. Rated COP: 1.37(including electricity consumption)Note: �=(A) (a) is for recommendation. (B) (b) can be selected

without affecting cooling capacity and performance.

�=The power and solution demand for 0.6MPa chiller is thesame with 0.8MPa chiller.� Technical specification is based upon Japanese IndustryStandard JIS B 8622 "Absorption Chiller".

Model BH 15 20 25 30 40 50 65 75 85 100 125 150 175 200 250cooling capacity












heat source W. flowrate ãPLÜ TKT NMKQ NOKV NRKR OMKT ORKV PPKT PUKV QQKN RNKV SQKV TTKV VNKM NMQ NPM


solution weight í MKU MKV NKO NKP NKR NKV OKO OKR OKV PKS QKO RKN SKN TKQ UKU

unit ship. wt.(with LiBr solution) í QKM QKP RKQ SKN SKU TKU VKN NMKR NOKT NPKV NTKO NVKS OPKM OSKR PNKU


operation weight í QKP QKT RKV SKT TKS UKS NMKN NNKQ NQKN NRKS NUKU ONKU ORKM PMKQ PRKO

Model BH 300 400 500 600 800 1000 1200 1600 2000

cooling capacityât PQUV QSRO RUNR SVTU VPMQ NNSPM NPVRS NUSMU OPOSM











heat source W. flowrate=ãPLÜ NRS OMU OSM PNO QNS ROM SOQ UPP NMQM


solution weight í NMKU NPKT NSKR ONKM OSKM POKM PVKR RNKR SPKM

unit ship. wt.(with LiBr solution) í PTKR L L L L L L L L


operation weight í QOKT ROKN SQKR TPKM URKM VV NQT NTN OMM

General Conditions: 1. Rated heat source W. outlet/inlet temp.: 155°C/170°C 2. Rated chilled W. outlet/inlet temp.: (A)7°C/12°C (B)7°C/14°C

3. Rated cooling W. outlet/inlet temp.: (a)37°C/30°C (b)37.5°C/32°C 4. Lowest permitted outlet temperature for chilled water: 5°C


Lowest inlet temperature for stable operation: 18°C 6. Heat source W. temperature upper limit is 110% than rated

heat source W. temperature 7. Pressure limit for chilled/cooling water: 0.8MPa (800kPa)

(except special order) 8. Fouling factor for chilled/cooling water: 0.086m2

�K/kW

9. Power: 3 phase 380V/50Hz10. LiBr solution concentration: 50%11. Machine room temperature: 5~43°C, humidity � 85%12. Adjustable chilled water flowrate: 50%~120% (according to

flowrate A)

13. Adjustable cooling water flowrate: 30%~140% (according toflowrate a)

14. Adjustable load: 5%~105%15. Rated load COP: 1.37 (including electricity consumption)Note: � (A) (a) is for recommendation. (B) (b) can be selected

without affecting cooling capacity and performance� Technical specification is based upon JapaneseIndustry Standard JIS B 8622 "Absorption Chiller"

TWO-STAGE HOT WATER CHILLER

General Conditions: 1. Rated exhaust inlet temperature: 500°C

Rated exhaust temperature: 170°C 2. Rated chilled W. outlet/inlet temp.: (A)7°C/12°C (B)7°C/14°C 3. Rated cooling W. outlet/inlet temp.: (a)37°C/30°C (b)37.5°C/32°C 4. Rated heating W. outlet/inlet temp.: 65°C/ 57°C 5. Lowest permitted outlet temperature for chilled water: 5°C


Lowest inlet temperature for stable operation:18°C 7. Pressure limit for chilled/cooling water: 0.8MPa (800kPa),

except special order

8. Fouling factor for chilled/cooling water: 0.086m2�K/kW

9. Power: 3 phase 380V/50Hz10. LiBr solution concentration: 50%11. Machine room temperature: 5~43°C,humidity � 85%12. Adjustable chilled water flowrate: 50%~120% (according to


flowrate a)14. Adjustable heating water flowrate: 65%~120%15. Adjustable load: 5%~105%

16. Rated COP for cooling: 1.37 (including electricity consumption,excluding 30% exhaust loss)

17. Rated COP for heating: 0.925Note: � (A) (a) is for recommendation. (B) (b) can be selected

without affecting cooling capacity and performance.

Note: � Technical specification is based upon Japanese IndustryStandard JIS B 8622 "Absorption Chiller".

TWO-STAGE EXHAUST CHILLER

Model BE 300 400 500 600 800 1000 1200 1600 2000cooling capacity



oq VVO NPOP NSRP NVUQ OSQS PPMT PVSU ROVN SSN

heating capacityât OSUT PRUO QQUV RPUR TNTS UVST NMTRU NQPRN NTVPP

NMQâÅ~äLÜ OPN PMU PUS QSP SNT TTN VOR NOPQ NRQO









heating waterflowrate ãPLÜ OUV PUR QUP RTU TTN VSQ NNRS NRQP NVOU

pressure drop âm~ TM TM TM TM TM TM TM TM TM

exhaust consumption=âÖLÜ OOQSU OVVTM PTQOO QQVPT RVVQN TQUQS UVUTS NNVUTU NQVSVP


solution weight í NMKU NPKT NSKR ONKM OSKM POKM PVKR RNKR SPKM

unit ship. wt.(with LiBr solution) í PTKR L L L L L L L L


operation weight í QOKT ROKN SQKR TPKM URKM VV NQT NTN OMM

Model BE 15 20 25 30 40 50 65 75 85 100 125 150 175 200 250cooling capacity




heating capacityât NPR NTV OOQ OSV PRU QQV RUP STO TSO UVT NNON NPQV NRTM NTVN OOQR

NMQâÅ~äLÜ NNKS NRKQ NVKP OPKN PMKU PUKS RMKN RTKU SRKR TTKN VSKQ NNS NPR NRQ NVP









heating waterflowrate ãPLÜ NQKR NVKP OQKN OUKV PUKR QUKO SOKS TOKP UNKV VSKQ NON NQR NSV NVP OQN

pressure drop âm~ QM QM RM RM RM RM RM TM TM TM TM TM TM TM TM

exhaust consumption=âÖLÜ NNNR NQVN NURT OOPO OVUQ PTPR QUQV RSMN SPRM TQTT VPPT NNONS NPMVR NQVRS NUTNM


solution weight í MKU MKV NKO NKP NKR NKV OKO OKR OKV PKS QKO RKN SKN TKQ UKU

unit ship. wt.(with LiBr solution) í QKM QKP RKQ SKN SKU TKU VKN NMKR NOKT NPKV NTKO NVKS OPKM OSKR PNKU


operation weight í QKP QKT RKV SKT TKS UKS NMKN NNKQ NQKN NRKS NUKU ONKU ORKM PMKQ PRKO

SINGLE-STAGE STEAM CHILLER

Model BDS 300 400 500 600 800 1000 1200 1600 2000cooling capacity






cooling water 7°C/14°C low flow(B)flowrate ãPLÜ QOV RTN TNQ URT NNQP NQOV NTNQ OOUS OURT


cooling water 37°C/30°C

flowrate ãPLÜ VTU NPMQ NSPM NVRS OSMU POSM PVNO RONS SROM

pressure drop âm~ NMT NMT NMO NQP NQP NUP NQP NQP NUP

consumption âÖLÜ SVTR VPMM NNSOR NPVRN NUSMN OPORN OTVMN PTOMN QSRMO

power ât UKT NMKR NPKR NTKO ONKM OTKO PQKO QNKU RQKM

solution weight í TKR VKS NNKS NQKP NUKP OPKN OUKM PSKM QTKM

unit ship. wt.(without LiBr solution) í OTKM PRKR QPKR PTKM QSKM RTKM PTKM QSKM RTKM

operation weight í PPKM QPKN RPKT RUKM TOKM VMKM NNR NQT NUO

Model BDS 15 20 25 30 40 50 65 75 85 100 125 150 175 200 250cooling capacity









flowrate ãPLÜ QUKV SRKO UNKR VTKU NPM NSP ONO OQR OTT POS QMU QUV RTN SRO UNR

pressure drop âm~ RM RM UO UO UO NMP NMP VO VO VO SS SS SS SS NMT

consumption âÖLÜ PQV QSR RUN SVU VPM NNSP NRNN NTQQ NVTS OPOR OVMS PQUU QMSV QSRM RUNP

power ât NKU NKU OKO OKO OKO OKO QKU QKU RKM RKM SKV SKV UKQ UKQ UKT

solution weight í MKT MKU MKV NKN NKP NKR NKU OKN OKP OKU PKP PKT RKO SKM SKV

unit ship.weight í PKS PKV QKN QKR SKM SKR TKQ UKN VKR NNKM NPKP NSKN NUKS ONKR OQKQ

operation weight í PKU QKO QKQ QKV SKS TKN UKO VKQ NMKU NOKR NRKU NUKT ONKU ORKM OUKS

General Conditions: 1. Rated saturated steam pressure: 0.1MPa

Rated condensate temperature: 95°C 2. Rated chilled W. outlet/inlet temp.: (A)7°C/12°C (B)7°C/14°C 3. Rated cooling W. outlet/inlet temp.: 37°C/30°C

4. Lowest permitted outlet temperature for chilled water: 5°C(except special order)

5. Lowest permitted inlet temperature for cooling water: 10°CLowest inlet temperature for stable operation:18°C

6. Power: 3 phase 380V/50Hz

7. LiBr Solution concentration: 50% 8. Machine room temperature: 5~43°C, humidity � 85% 9. Pressure limit for chilled/cooling water: 0.8MPa (800kPa)

(except special order)10. Fouling factor for chilled/cooling water: 0.086m2

�K/kW

11. Adjustable chilled water flowrate: 50%~120% (according toflowrate A)

12. Adjustable cooling water flowrate: 30%~140%13. Adjustable load: 5%~105%14. Rated load COP: 0.78

Note: � (A) (a) is for recommendation. (B) (b) can be selectedwithout affecting cooling capacity and performance� Technical specification is based upon JapaneseIndustry Standard JIS B 8622 "Absorption Chiller"

SINGLE-STAGE HOT WATER CHILLER

Model =_ae 300 400 500 600 800 1000 1200 1600 2000cooling capacity

ât PMTM QMVQ RNNT SNQN UNUU NMOPQ NOOUN NSPTR OMQSV

NMQâÅ~äLÜ OSQ PRO QQM ROU TMQ UUM NMRS NQMU NTSM

oq UTP NNSQ NQRR NTQS OPOU OVNM PQVO QSRS RUOM

chilled water 7°C/12°C high flow(A)flowrate ãPLÜ ROU TMQ UUM NMRS NQMU NTSM ONNO OUNS PROM

pressure drop âm~ SN SN PM PS PS TN PS PS TN

chilled water 7°C/14°C low flow(B)flowrate ãPLÜ PTT RMP SOV TRQ NMMS NORT NRMV OMNN ORNQ

pressure drop âm~ PN PN NS NU NU PS NU NU PS


flowrate ãPLÜ UUM NNTP NQST NTSM OPQT OVPP PROM QSVP RUST

pressure drop âm~ UU UU UR NNU NNU NRN NNU NNU NRN

heat source W. flowrate ãPLÜ PST QUV SNN TPP VTU NOOO NQST NVRR OQQQ


solution weight í UKO NMKU NPKN NRKU OMKN ORKO PMKM QMKM RMKM

unit ship. weight í OVKO PUKR QRKQ PVKR QUKM SNKM PVKR QUKM SNKM

operation weight í PRKM QSKN RRKS RVKM SVKM UQKM NNV NPV NSV

Model =_ae 15 20 25 30 40 50 65 75 85 100 125 150 175 200 250cooling capacity

ât NRN OMV ORS PMO QMT RNO SSP TSU UTO NMOP NOTV NRPR NTVN OMQT ORRV

NMQâÅ~äLÜ NP NU OO OS PR QQ RT SS TR UU NNM NPO NRQ NTS OOM

oí QP SM TP US NNS NQR NUU ONU OQU OVN PSQ QPS RMV RUO TOT

chilled water 7°C/12°C high flow(A)flowrate ãPLÜ OS PS QQ RO TM UU NNQ NPO NRM NTS OOM OSQ PMU PRO QQM

pressure drop âm~ R R U U U NS NS NV NV NV PT PT PT PT SN

chilled water 7°C/14°C low flow(B)flowrate ãPLÜ NV OS PN PT RM SP UN VQ NMT NOS NRT NUV OOM ORN PNQ

pressure drop âm~ P P Q Q Q U U NM NM NM NV NV NV NV PN


flowrate ãPLÜ QP SM TP UT NNT NQT NVM OOM ORM OVP PST QQM RNP RUT TPP

pressure drop âm~ QO QO SU SU SU UR UR TS TS TS RR RR RR RR UU

heat source W. flowrate=ãPLÜ NUKN ORKM PMKS PSKN QUKS SNKN TVKO VNKT NMQ NOO NRP NUP ONQ OQQ PMS


solution weight í MKU MKV NKM NKN NKP NKR NKV OKO OKQ OKV PKR QKM RKS SKP TKR

unit ship. weight í PKT QKM QKP QKT SKN SKU TKV UKR NMKO NNKV NPKR NTKO NVKR OOKR ORKS

operation weight í PKV QKP QKT RKN SKT TKQ UKT VKU NNKR NPKQ NSKM NVKU OOKT OSKM OVKS

General Conditions: 1. Rated heat source W. outlet/inlet temp.: 88°C/98°C 2. Rated chilled W. outlet/inlet temp.: (A)7°C/12°C (B)7°C/14°C

3. Rated cooling W. outlet/inlet temp.: 37°C/30°C 4. Lowest permitted outlet temperature for chilled water: 5°C


Lowest inlet temperature for stable operation: 18°C

6. Power: 3 phase 380V/50Hz 7. LiBr Solution concentration: 50% 8. Machine room temperature: 5~43°C, humidity � 85% 9. Pressure limit for chilled/cooling water: 0.8MPa (800kPa)

(except special order)



12. Adjustable cooling water flowrate: 30%~150%13. Adjustable load: 5%~105%

14. Rated load COP for cooling: 0.75Note:� (A) (a) is for recommendation, without affecting cooling

capacity and performance� Technical specification is based upon JapaneseIndustry Standard JIS B 8622 "Absorption Chiller"

SINGLE-STAGE EXHAUST CHILLER

Model BDE 15 20 25 30 40 50 65 75 85 100 125 150 175 200 250cooling capacity









flowrate ãPLÜ QUKV SRKO UNKR VTKU NPM NSP ONO OQR OTT POS QMU QUV RTN SRO UNR

pressure drop âm~ RM RM UO UO UO NMP NMP VO VO VO SS SS SS SS NMT

exhaust consumption âÖLÜ QPOO RTSP TOMQ USQQ NNROS NQQMT NUTPM ONSNN OQQVO OUUNR PSMNU QPOOO RMQOS RTSOV TOMPT


solution weight í MKU MKV NKM NKO NKQ NKS OKM OKP OKR PKN PKT QKN RKU SKR TKU

unit ship.weight í PKV QKO QKS RKN SKT TKR UKO VKM NMKT NOKP NQKU NUKM OMKM OPKM OUKM

operation weight í QKN QKR RKM RKR TKP UKN UKV NMKN NOKM NPKU NTKO OMKR OPKO OTKM PNKM

Model BDE 300 400 500 600 800 1000 1200 1600 2000cooling capacity









flowrate ãPLÜ VTU NPMQ NSPM NVRS OSMU POSM PVNO RONS SROM

pressure drop âm~ NMT NMT NMO NQP NQP NUP NQP NQP NUP

exhaust consumption âÖLÜ USQQQ NNRORV NQQMTP NTOUUU OPMRNT OUUNQT PQRTTS QSNMPR RTSOVP


solution weight í UKQ NNKM NPKN NQKP NUKP OPKN OUKM PSKM QTKM

unit ship. wt.(without LiBr solution) í PMKR QMKM QSKM QNKR RMKR SOKM QNKR RMKR SOKM

operation weight í PSKP QTKS RTKM SMKM TRKM VPKM NNU NRO NUT

General Conditions: 1. Rated exhaust inlet temperature: 300°C

Rated exhaust temperature: 130°C 2. Rated chilled W. outlet/inlet temp.: (A)7°C/12°C (B)7°C/14°C 3. Rated cooling W. outlet/inlet temp.: 37°C/30°C 4. Lowest permitted outlet temperature for chilled water: 5°C

(except special order)

5. Lowest permitted inlet temperature for cooling water: 10°CLowest inlet temperature for stable operation:18°C

6. Power: 3 phase 380V/50Hz 7. LiBr Solution concentration: 50% 8. Machine room temperature: 5~43°C, humidity � 85%

9. Pressure limit for chilled/cooling water: 0.8MPa (800kPa)(except special order)



12. Adjustable cooling water flowrate: 30%~140%13. Adjustable load: 5%~105%14. Rated load COP: 0.78 (excluding 37% exhaust loss)Note: � (A) (a) is for recommendation, without affecting cooling

capacity and performance

� Technical specification is based upon Japanese IndustryStandard JIS B 8622 "Absorption Chiller"

MULTI-ENERGY DIRECT-FIRED CHILLERdirect-fired+steam/direct-fired+hot water/direct-fired+exhaust (BZS/BZH/BZE)

15 20 25 30 40 50 65 75 85 100 125 150 175 200 250

NTQ OPP OVN PQV QSR RUO TRS UTO VUV NNSP NQRQ NTQR OMPR OPOS OVMU

NR OM OR PM QM RM SR TR UR NMM NOR NRM NTR OMM ORM

RM SS UP VV NPO NSR ONR OQU OUN PPN QNP QVS RTV SSN UOT

NPR NTV OOQ OSV PRU QQV RUP STO TSO UVT NNON NPQV NRTM NTVN OOQR

NNKS NRKQ NVKP OPKN PMKU PUKS RMKN RTKU SRKR TTKN VSKQ NNS NPR NRQ NVP

PM QM RM SM UM NMM NPM NRM NTM OMM ORM PMM PRM QMM RMM

S S NM NM NM OM OM OR OR OR QT QT QT QT TT

ONKQ OUKS PRKT QOKV RTKN TNKQ VOKV NMT NON NQP NTV ONQ ORM OUS PRT

P P R R R NM NM NP NP NP OS OS OS OS QO

PSKV QVKO SNKR TPKT VUKR NOP NSM NUR OMV OQS PMU PSV QPN QVO SNS

PU PU SO SO SO TU TU TM TM TM RM RM RM RM UN

QSKV SOKT TUKO VPKV NOR NRT OMQ OPR OSS PNP PVN QTM RQV SOT TUQ

SM SM VT VT VT NOM NOM NMU NMU NMU TU TU TU TU NOS

NQKR NVKP OQKN OUKV PUKR QUKP SOKS TOKP UNKV VSKQ NON NQR NSV NVP OQN

QM QM RM RM RM RM RM TM TM TM TM TM TM TM TM

TKO VKS NOKN NQKQ NVKP OQKN PNKP PSKN QMKV QUKO SMKP TOKR UQKQ VSKP NON

SM SM TM TM TM TM TM UM UM UM UM UM UM UM UM

NMKV NQKR NUKN ONKU OVKN PSKQ QTKQ RQKT SNKU TOKU VMKU NMV NOT NQS NUO

NNKP NRKN NUKV OOKS PMKP PTKU QVKP RSKV SQKP TRKU VQKR NNP NPP NRN NVM

NOKM NSKM OMKN OQKM POKM QMKN ROKN SMKN SUKN UMKN NMM NON NQM NSM OMN

NOKR NSKS OMKV ORKM PPKP QNKT RQKO SOKR TMKU UPKQ NMQ NOR NQS NSS OMV

TKT NMKP NOKV NRKR OMKT ORKV PPKT PUKV QQKM RNKU SQKS TTKS VMKS NMQ NPM

NVN ORR PNU PUN RNM SPU UPN VRV NMUQ NOTT NRVO NVNO OOPP ORRN PNVQ

PPU QRN RSQ STS VMO NNOT NQSR NSVN NVNS OORR OUNU PPUO PVQR QRMV RSPS

PUS RNQ SQQ TTN NMOU NOUV NSTP NVPM ONUT ORTR PONV PUTP QRMU RNQO SQQR

TKV NMKR NPKN NRKU ONKN OSKQ PQKQ PVKT QQKU ROKV SRKU TVKN VOKR NMS NPO

UKU NNKT NQKS NTKR OPKP OVKO PTKV QPKT QVKS RUKP TPKM UTKU NMO NNT NQS

NKS NKS OKT PKO PKO PKU PKU PKU SKU SKU NNKM NOKP NOKP NQKU NRKN

MKV NKO NKP NKS OKM OKP OKR PKN PKT QKP QKV SKM TKN UKQ NMKS

QKQ RKP SKO TKP UKT VKV NNKM NOKN NQKU NSKU OMKT OQKS OTKT POKP PUKN

L L L OKT PKS QKM QKS RKM SKO TKN VKM NMKO NNKU NQKM NRKT

QKS RKS SKR TKT VKP NMKQ NNKU NPKP NSKM NUKP OPKM OTKN PMKT PRKU QOKO

Model =BZS/BZH/BZEcooling capacity

ât

NMQâÅ~äLÜ

oí

heating capacityât

NMQâÅ~äLÜ

chilled water 7°C/12°C high flow(A)flowrate ãPLÜ

pressure drop âm~

chilled water 7°C/14°C low flow(B)flowrate ãPLÜ

pressure drop âm~

cooling water 37°C/30°C low flow(a)flowrate ãPLÜ

pressure drop âm~

cooling water 37.5°C/32°C high flow(b)

flowrate ãPLÜ

pressure drop âm~

heating water

flowrate ãPLÜ

pressure drop âm~

hot water

flowrate ãPLÜ

pressure drop âm~

only direct-fired fuel consumption (BZ)oil(cooling) âÖLÜ

gas(cooling)NMQâÅ~äLÜ

oil(heating) âÖLÜ

gas(heating)=NMQâÅ~äLÜ

direct-fired+180°C=heat source water (BZH)heat source W. flowrate=ãPLÜ

direct-fired+0.8MPa steam (BZS)

consumption âÖLÜ

direct-fired+500°C exhaust (BZE)exhaust consumption for cooling hÖLÜ

exhaust consumption for heating hÖLÜ

NMQâÅ~äLÜ

NMQâÅ~äLÜ

power===========ât

solution weight í

unit ship. wt.(with LiBr solution) í

unit ship. wt.(without LiBr solution) í

operation weight í

rated supp. fuelconsumption for coolingrated supp. fuelconsumption for heating

300 400 500

PQUV QSRO RUNR

PMM QMM RMM

VVO NPOP NSRP

OSUT PRUO QQUV

OPN PMU PUS

SMM UMM NMMM

TT TT PU

QOV RTN TNQ

QO QO ON

TPV VUS NOPO

UN UN TT

VQN NORR NRSU

NOS NOS NOM

OUV PUR QUP

TM TM TM

NQQ NVP L

UM UM L

ONV OVO PSQ

OOT PMP PTV

OQM POM QMN

ORM PPP QNT

=NRS OMT ORV

=PUPQ RNNQ SPUU

STSQ VMNU NNOTP

TTNQ NMOURNOUUV

NRV ONO OSR

NTR OPP OVO

NTKS OOKN PMKT

NOKN NRKV OMKT

L L L

NUKR ORKM OVKM

QUKP SNKS TQKR

600 800 1000 1200 1600 2000

SVTU VPMQ NNSPM NPVRS NUSMU OPOSM

SMM UMM NMMM NOMM NSMM OMMM

NVUQ OSQS PPMT PVSU ROVN SSNQ

RPUR TNTS UVST NMTRU NQPRN NTVPP

QSP SNT TTN VOR NOPQ NRQO

NOMM NSMM OMMM OQMM POMM QMMM

QS QS VM QS QS VM

URT NNQP NQOV NTNQ OOUS OURT

OR OR RM OR OR RM

NQTU NVTO OQSQ OVRT PVQP QVOU

NMU NMU NPU NMU NMU NPU

NUUO ORMV PNPS PTSP RMNV SOTN

NSU NSU ONR NSU NSU ONR

RTV TTN VSQ NNRS NRQP NVOU

TM TM TM TM TM TM

L L L L L L

L L L L L L

QPT RUP TOV UTR NNST NQRU

QRR SMT TRU VNM NONQ NRNS

QUN SQN UMN VSO NOUP NSMP

RMN SST UPQ NMMM NPPQ NSST

PNN QNR RNU SOO UPM NMPT

TSST NMOOT NOTTR NRPPR OMQRS ORRRO

NPROT NUMPS OORQS OTMRR PSMTP QRMVN

NRQSM OMSMP ORTQR PMUUT QNOMR RNQVM

PNU QOQ ROV SPR UQT NMRU

PRM QST RUP TMM VPQ NNST

PSKM QRKM SOKM TNKM UVKM NOP

OPKP OUKU PSKU QTKO RTKR TPKS

=L L L L L L

PRKM QRKM RRKM PRKM QRKM RRKM

UMKS VSKP NNO NSN NVP OOQ

Model BZS/BZH/BZEcooling capacity

ât

NMQâÅ~äLÜ

oí

heating capacity

ât

NMQâÅ~äLÜ

chilled water 7°C/12°C high flow(A)flowrate ãPLÜ

pressure drop âm~

chilled water 7°C/14°C low flow(B)flowrate ãPLÜ

pressure drop âm~

cooling water 37°C/30°C low flow(a)flowrate ãPLÜ

pressure drop âm~

cooling water 37.5°C/32°C high flow(b)flowrate ãPLÜ

pressure drop âm~

heating water

flowrate ãPLÜ

pressure drop âm~

hot water

flowrate ãPLÜ

pressure drop âm~

only direct-fired fuel consumption (BZ)oil(cooling) âÖLÜ



gas(heating)NMQâÅ~äLÜ

direct-fired+180°C=heat source water (BZH)

heat source W. flowrate=ãPLÜ

direct-fired+0.8MPa steam (BZS)

consumption âÖLÜ

direct-fired+500°C exhaust (BZE)exhaust consumption for cooling hÖLÜ

exhaust consumption for heating hÖLÜ

NMQâÅ~äLÜ

NMQâÅ~äLÜ

power===========ât

solution weight í



operation weight í


General Conditions: 1. Rated steam pressure: 0.8MPa

Rated condensate temperature: 95°C 2. Rated heat source W. outlet/inlet temp.: 165°C/180°C 3 Rated exhaust inlet temp.: 500°C 4. Rated chilled W. outlet/inlet temp.: (A)7°C/12°C (B)7°C/14°C 5. Rated cooling W. outlet/inlet temp.: (a)37°C/30°C (b)37.5°C/32°C 6. Rated heating W. outlet/inlet temp.: 65°C/57°C 7. Rated hot W. outlet/inlet temp.: 60°C/44°C 8. Lowest permitted outlet temperature for chilled water: 5°C (except special order) 9. Lowest permitted inlet temperature for cooling water: 10°C

Lowest inlet temperature for stable operation: 18°C10. Highest permitted outlet temperature for heating/hot water: 95°C11. Pressure limit for chilled W., cooling W., heating W., hot W. 0.8MPa (800kPa)

(except special order)12. Fouling factor for chilled W., cooling W., heating W., hot W.:

0.086m2�K/kW

13. Oil refers to 0# diesel oil.The low heating value is 10,400kcal/kgand high heating value 11,110kcal/kg

14. Power: 3 phase 380V/50Hz15. LiBr Solution concentration: 50%

16. Rated exhaust temp. for cooling: 170°CRated exhaust temp. for heating: 145°C

17. Machine room temperature: 5~43°C, humidity � 85%18. Adjustable chilled water flowrate: 50%~120% (according to


flowrate a)20. Adjustable heating/hot water flowrate: 65%~120%21. Adjustable load: 5%~105%

22. Rated direct-fired cooling COP: 1.31 (including electricityconsumption)Rated indirect-fired cooling COP : 1.37 (including electricityconsumption)

23.Rated direct-fired heating COP: 0.925

Note: � 100% cooling capacity can be achieved with dedecated fuel,steam or heat source water input

Note: � The cooling/heating capacity is 30% of the rated whenexhaust input only. The 30% above capacity is for special order

Note: �When steam and heat source water input is insuffcient, the

back-up fuel will be auto utilizedNote: � (A)(a) is for recommendation. (B)(b) can be selected

without affecting cooling capacity and performanceNote: � Technical specification is based upon China National

Standard GB/T 18362-2001 "Direct-fired lithium bromide

absorption chiller(heater)" or Japanese Industry Standard JISB 8622 "Absorption Chiller"

15 20 25 30 40 50 65 75 85 100 125 150 175 200 250

NTQ OPP OVN PQV QSR RUO TRS UTO VUV NNSP NQRQ NTQR OMPR OPOS OVMU

NR OM OR PM QM RM SR TR UR NMM NOR NRM NTR OMM ORM

RM SS UP VV NPO NSR ONR OQU OUN PPN QNP QVS RTV SSN UOT

NPR NTV OOQ OSV PRU QQV RUP STO TSO UVT NNON NPQV NRTM NTVN OOQR

NNKS NRKQ NVKP OPKN PMKU PUKS RMKN RTKU SRKR TTKN VSKQ NNS NPR NRQ NVP

PM QM RM SM UM NMM NPM NRM NTM OMM ORM PMM PRM QMM RMM

S S NM NM NM OM OM OR OR OR QT QT QT QT TT

ONKQ OUKS PRKT QOKV RTKN TNKQ VOKV NMT NON NQP NTV ONQ ORM OUS PRT

P P R R R NM NM NP NP NP OS OS OS OS QO

QMKO RPKT STKM UMKR NMT NPQ NTR OMO OOU OSV PPS QMP QTM RPT STO

QR QR TQ TQ TQ VP VP UP UP UP SM SM SM SM VT

RNKO SUKP URKP NMO NPT NTN OOO ORT OVM PQO QOT RNP RVU SUQ URR

SS SS NMU NMU NMU NPR NPR NON NON NON UT UT UT UT NQN

NQKR NVKP OQKN OUKV PUKR QUKP SOKS TOKP UNKV VSKQ NON NQR NSV NVP OQN

QM QM RM RM RM RM RM TM TM TM TM TM TM TM TM

TKO VKS NOKN NQKQ NVKP OQKN PNKP PSKN QMKV QUKO SMKP TOKR UQKQ VSKP NON

SM SM TM TM TM TM TM UM UM UM UM UM UM UM UM

NMKV NQKR NUKN ONKU OVKN PSKQ QTKQ RQKT SNKU TOKU VMKU NMV NOT NQS NUO

NNKP NRKN NUKV OOKS PMKP PTKU QVKP RSKV SQKP TRKU VQKR NNP NPP NRN NVM

NOKM NSKM OMKN OQKM POKM QMKN ROKN SMKN SUKN UMKN NMM NON NQM NSM OMN

NOKR NSKS OMKV ORKM PPKP QNKT RQKO SOKR TMKU UPKQ NMQ NOR NQS NSS OMV

PPU QRN RSQ STS VMO NNOT NQSR NSVN NVNS OORR OUNU PPUO PVQR QRMV RSPS

PUS RNQ SQQ TTN NMOU NOUV NSTP NVPM ONUT ORTR PONV PUTP QRMU RNQO SQQR

QKR SKM TKQ UKV NNKV NQKV NVKP OOKP ORKP OVKU PTKO QQKS ROKN RVKR TQKQ

RKS TKR VKP NNKO NRKM NUKU OQKR OUKP PNKV PTKS QSKU RSKO SRKT TRKN VQKN

UKU NNKT NQKS NTKR OPKP OVKO PTKV QPKT QVKS RUKP TPKM UTKU NMO NNT NQS

NKS NKS OKT PKO PKO PKU PKU PKU SKU SKU NNKM NOKP NOKP NQKU NRKN

MKV NKO NKP NKS OKM OKP OKR PKN PKT QKP QKV SKM TKN UKQ NMKS

QKQ RKP SKO TKP UKT VKV NNKM NOKN NQKU NSKU OMKT OQKS OTKT POKP PUKN

L L L OKT PKS QKM QKS RKM SKO TKN VKM NMKO NNKU NQKM NRKT

QKS RKS SKR TKT VKP NMKQ NNKU NPKP NSKM NUKP OPKM OTKN PMKT PRKU QOKO

MULTI-ENERGY DIRECT-FIRED CHILLERdirect-fired+hot water+exhaust (BZHE=can be combined with engine)

Model BZHE

cooling capacitykW

104kcal/h

Rt

heating capacity

kW

104kcal/h

chilled water 7°C/12°C high flow(A)

flowrate ãPLÜ

pressure drop âm~

chilled water 7°C/14°C low flow(B)

flowrate ãPLÜ

pressure drop âm~

cooling water 37°C/30°C low flow(a)

flowrate ãPLÜ

pressure drop âm~

cooling water 37.5°C/32°C high flow(b)

flowrate ãPLÜ

pressure drop âm~

heating water

flowrate ãPLÜ

pressure drop âm~

hot water

flowrate ãPLÜ

pressure drop âm~

only direct-fired fuel consumption (BZ)

oil(cooling) âÖLÜ



gas(heating)NMQâÅ~äLÜ

direct-fired+98°C heat source W.+500°C exhaust (BZHE)

âÖLÜ

âÖLÜ

ãPLÜ

NMQâÅ~äLÜ

NMQâÅ~äLÜ

power ât

solution weight í



operation weight í


max. heat source W.consumption for heating

max. exhaustconsumption for coolingmax. exhaustconsumption for heating

General Conditions: 1. Rated heat source water outlet/inlet temp.: 88°C/98°C

2. Rated exhaust inlet temp.: 500°C 3. Rated chilled W. outlet/inlet temp.:

(A)7°C/12°C (B)7°C/14°C 4. Rated cooling W. outlet/inlet temp.:

(a)37°C/30°C (b)37.5°C/32°C

5. Rated heating W. outlet/inlet temp.: 65°C/57°C 6. Rated hot W. outlet/inlet temp.: 60°C/44°C 7. Lowest permitted outlet temperature for chilled water: 5°C


Lowest inlet temperature for stable operation:18°C 9. Highest permitted outlet temperature for heating/hot water: 95°C10. Pressure limit for chilled W., cooling W., heating W., hot W.:

0.8MPa (800kPa) (except special order)11. Fouling factor for chilled W., cooling W., heating W., hot W.:

0.086m2•K/kW12.Oil refers to 0# diesel oil.The low heating value is

10,400kcal/kg and high heating value 11,110kcal/kg13. Power: 3 phase 380V/50Hz14. LiBr Solution concentration: 50%

15. Rated exhaust temp. for cooling: 170°CRated exhaust temp. for heating: 145°C

16. Machine room temperature: 5~43°C, humidity�85%17. Adjustable chilled water flowrate: 50%~120% (according to

flowrate A)

18. Adjustable cooling water flowrate: 30%~140% (according toflowrate a)

19. Adjustable heating/hot water flowrate: 65%~120%20. Adjustable load: 5%~105%21. Rated direct-fired cooling COP: 1.31 (including electricity

consumption)Rated non direct-fired cooling COP: 1.37 (including electricityconsumption)

22. Rated direct-fired heating COP: 0.925Note: � (A)(a) is for recommendation. (B)(b) can be selected

without affecting cooling capacity and performance� Technical specification is based upon China NationalStandard GB/T 18362-2001 "Direct-fired lithium bromideabsorption chiller(heater)" or Japanese Industry StandardJIS B 8622 "Absorption Chiller"

300 400 500

PQUV QSRO RUNR

PMM QMM RMM

VVO NPOP NSRP

OSUT PRUO QQUV

OPN PMU PUS

SMM UMM NMMM

TT TT PU

QOV RTN TNQ

QO QO ON

UMS NMTR NPQQ

VT VT VP

NMOS NPSU NTNM

NQN NQN NPR

OUV PUR QUP

TM TM TM

NQQ NVP L

UM UM L

ONV OVO PSQ

OOT PMP PTV

OQM POM QMN

ORM PPP QNT

STSQ VMNU NNOTP

TTNQ NMOUR NOUUV

UVKP NNV NQV

NNP NRN NUU

NTR OPP OVO

NTKS OOKN PMKT

NOKN NRKV OMKT

L L L

NUKR ORKM OVKM

QUKP SNKS TQKR

600 800 1000 1200 1600 2000

SVTU VPMQ NNSPM NPVRS NUSMU OPOSM

SMM UMM NMMM NOMM NSMM OMMM

NVUQ OSQS PPMT PVSU ROVN SSNQ

RPUR TNTS UVST NMTRU NQPRN NTVPP

QSP SNT TTN VOR NOPQ NRQO

NOMM NSMM OMMM OQMM POMM QMMM

QS QS VM QS QS VM

URT NNQP NQOV NTNQ OOUS OURT

OR OR RM OR OR RM

NSNO ONRM OSUT POOR QPMN RPTR

NOU NOU NSR NOU NOU NSR

OMRO OTPT PQOM QNMR RQTP SUQM

NUU NUU OQM NUU NUU OQM

RTV TTN VSQ NNRS NRQP NVOU

TM TM TM TM TM TM

L L L L L L

L L L L L L

QPT RUP TOV UTR NNST NQRU

QRR SMT TRU VNM NONQ NRNS

QUN SQN UMN VSO NOUP NSMP

RMN SST UPQ NMMM NPPQ NSST

NPROT NUMPS OORQS OTMRR PSMTP QRMVN

NRQSM OMSMP ORTQR PMUUT QNOMR RNQVM

NTV OPU OVU PRT QTS RVR

OOS PMN PTS QRO SMP TRP

PRM QST RUP TMM VPQ NNST

PSKM QRKM SOKM TNKM UVKM NOP

OPKP OUKU PSKU QTKO RTKR TPKS

=L L L L L L

PRKM QRKM RRKM PRKM QRKM RRKM

UMKS VSKP NNO NSN NVP OOQ


Model =====BZHE

cooling capacity

ât

NMQâÅ~äLÜ

oí

heating capacity

ât

NMQâÅ~äLÜ

chilled water 7°C/12°C high flow(A)

flowrate ãPLÜ

pressure drop âm~

chilled water 7°C/14°C low flow(B)

flowrate ãPLÜ

pressure drop âm~

cooling water 37°C/30°C low flow(a)

flowrate ãPLÜ

pressure drop âm~

cooling water 37.5°C/32°C low flow(b)

flowrate ãPLÜ

pressure drop âm~

heating water

flowrate ãPLÜ

pressure drop âm~

hot water

flowrate ãPLÜ

pressure drop âm~

only direct-fired fuel consumption (BZ)

oil(cooling) âÖLÜ



gas(heating)=NMQâÅ~äLÜ

direct-firedHVU°C heat source waterHRMM°C exhaust (BZHE)

âÖLÜ

âÖLÜ

ãPLÜ

NMQâÅ~äLÜ

NMQâÅ~äLÜ

power===========ât

solution weight í



operation weight í

heat source W.consumption for heating

max. exhaustconsumption for coolingmax. exhaustconsumption for heating

Twelve years ago, we developed China's first commercial direct-fired air conditioning system. Wewere so excited, that we must have shared the feelings of:�= Thomas Edison when he invented electric light bulb 110 years ago,�= James Watt when he developed the steam engine 210 years ago, and even�= the first humans who drilled wood and made fire 18,000 years ago.The magic power of fire has not faded with the passage of time; it powers our world today and yetreminds us of those early dreamers in ancient times.Two years after our modern Chinese air conditioning invention, we set up our factory in the hills ofsouthern China. This facility, over time, has become a state-of-the-art industrial campus completewith: bustling production lines organized in the latest manufacturing methods, a research anddevelopment laboratory full of the latest chemical and material instrumentation, and an immense testplatform that verifies products before shipment and tests new products day and night. The air conditioningsystems powered by fire, heat sources and recycled energy is manufactured here and shipped toplaces throughout China and more than 30 countries worldwide.In China, BROAD gas air conditioning has provided more than ten thousand commercial and institutionalbuildings with cooling and heating operation. These systems have substantially contributed to a shiftfrom black energy into green energy in the country.Brookdale Community College located in New Jersey, pioneered the use BROAD gas air conditioningin American universities, triggering a chain of purchase orders from other schools and universities.BROAD developed the world's first exhaust gas-fired air conditioning system which recycles microturbineexhaust. This system is installed at the U.S. Department of Energy's Integration Test Laboratory at theUniversity of Maryland. Austin Energy has purchased the world's largest exhaust gas-fired chiller (10MWTH) coupled with gas turbine, which can save three million cubic meters of natural gas yearly.Some of the largest German pharmaceutical factories and world renowned universities like Boehringer,Schering and Ulm have adopted BROAD air conditioning powered by recycling industrial waste streams.Germany also boasts the largest BROAD bio-energy chiller in Europe, which pleases the environmentallyconscious Germans.Spain's newly built high profile buildings have selected nothing but BROAD gas air conditioning andheat recovery chillers. Projects like Forum Barcelona 2004 selected BROAD to further sustainabledevelopment and BROAD air conditioning is part of Madrid International Airport, one of the largestEuropean aviation centers. These projects exemplify Spain's deep commitment for the environmentand sustainable development.Malaysia's new government city of Putrajaya, known as the world's first eco-city, includes an eco-district cooling system that uses twelve BROAD mega-sized gas air conditioning systems in threephases to power its cooling applications. BROAD is the sole supplier of air conditioning chillers for thisproject. The Malaysian Prime Minister's office building, his palace and other governmental buildingsare all located here. We are proud that reliable and clean BROAD equipment is deemed the onlysolution to provide environmentally friendly air conditioning.In recent years BROAD successfully developed a house gas air conditioner known as BCT or BROADcomfort technology, which has turned over a new leaf in bringing clean energy to families andstandardizing residential energy management systems. In the first year after BCT came onto the market,it has become popular in more than ten countries including China, Italy, Spain, Greece, the US, Iranand Pakistan.In the past twelve years BROAD products have actually cut the construction investment in dozens ofpower stations for countries all over the world, saved four million tons of standard oil for customers,and reduced more than 10 million tons of CO2 emissions to the global environment.Global environmental deterioration is the critical issue faced by mankind today. The Greenhouse effect,a result of the increase in CO2 emissions, causes the most serious harm. Only by breaking away fromthe dependence upon fossil fuels and fully adopting renewable and recyclable energy can humankindmaintain this living space.Thus, those who will definitely be popular today are those who can master energy saving technologyand applications, as well as meet customers' longing for a clean environment in the future. Those whoknow inside out the miracle of fire will have the keys to our growing civilization.We are like our ancestors, who 800 generations ago mastered the miracle of the fire. We are likeJames Watt who harnessed the power of steam, and our idol Thomas Edison and his devotion totesting and retesting. Unlike our historical brothers and sisters however, our desire for knowledgediffers completely. Our hope is to minimize the use of the fire, and our ultimate goal is not to use fossil-fuel based fire and exploit the unquenchable fire in the universe-the sun-for cooling in summer andheating in winter to actualize mankind's endless pursuit of civilization.Two years ago, BROAD provided an American customer with its first solar air conditioning system,which has very impressive technical data. Today, BROAD solar engineers have worked out an ambitiousplan to commercialize the solar air conditioning worldwide. The plan is meticulous and aggressive.The first key finding in the plan is that customers in Beijing, Tokyo and New York can have solarcollectors, and the payback is within 3-5 years. The second key finding is that BROAD solar airconditioning can use solar energy on sunny days and natural gas on rainy days or at night sharing thesame practicability with conventional air conditioning.The greatest miracle of modern-day fire is the more than 1,000 young people with BROAD visionsworking in the hills of southern China writing a new chapter in the history of fire. These people seek toprotect an earth burnt by industrialization with the fire of the universe, restoring green hills, crystalrivers, clean cities and serene seas.

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It’s easy to produce an absorption chiller but no easy to make it with “practicability”.Practicability of BROAD absorption chillers features as follows:1. Intelligent operation, full-time operator free. On/off key or presetting on/off, or

setting auto on/off according to ambient temperature, variable chilled wateroutlet temperature can be auto set per weather changes (No other operation isneeded, including vacuum purge) .

2. Perfect control functions. From P & I diagram the control system can not onlycontrol the chiller but also the external system including cooling water quality,water temperature management and electricity saving periodically chargingdescaling chemicals and bactericide , regular water discharging, bypassingcooling water, inverter-controlled water pumps & cooling fan. This is acomplicated and costly control system for options, but a standard supply fromBROAD.

3. Network monitoring. 7/24/365 internet monitoring every chiller to modify orprecaution chiller poor running so that continuous operation and energyefficiency management can be ensured.

4. Easy installation. P & I diagram, external wiring diagram and piping reflecteasy designing and installation, less work and difficulty.

5. Separate heating doubles chiller’s life-span.6. Auto crystallization detection, freezing, auto decrystallizaiton, defreezing system

shoot the trouble crystallization that had puzzled absorption chillermanufacturers for more than 50 years.

7. Auto purge system. Use inline falling head purge device to auto purge collectionchamber so that the good vacuum condition can be maintained.

8. Plate heat exchanger. Solution is completely heat exchanged, only 2°C ~ 5°Ctemperature difference, which is 15% energy saving than tubular heatexchanger.

9. Turbulator in high - temperature generator (HTG) dramatically reduces exhaustheat loss, about 10% energy saving.

10. Refrigerant level probe avoids refrigerant water waste at part load, whichincreases energy efficiency.

BROAD has more than 50 patented technologies in absorption chillers, thesepatents are indispensable & ineluctable.It’s more important that the spirit of “Create added values for customers” works,BROAD is writing a new chapter in the history of absorption chillers, which had amarginal history for more than 50 years and has dominated the central airconditioning market today.After more than ten years’ great efforts BROAD has let customers all over the worldrealize the fact that absorption chillers are of easy operation and money saving. Whathas impressed customers is absorption chillers can be breakdown-free.Thus, BROAD has become the best seller in the United States, Europe and China.

PRODUCT FEATURES

340,000 m2 manufacturing base: BROAD Town, Changsha.

BROAD, established in 1988, is a private enterprise in China with over 1,600 staff members. BROAD is awarded as one of Top 20 - themost respected and admired company in China and also Top 16 - Chinese enterprises with international competition capability. No. 1taxpayer among Chinese private companies.

Note: BROAD pursues a policy of continuous product perfection. Catalog information is subject to changes without notice. Catalog Serial No:BY 084-04 © 2004 Copyright Reserved

CYBER TOWER, HAIDIAN DISTRICT, BEIJING, CHINATel: 86-10-82514688 Fax: 86-10-82515208 Zip: 100086BROAD TOWN, CHANGSHA, HUNAN, CHINATel: 86-731-4086688 Fax: 86-731-4610087http: //www.broad.com zip:410138

BROAD U.S.A. INC.401 Hackensack Ave. Suite 503 Hackensack, NJ 07601Tel: 1-201-678-3010 Fax: 1-201-678-3011 http: //www.broadusa.com

BROAD AIR CONDITIONING EUROPE SAS7, rue Corneille, 75006 Paris, FranceTel: 33-1-43251905 Fax: 33-1-43250098 http: //www.broad.com

broad ix absorption chillercooling water flowrate (a) of broad absorption chiller is 20%~30% less...

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