solar pumps - overflux 1, overflux 2, overflux 3
DESCRIPTION
APPLICATIONS. Raising clean water from deep wells in systems powered by solar energy.FEATURES. The new system is composed of three elements:• photovoltaic panels• controller• electric pumpTRANSCRIPT
solar
centrifugal
self-priming
manual
ball valves
stainless steel pumps
APPLICATIONS. Raising clean water from deep wells in systems powered by solar energy.
FEATURES. The new system is composed of three elements:• photovoltaic panels • controller• electric pumpThe controller powers the electric pump in sunshine, without sun the system doesn’t work. Accumulators for electric power are not necessary because with this system the water is pumped and stocked during the day for an eventual use during the night. For a correct use, the controller must be supplied with voltage of 320 Vcc or 560 Vcc. The controller, right installed and calibrated, can stop the pump when the delivery outlet is closed, it is equipped with a dry running alarm and it stops the pump in case of excessive power consumption. Working voltage of the pump: three-phase 230 V, three-phase 400 V: in this way the absorptions are really limited.
OPERATING CONDITIONS• The controller must be installed in a
protected and airy area.• Controller working temperature: min 5°C
– max 50°C.• Pumped liquid: clean water, non
aggressive, without solid particles.• The pump can not operate in dry
conditions.• Pump body always completely
submerged.• Temperature of pumped liquid: min 5°C –
max 30°C.• Vertical operating position. • Max number of starts per hour: 20.
accessories
- OVERFLUX 1- OVERFLUX 2- OVERFLUX 3 APPLICAZIONI. Per il sollevamento
dell’acqua da pozzi profondi in impianti alimentati da energia solare.
CARATTERISTICHE. L’innovativo impianto si compone di tre elementi:• i pannelli fotovoltaici• controller• l’elettropompaIl controller lavora in presenza della tensione fornita dai pannelli fotovoltaici, in assenza della quale l’impianto non funziona. Non necessita di batterie d’accumulo per l’energia elettrica in quanto, con questo sistema, l’acqua viene pompata e stoccata durante il giorno, per l’eventuale utilizzo durante la notte. Il controller viene fornito con un trasduttore di pressione: per un corretto funzionamento deve essere alimentato a 130 Vcc (max 15 A). Il controller opportunamente installato e tarato, può spegnere l’elettropompa in caso di mandata chiusa, è dotato di marcia a secco e blocca il motore in caso di assorbimento eccessivo. L’elettropompa funziona con una tensione di lavoro trifase 230 V; ciò fa sì che gli assorbimenti siano particolarmente contenuti. L’elettropompa è fornita con 30 m di cavo elettrico H07RN-F.
CONDIZIONI DI LAVORO• Il controller deve essere posizionato in
ambiente protetto e ventilato.• Temperatura di esercizio controller: min 5°C
- max 40°C.• Liquido pompato: acqua pulita non
aggressiva, priva di sedimenti solidi.• La pompa non può girare a secco.• Corpo pompa sempre completamente
immerso.• Temperatura del liquido pompato: min 5°C -
max 30°C.• Posizione di funzionamento elettropompa
verticale.• Numero max avviamenti orari elettro-
pompa: 20.
APPLICATIONS. Raising clean water from deep wells in systems powered by solar energy.
FEATURES. The new system is composed of three elements:• photovoltaic panels• controller• electric pumpThe controller powers the electric pump in sunshine, without sun the system doesn’t work. Accumulators for electric power are not necessary because with this system the water is pumped and stocked during the day for an eventual use during the night. The controller is supplied with a pressure transducer; for a correct use the controller must be supplied with voltage of 130 Vdc (max 15 A). The controller, right installed and calibrated, can stop the pump when the delivery outlet is closed, it is equipped with a dry running alarm and it stops the pump in case of excessive power consumption. The electric pump works with working voltage three-phase 230 V; in this way the absorptions are really limited.The electric pump is supplied with 30 m of H07RN-F electric cable.
OPERATING CONDITIONS• The controller must be installed in a
protected and airy area.• Controller working temperature: min
5°C – max 40°C.• Pumped liquid: clean water, non
aggressive, without solid particles.• The pump can not operate in dry
conditions.• Pump body always completely
submerged.• Temperature of pumped liquid: min 5°C
– max 30°C.• Vertical operating position.• Max number of starts per hour: 20.
APPLICAZIONI. Per il sollevamento dell’acqua da pozzi profondi in impianti alimentati da energia solare.
CARATTERISTICHE. L’innovativo impianto si compone di tre elementi:• i pannelli fotovoltaici• controller• l’elettropompaIl controller lavora in presenza della tensione fornita dai pannelli fotovoltaici, in assenza della quale l’impianto non funziona. Non necessita di batterie d’accumulo per l’energia elettrica in quanto, con questo sistema, l’acqua viene pompata e stoccata durante il giorno, per l’eventuale utilizzo durante la notte. Per un corretto funzionamento il controller deve essere alimentato a 320 Vcc o 560 Vcc. Il controller, opportunamente installato e tarato, può spegnere l’elettropompa in caso di mandata chiusa, è dotato di marcia a secco e blocca il motore in caso di assorbimento eccessivo. L’elettropompa funziona con una tensione di lavoro trifase 230 V e trifase 400 V; ciò fa sì che gli assorbimenti siano particolarmente contenuti.
CONDIZIONI DI LAVORO• Il controller deve essere posizionato in
ambiente protetto e ventilato.• Temperatura di esercizio controller: min
5°C - max 50°C.• Liquido pompato: acqua pulita non
aggressiva, priva di sedimenti solidi.• La pompa non può girare a secco.• Corpo pompa sempre completamente
immerso.• Temperatura del liquido pompato: min
5°C - max 30°C.• Posizione di funzionamento elettropompa
verticale.• Numero max avviamenti orari elettro-
pompa: 20.
OVERFLUX 1 OVERFLUX 2/3
Fluxinos Italia s.r.l.Via Genova 8 58100 Grosseto Italy +39 0564 451272 Fax +39 0564 454237
www.fluxinos.it [email protected] www.fluxinos.com
Fluxinos Fluxinos FluxinosFluxinos
• drinking water supply • irrigation • livestock watering • cleanest and renewable energy (the sun) • fast and failure free installation • no human resources • maximum reliability • low cost of ownership
Controller
Overflux 1 Overflux 3Overflux 2Pump
External appearance and technical characteristics may be modified at any moment without notice
Overflux 1 Overflux 2 Overflux 3
depth in metres
FGA131KW 1,3
FCR191KW 1,3
FIO122KW 2,6
FOM222KW 2,6
FCR372KW 2,6
FIO173KW 5,6
FSI203KW 5,6
FKA403KW 5,6
10 38.30 mc/day5.35 mc/hr
22.80 mc/day3.21 mc/hr
148.00 mc/day23.30 mc/hr
73.60 mc/day10.50 mc/hr
25.00 mc/day3.55 mc/hr
173.00 mc/day22.80 mc/hr
94.30 mc/day13.60 mc/hr
47.80 mc/day6.84 mc/hr
25 29.20 mc/day4.23 mc/hr
20.30 mc/day2.90 mc/hr
75.26 mc/day13.78 mc/hr
67.00 mc/day10.20 mc/hr
25.00 mc/day3.55 mc/hr
121.00 mc/day16.70 mc/hr
94.30 mc/day13.60 mc/hr
47.80 mc/day6.84 mc/hr
50 6.30 mc/day1.56 mc/hr
10.75 mc/day2.07 mc/hr
3.92 mc/day2.12 mc/hr
41.34 mc/day7.20 mc/hr
22.9 mc/day3.25 mc/hr
44.40 mc/day7.80 mc/hr
58.65 mc/day10.50 mc/hr
44.97 mc/day6.51 mc/hr
75 2.77 mc/day0.26 mc/hr
19.29 mc/day4.45 mc/hr
17.49 mc/day2.20 mc/hr
1.92 mc/day0.73 mc/hr
25.80 mc/day6.53 mc/hr
35.66 mc/day5.72 mc/hr
100 7.20 mc/day2.12 mc/hr
12.72 mc/day2.39 mc/hr
5.30 mc/day2.04 mc/hr
26.49 mc/day4.82 mc/hr
125 1.10 mc/day0.33 mc/hr
8.11 mc/day1.95 mc/hr
19.00 mc/day3.92 mc/hr
150 3.64 mc/day1.43 mc/hr
11.84 mc/day3.02 mc/hr
175 2.18 mc/day0.87 mc/hr
5.60 mc/day1.56 mc/hr
200 0.74 mc/day0.29 mc/hr
1.83 mc/day0.86 mc/hr
225 0.69 mc/day0.39 mc/hr
00
50
100
150
25
75
125
175
200
225
50 100 150
Q [mc/day]
FCR191
OVERFLUX1
FGA131
250
[m]H
Wr = 1.3 kW
Technical data Overflux 1
FGA131
FCR191
1,3
1,3
3,9
3,8
1” 1/4
1” 1/4
868
938
17,2
17,9
6,5
6,5
105
105
Controllerinput power
Max current Outlet Dimensionsmm.
WeightKg.Model
kW 230 V Ø H PumpØ Controller
250
00
50
100
150
25
75
125
175
200
225
50 100 150
Q [mc/day]
FCR372
OVERFLUX2
[m]H
FIO122FOM222
Wr = 2.6 kW
Technical data Overflux 2
FIO122
FOM222
FCR372
2,6
2,6
2,6
10 -
9,9 -
9,9 -
2”
2”
1” 1/4
1627
1532
1485
24,9
24,3
22,8
8,2
8,2
8,2
105
105
105
Controllerinput power
Max current Outlet Dimensionsmm.
WeightKg.Model
kW 230 V 400 V Ø H PumpØ Controller
00
50
100
150
25
75
125
175
200
225
50 100 150
Q [mc/day]
FSI203 FIO173FKA403
250
[m]H
OVERFLUX3
Wr = 5.6 kW
Technical data Overflux 3
FIO173
FSI203
FKA403
5,6
5,6
5,6
- 8,2
- 8,2
- 8,3
2”
2”
1” 1/4
2017
1807
1808
27,4
26,0
25,9
8,5
8,5
8,5
105
105
105
Controllerinput power
Max current Outlet Dimensionsmm.
WeightKg.Model
kW 230 V 400 V Ø H PumpØ Controller
Total range performances
Flow rate**The table depicts the typical performance of the pump in tropical environment condi-tions with an insolation of 5,5kWh/m2/per day, and with optimal solar panel dimensions (as in: Vp = 130V and lp = 14A for the OVERFLUX 1, Vp = 490V and lp = 7A for the OVER-FLUX 2, Vp = 540V and lp = 14A for the OVERFLUX 3). Increased or decreased solar panel performances are acceptable and will result in incre-ased or decreased hourly and daily performances in relation to the above table.In case of temperate/moderate climates, the daily summer and winter capabilities may deviate from the original values by ±16%.The reference powers indicated in the above table (Wr) are the typical powers given by the entry of the “controller”.The nominal photovoltaic conventional powers (Wp) corresponding to the optimal di-mensions are approximately 1,4 times superior to the typical powers at the entry of the “controller” (example: Wr = 2,6kW; Wp = 3,7kW), whilst the number of solar panels will depend on the type and size of the panels.The real voltage at starting temperatures and at open circuit of the solar panels will never have to exceed: OVERFLUX 1 = 180V, OVERFLUX 2 = 650V, OVERFLUX 3 = 850V !