AC Solar Water Pump system
- Loading Port:
- Shekou
- Payment Terms:
- TT OR LC
- Min Order Qty:
- -
- Supply Capability:
- 300000 set/month
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Products
Solartech China Solar Water Pump is the pumping facility driven by solar energy, which consists of a solar pumping inverter and a pump. Solar water pumps kit is called solar pumping system combining with solar arrays designed according to different head and daily water flow for application. System is widely utilized for agriculture irrigation,desert control,pasture animal husbandry,city landscaping,daily water supply, etc.
In recent years, with the development of photovoltaic products from city application to huge demands of agriculture,pasture,desert areas, Solartech Solar Pond Pump has become the leading products combining photovoltaic industry with traditional industry such as agriculture water conservancy,desert control,daily water supply,city landscaping, etc.
Solartech Solar Pump driven by infinite solar energy, works from sunrise, and stops at sunset, need no connection to grid power nor diesel oil and battery. System can irrigate directly or store water instead of electricity in a reservoir. Solartech Solar fountain Pumps works with sprinkling irrigation, drip irrigation and infiltrating irrigation facilities, can be more efficient for water saving and dramatically lower the cost of using fossil energy.
Technical Features
Solar Water Pump is a pumping device powered by solar energy, consists of a solar pumping inverter and a deeo well pump, mainly used for agriculture irrigation, desert control, pasture animal husbandry, city waterscape, seawater desalination, living water supply and so on.
Use solar energy, need no connection to grid. Automatically operation, maintenance free.
Easy to install and move, high universality. Clean and green, high economic benefits.
Solartech solar pump kit also named solar water pumps, solar pond pump, solar borehole pump, solar funtain pumps, solar powered water pump, solar irrigation pump, solar deep well pump, and solar submersible pump.
Product Specifications
Model | Pump Spec. | Adapting Water Head | Daily Water Supply | Outlet internal Dia. | Adapting well Dia. | Recommended Open Circuit Voltage | Recommended MPP Voltage | |
SPA4370010 | 3PH 220V 50Hz | 47-32m | 1-10 m3 | 30mm | 1"1/4 | 100 mm | 350-450VDC | 280-350VDC |
SPA4370020 | 3PH 220V 50Hz | 29-20m | 10-20m3 | 30mm | 1"1/4 | 100 mm | 350-450VDC | 280-350VDC |
SPA4550010 | 3PH 220V 50Hz | 70-48m | 1-10m3 | 30mm | 1"1/4 | 100 mm | 350-450VDC | 280-350VDC |
SPA4550020 | 3PH 220V 50Hz | 40-28m | 10-20m3 | 30mm | 1"1/4 | 100 mm | 350-450VDC | 280-350VDC |
SPA4550040 | 3PH 220V 50Hz | 23-15m | 20-40m3 | 40mm | 1"1/2 | 100 mm | 350-450VDC | 280-350VDC |
SPA4750010 | 3PH 220V 50Hz | 81-56m | 1-10m3 | 30mm | 1"1/4 | 100 mm | 350-450VDC | 280-350VDC |
SPA4750020 | 3PH 220V 50Hz | 60-41m | 10-20m3 | 30mm | 1"1/4 | 100 mm | 350-450VDC | 280-350VDC |
SPA4750040 | 3PH 220V 50Hz | 29-19m | 20-40m3 | 40mm | 1"1/2 | 100 mm | 350-450VDC | 280-350VDC |
SPA4750060 | 3PH 220V 50Hz | 15-8m | 40-60m3 | 50mm | 2" | 100 mm | 350-450VDC | 280-350VDC |
SPA4750100 | 3PH 220V 50Hz | 7-6m | 60-100m3 | 50mm | 2" | 100 mm | 350-450VDC | 280-350VDC |
SPA41K1010 | 3PH 220V 50Hz | 93-63m | 1-10m3 | 30mm | 1"1/4 | 100 mm | 350-450VDC | 280-350VDC |
SPA41K1020 | 3PH 220V 50Hz | 79-54m | 10-20m3 | 30mm | 1"1/4 | 100 mm | 350-450VDC | 280-350VDC |
SPA41K1040 | 3PH 220V 50Hz | 43-27m | 20-40m3 | 40mm | 1"1/2 | 100 mm | 350-450VDC | 280-350VDC |
SPA41K1060 | 3PH 220V 50Hz | 23-12m | 40-60m3 | 50mm | 2" | 100 mm | 350-450VDC | 280-350VDC |
SPA41K1100 | 3PH 220V 50Hz | 12-8m | 60-100m3 | 50mm | 2" | 100 mm | 350-450VDC | 280-350VDC |
SPA41K5010 | 3PH 220V 50Hz | 128-87m | 1-10m3 | 30mm | 1"1/4 | 100 mm | 350-450VDC | 280-350VDC |
SPA41K5020 | 3PH 220V 50Hz | 99-68m | 10-20m3 | 30mm | 1"1/4 | 100 mm | 350-450VDC | 280-350VDC |
SPA41K5040 | 3PH 220V 50Hz | 51-33m | 20-40m3 | 40mm | 1"1/2 | 100 mm | 350-450VDC | 280-350VDC |
SPA41K5041 | 3PH 220V 50Hz | 60-39m | 20-40m3 | 40mm | 1"1/2 | 100 mm | 350-450VDC | 280-350VDC |
SPA41K5060 | 3PH 220V 50Hz | 29-15m | 40-60m3 | 50mm | 2" | 100 mm | 350-450VDC | 280-350VDC |
SPA41K5130 | 3PH 220V 50Hz | 10-7m | 100-130m3 | 50mm | 2" | 100 mm | 350-450VDC | 280-350VDC |
SPA41K5100 | 3PH 220V 50Hz | 20-12m | 60-100m3 | 65mm | 2"1/2 | 150 mm | 350-450VDC | 280-350VDC |
SPA42K2010 | 3PH 380V 50Hz | 163-111m | 1-10m3 | 30mm | 1"1/4 | 100 mm | 625-750VDC | 500-600VDC |
SPA42K2020 | 3PH 380V 50Hz | 145-90m | 10-20m3 | 30mm | 1"1/4 | 100 mm | 625-750VDC | 500-600VDC |
SPA42K2040 | 3PH 380V 50Hz | 79-51m | 20-40m3 | 40mm | 1"1/2 | 100 mm | 625-750VDC | 500-600VDC |
SPA42K2060 | 3PH 380V 50Hz | 50-27m | 40-60m3 | 50mm | 2" | 100 mm | 625-750VDC | 500-600VDC |
SPA42K2130 | 3PH 380V 50Hz | 17-12m | 100-130m3 | 50mm | 2" | 100 mm | 625-750VDC | 500-600VDC |
SPA42K2100 | 3PH 380V 50Hz | 30-18m | 60-100m3 | 65mm | 2"1/2 | 150 mm | 625-750VDC | 500-600VDC |
SPA43K0020 | 3PH 380V 50Hz | 187-114m | 10-20m3 | 30mm | 1"1/4 | 100 mm | 625-750VDC | 500-600VDC |
SPA43K0040 | 3PH 380V 50Hz | 105-65m | 20-40m3 | 40mm | 1"1/2 | 100 mm | 625-750VDC | 500-600VDC |
SPA43K0060 | 3PH 380V 50Hz | 67-37m | 40-60m3 | 50mm | 2" | 100 mm | 625-750VDC | 500-600VDC |
SPA43K0061 | 3PH 380V 50Hz | 79-43m | 40-60m3 | 50mm | 2" | 100 mm | 625-750VDC | 500-600VDC |
SPA63K0100 | 3PH 380V 50Hz | 40-24m | 60-100m3 | 65mm | 2"1/2 | 150 mm | 625-750VDC | 500-600VDC |
SPA63K0130 | 3PH 380V 50Hz | 23-16m | 100-130m3 | 65mm | 2"1/2 | 150 mm | 625-750VDC | 500-600VDC |
SPA63K0250 | 3PH 380V 50Hz | 18-9m | 130-250m3 | 76mm | 3" | 150 mm | 625-750VDC | 500-600VDC |
SPA44K0020 | 3PH 380V 50Hz | 225-149m | 10-20m3 | 30mm | 1"1/4 | 100 mm | 625-750VDC | 500-600VDC |
SPA44K0040 | 3PH 380V 50Hz | 145-89m | 20-40m3 | 40mm | 1"1/2 | 100 mm | 625-750VDC | 500-600VDC |
SPA44K0060 | 3PH 380V 50Hz | 94-55m | 40-60m3 | 50mm | 2" | 100 mm | 625-750VDC | 500-600VDC |
SPA44K0100 | 3PH 380V 50Hz | 50-32m | 60-100m3 | 50mm | 2" | 100 mm | 625-750VDC | 500-600VDC |
SPA64K0100 | 3PH 380V 50Hz | 56-36m | 60-100m3 | 65mm | 2"1/2 | 150 mm | 625-750VDC | 500-600VDC |
SPA64K0130 | 3PH 380V 50Hz | 30-22m | 100-130m3 | 65mm | 2"1/2 | 150 mm | 625-750VDC | 500-600VDC |
SPA64K0131 | 3PH 380V 50Hz | 37-27m | 100-130m3 | 65mm | 2"1/2 | 150 mm | 625-750VDC | 500-600VDC |
SPA64K0250 | 3PH 380V 50Hz | 26-13m | 130-250m3 | 76mm | 3" | 150 mm | 625-750VDC | 500-600VDC |
SPB64K0500 | 3PH 380V 51Hz | 17-6m | 150-500m3 | 76mm | 3" | 150 mm | 625-750VDC | 500-600VDC |
SPA45K5040 | 3PH 380V 50Hz | 172-111m | 20-40m3 | 40mm | 1"1/2 | 100 mm | 625-750VDC | 500-600VDC |
SPA45K5060 | 3PH 380V 50Hz | 113-62m | 40-60m3 | 50mm | 2" | 100 mm | 625-750VDC | 500-600VDC |
SPA45K5100 | 3PH 380V 50Hz | 67-44m | 60-100m3 | 50mm | 2" | 100 mm | 625-750VDC | 500-600VDC |
SPA65K5100 | 3PH 380V 50Hz | 75-48m | 60-100m3 | 65mm | 2"1/2 | 150 mm | 625-750VDC | 500-600VDC |
SPA65K5130 | 3PH 380V 50Hz | 53-39m | 100-130m3 | 65mm | 2"1/2 | 150 mm | 625-750VDC | 500-600VDC |
SPA65K5250 | 3PH 380V 50Hz | 35-21m | 130-250m3 | 76mm | 3" | 150 mm | 625-750VDC | 500-600VDC |
SPB65K5500 | 3PH 380V 50Hz | 25-10m | 150-500m3 | 76mm | 3" | 150 mm | 625-750VDC | 500-600VDC |
SPA47K5040 | 3PH 380V 50Hz | 237-147m | 20-40m3 | 40mm | 1"1/2 | 100 mm | 625-750VDC | 500-600VDC |
SPA47K5060 | 3PH 380V 50Hz | 137-75m | 40-60m3 | 50mm | 2" | 100 mm | 625-750VDC | 500-600VDC |
SPA47K5100 | 3PH 380V 50Hz | 87-57m | 60-100m3 | 50mm | 2" | 100 mm | 625-750VDC | 500-600VDC |
SPA67K5100 | 3PH 380V 50Hz | 114-67m | 60-100m3 | 65mm | 2"1/2 | 150 mm | 625-750VDC | 500-600VDC |
SPA67K5130 | 3PH 380V 50Hz | 67-50m | 100-130m3 | 65mm | 2"1/2 | 150 mm | 625-750VDC | 500-600VDC |
SPA67K5250 | 3PH 380V 50Hz | 44-25m | 130-250m3 | 76mm | 3" | 150 mm | 625-750VDC | 500-600VDC |
SPA67K5251 | 3PH 380V 50Hz | 52-30 m | 130-250m3 | 76mm | 3" | 150 mm | 625-750VDC | 500-600VDC |
SPB67K5500 | 3PH 380V 50Hz | 33-15m | 150-500m3 | 76mm | 3" | 150 mm | 625-750VDC | 500-600VDC |
SPA69K2100 | 3PH 380V 50Hz | 140-85m | 40-100m3 | 65mm | 2"1/2 | 150 mm | 625-750VDC | 500-600VDC |
SPA69K2103 | 3PH 380V 50Hz | 83-60m | 100-130m3 | 65mm | 2"1/2 | 150 mm | 625-750VDC | 500-600VDC |
SPA69K2250 | 3PH 380V 50Hz | 62-40m | 130-250m3 | 76mm | 3" | 150 mm | 625-750VDC | 500-600VDC |
SPB69K2500 | 3PH 380V 50Hz | 42-20m | 150-500m3 | 76mm | 3" | 150 mm | 625-750VDC | 500-600VDC |
SPA611K100 | 3PH 380V 50Hz | 159-97m | 40-100m3 | 65mm | 2"1/2 | 150 mm | 625-750VDC | 500-600VDC |
SPA611K130 | 3PH 380V 50Hz | 105-77m | 100-130m3 | 65mm | 2"1/2 | 150 mm | 625-750VDC | 500-600VDC |
SPA611K250 | 3PH 380V 50Hz | 72-46m | 130-250m3 | 76mm | 3" | 150 mm | 625-750VDC | 500-600VDC |
SPB611K500 | 3PH 380V 50Hz | 50-23m | 150-500m3 | 76mm | 3" | 150 mm | 625-750VDC | 500-600VDC |
SPA613K100 | 3PH 380V 50Hz | 189-115m | 40-100m3 | 65mm | 2"1/2 | 150 mm | 625-750VDC | 500-600VDC |
SPA613K130 | 3PH 380V 50Hz | 120-88m | 100-130m3 | 65mm | 2"1/2 | 150 mm | 625-750VDC | 500-600VDC |
SPA613K250 | 3PH 380V 50Hz | 81-52m | 130-250m3 | 76mm | 3" | 150 mm | 625-750VDC | 500-600VDC |
SPB613K500 | 3PH 380V 50Hz | 59-27m | 150-500m3 | 76mm | 3" | 150 mm | 625-750VDC | 500-600VDC |
SPA615K100 | 3PH 380V 50Hz | 208-127m | 40-100m3 | 65mm | 2"1/2 | 150 mm | 625-750VDC | 500-600VDC |
SPA615K130 | 3PH 380V 50Hz | 135-99m | 100-130m3 | 65mm | 2"1/2 | 150 mm | 625-750VDC | 500-600VDC |
SPA615K250 | 3PH 380V 50Hz | 88-58m | 130-250m3 | 76mm | 3" | 150 mm | 625-750VDC | 500-600VDC |
SPB615K500 | 3PH 380V 50Hz | 67-31m | 150-500m3 | 76mm | 3" | 150 mm | 625-750VDC | 500-600VDC |
SPA618K130 | 3PH 380V 50Hz | 143-109m | 100-130m3 | 65mm | 2"1/2 | 150 mm | 625-750VDC | 500-600VDC |
SPA618K250 | 3PH 380V 50Hz | 101-63m | 130-250m3 | 76mm | 3" | 150 mm | 625-750VDC | 500-600VDC |
SPB618K500 | 3PH 380V 50Hz | 83-39m | 150-500m3 | 76mm | 3" | 150 mm | 625-750VDC | 500-600VDC |
SPC822K270 | 3PH 380V 50Hz | 86-70m | 210-270m³ | 65mm | 2.5" | 250-300mm | 625-750VDC | 500-600VDC |
SPC822K330 | 3PH 380V 50Hz | 70-55m | 270-330m³ | 76mm | 3" | 250-300mm | 625-750VDC | 500-600VDC |
SPC822K420 | 3PH 380V 50Hz | 55-48m | 330-420m³ | 76mm | 3" | 250-300mm | 625-750VDC | 500-600VDC |
SPC822K540 | 3PH 380V 50Hz | 48-36m | 420-540m³ | 100mm | 4" | 250-300mm | 625-750VDC | 500-600VDC |
SPC822K700 | 3PH 380V 50Hz | 36-25m | 540-700m³ | 100mm | 4" | 250-300mm | 625-750VDC | 500-600VDC |
SPC826K270 | 3PH 380V 50Hz | 105-85m | 210-270m³ | 65mm | 2.5" | 250-300mm | 625-750VDC | 500-600VDC |
SPC826K330 | 3PH 380V 50Hz | 85-65m | 270-330m³ | 76mm | 3" | 250-300mm | 625-750VDC | 500-600VDC |
SPC826K420 | 3PH 380V 50Hz | 65-55m | 330-420m³ | 76mm | 3" | 250-300mm | 625-750VDC | 500-600VDC |
SPC826K700 | 3PH 380V 50Hz | 44-30m | 540-700m³ | 100mm | 4" | 250-300mm | 625-750VDC | 500-600VDC |
SPC830K270 | 3PH 380V 50Hz | 125-105m | 210-270m³ | 65mm | 2.5" | 250-300mm | 625-750VDC | 500-600VDC |
SPC830K330 | 3PH 380V 50Hz | 105-85m | 270-330m³ | 76mm | 3" | 250-300mm | 625-750VDC | 500-600VDC |
SPC830K420 | 3PH 380V 50Hz | 85-70m | 330-420m³ | 76mm | 3" | 250-300mm | 625-750VDC | 500-600VDC |
SPC830K540 | 3PH 380V 50Hz | 70-52m | 420-540m³ | 100mm | 4" | 250-300mm | 625-750VDC | 500-600VDC |
SPC830K700 | 3PH 380V 50Hz | 52-35m | 540-700m³ | 100mm | 4" | 250-300mm | 625-750VDC | 500-600VDC |
SPC837K270 | 3PH 380V 50Hz | 150-125m | 210-270m³ | 65mm | 2.5" | 250-300mm | 625-750VDC | 500-600VDC |
SPC837K330 | 3PH 380V 50Hz | 125-100m | 270-330m³ | 76mm | 3" | 250-300mm | 625-750VDC | 500-600VDC |
SPC837K420 | 3PH 380V 50Hz | 100-80m | 330-420m³ | 76mm | 3" | 250-300mm | 625-750VDC | 500-600VDC |
SPC837K540 | 3PH 380V 50Hz | 80-60m | 420-540m³ | 100mm | 4" | 250-300mm | 625-750VDC | 500-600VDC |
SPC837K700 | 3PH 380V 50Hz | 60-40m | 540-700m³ | 100mm | 4" | 250-300mm | 625-750VDC | 500-600VDC |
SPC845K270 | 3PH 380V 50Hz | 180-145m | 210-270m³ | 65mm | 2.5" | 250-300mm | 625-750VDC | 500-600VDC |
SPC845K330 | 3PH 380V 50Hz | 145-120m | 270-330m³ | 76mm | 3" | 250-300mm | 625-750VDC | 500-600VDC |
SPC845K420 | 3PH 380V 50Hz | 120-98m | 330-420m³ | 76mm | 3" | 250-300mm | 625-750VDC | 500-600VDC |
SPC845K540 | 3PH 380V 50Hz | 98-72m | 420-540m³ | 100mm | 4" | 250-300mm | 625-750VDC | 500-600VDC |
SPC845K700 | 3PH 380V 50Hz | 72-50m | 540-700m³ | 100mm | 4" | 250-300mm | 625-750VDC | 500-600VDC |
SPC855K270 | 3PH 380V 50Hz | 200-170m | 210-270m³ | 65mm | 2.5" | 250-300mm | 625-750VDC | 500-600VDC |
SPC855K330 | 3PH 380V 50Hz | 170-155m | 270-330m³ | 76mm | 3" | 250-300mm | 625-750VDC | 500-600VDC |
SPC855K420 | 3PH 380V 50Hz | 155-125m | 330-420m³ | 76mm | 3" | 250-300mm | 625-750VDC | 500-600VDC |
SPC855K540 | 3PH 380V 50Hz | 125-95m | 420-540m³ | 100mm | 4" | 250-300mm | 625-750VDC | 500-600VDC |
SPC855K700 | 3PH 380V 50Hz | 95-65m | 540-700m³ | 100mm | 4" | 250-300mm | 625-750VDC | 500-600VDC |
- Q: A Honda timing belt is suppose to be replaced every 90,000 miles but is it necessary to replace the water pump at the same time? How long will a water pump last? I never had a water pump fail on any Honda I have owned. Of course that is probably because I always had it replaced with the timing belt?
- It is remarkably frustrating to pay for timing belt replacement then to have to pay for timing belt replacement plus water pump. If the cooling system has only had the proper Honda coolant and distilled water (or premix) replaced on schedule the odds are with you; if not... not. I learned the hard way that conventional green coolant attacks the water pump seal (first source). Really, it is your choice. However, be aware that water pump seizure is not all that uncommon. A friend of the family had a Ford that had a seized water pump when it was 4 years old - the car was out of warranty but still had a year of payments to go. It was a 90-something Escort with an interference engine and she had to replace the engine because the fragments of the valve seats ruined the pistons and cylinder walls. When I was active in Volvo forums a member had a water pump seize a few months after the timing belt was changed and it did $6000 damage. Your choice, but I always change the pump.
- Q: How many lift pumps should be used for 100 meters tall buildings?
- 35m lift around. HVAC pump lift is generally between 5~50m, the selection of the head is mainly to see the difference between water pressure. As head of 35m as an example, if the inlet height of 60m, so the theory of height =60+35=95m, if all pipe closed air conditioning water system, and resistance of the equipment for water is equal to the pressure difference is equal to the pump head to choose your height, and out of the water is the same, the resistance loss of lift all into the water. The calculated resistance loss is needed to pump lift. The resistance component (1) chiller resistance at 60-100kpa (2) water collector resistance in 120-200kpa (3) 20-50kpa (4) air terminal equipment body resistance is generally not less than 40kpa so 100m building the resistance calculation of estimated value = (1) 80kp+ (2) chiller resistance pipe, the collector resistance (140kpa+ 3) air terminal equipment 40kpa+ (4) body resistance 50kp=310kpa safety factor of 10% 320x1.1=341kpa H= P/ (head of pressure water density * acceleration of gravity g =352000/ (10m) X9.8 =34.8m fand) so we head for 35 meters
- Q: how to install a main pipe water pump to service the community?
- Installation of water pump is very easy, any certified plumber and electrician can install electric water pump. Your question maybe is, how to design water pump water system to service the community? To determine the correct rating of water pump to be used and to design a water system, here are the steps : 1) Determine the safe discharge yield of your well for your water source, by series of tests. This will enable you to know discharge rate of well and the draw back time of water after pumping. This data will be used for designing a pump (its discharge capacity). Note that pump discharge capacity should be lower than well safe yield capacity in order not to drain the well. 2) Determine the suction lift or height of water table in the well by measuring the height from water table up to the top of the well. This data will be used for pump design (its suction lift/height capacity). Pumps suction lift varies depends on its Horsepower capacity and the type of pump (submersibble or centrifugal). 3) Determine number of households in the community. This data will be used for the design of reservoir (tank) for your water system and the number of hours for the pump to operate to fill the tank. Note that the average usage of water is 120 liters per day per capita. So the more the number of population, the bigger the tank and the longer the pumping time in order to meet the per capita usage. 4) Determine the elevations from your water source towards the community to be served. Use survey instrument to determine the elevations. This data will be used to design a height of the tank and the sizes of service pipes towards the community. The higher the difference in elevation from your source towards community, the lower the height of the tank and the smaller the sizes of service pipes. Sizes of service pipes can be determined by hydraulic heads (heights). By following these steps, I gues you can now design and construct a water system.
- Q: First the shop put in a heater core, but it was still leaking and overheating. Next they put in a water pump. Went to get it and now it wines really loud and the engine use to purr like a kitten, couldn't even tell it was running, now the engine shakes the whole car and it died one the way home but started again. The shop said the cam positioning needs reset again and on the way back to the shop it died again. So from leaking anti-freeze to now it vibrates, dies and wines really loud ! Any ideas what they did wrong ?
- Matbe they forgot to replace water pump gasket, timing belt not aligned with timing of engine.
- Q: how to replace water pump 97 pontiac bonneville?
- It depends on which engine you have, with or without a supercharger. The non-supercharged engine is a piece of cake. the supercharged one is a bit of a pain to get at the water pump. On the non-supercharged engine, all you need to do is remove the serpentine belt, the water pump pulley and the bolts that hold the water pump to the front cover. I have detailed instructions if you send me your email address I can give them to you. They are from GM Service Information website. I can't give you the link to the website because I have to enter a password to enter the site through work.
- Q: Power went out of my house and we just had it restored, though now the water is no longer running. We called the people who installed our pump and they told us they would need to dig up the well which is going to cost $1500. However i remember a time before where this happened and all we needed to was reset the switch. Do you think these ppl are trying to get me for my money? Does anyone know if there is a less expensive way?
- What i don't understand is how they could know that they needed to dig up the well BEFORE they got there to troubleshoot it. They need to know circuits aren't tripped which easily could have happened if the well was running when the power went out, or if the power came back on......and the well pump just ran and ran without prime ( Without water running through it) So I would check the breakers or fuses first.......and call a second opinion, it doesn't seem right for them to quote you over the phone like that. Could be as simple as the well lost its prime.
- Q: PROline Dishwasher has Broken down, after a detailed Examination of the appliance we have managed to conclude it is the Water Pump, I'm looking to find a new one to repair it myself but would like to know if any make one would fit, as Finding a PROline Water Pump has proven Great Difficulty, Any Knowledge of the matter would be greatly appreciated, Thank you
- Before you replace the pump, make sure that the hose to the pump is not blocked with food. This is a common problem. You probably have to match pump for pump. Google the part on line, they will mail it to you. OR check the yellow pages for dishwasher parts, they will answer you questions, and usually tell you how to fix it if you buy the part from them.
- Q: Hi, I need to create a portable shower and was going to go the DIY route, i wanted to use water pumps normally used in ponds, aquariums etc etc as the means of creating water pressure for the shower, the shower need not be really strong in pressure but it should be strong enough such that a person can take a bath using it.height of the shower would for sure be less then 6 feet,question , water pumps are rated at gallons per minute or some equivalent rating, how strong a pump or how much GPM should i be looking at ?
- Himin newly has launched a solar patented booster pump for non-pressure solar water heater and it's quiet and gives comfortable pressure for shower.This pump fits for area where water pressure is small or rural area.
- Q: I have a '97 Grand Prix with a 3800 V-6. There is a single bolt on the left side of the water pump that is directly behind the power steering pump pulley. How do you get the PS pump pulley off? I pulled a tricep trying to get this thing loose, and I'm no further now than when I started on it. Can anybody give me a tip on removing the pulley or the whole PS pump? I have a brand new water pump that I can't get on because of this fine piece of design by the brilliant engineers at GM!
- you dont have to pull the power steeing pulley off...There three holes in the power steering pulley that allow access to two or possible three bolt that hold the pump to the bracket... Remove the belt, then get a deep either 13 mm or 10 mm socket and place it in one of the holes in the pulley...you will find that when you remove the bolts, the pump will slide out of the way.... Do not remove any powersteeing lines or any other item from the power steering pump..You will only be causing yourself more work..... The brillant engineers at GM left you an out...All you have to do is look...ha ha
- Q: I don't want to have to rent or purchase a electric pump to pump the water out of my pool so are there other ways to get the water out besides the obvious (a bucket and alot of people). I am really tight on money so purchasing a device to do the work isn't a real option but I really need to drain the pool without damaging it.
- On the off chance that you have a close area that is down hill from the bottom of the pool you could siphon it. Not a likely situation though. Siphoning is using a small hose, garden hose will probably be too big and sucking on the end of the hose to draw water though it. Once it starts flowing if the end is downhill from the bottom of the pool it will drain the pool all on its own.
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AC Solar Water Pump system
- Loading Port:
- Shekou
- Payment Terms:
- TT OR LC
- Min Order Qty:
- -
- Supply Capability:
- 300000 set/month
OKorder Service Pledge
OKorder Financial Service
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