Product Introduction
An irrigation solar booster pump is a customized water pressure enhancer that runs only on solar energy. Its main purpose is to raise the pressure and flow force of water that is already in a distribution system, as opposed to conventional solar water pumps that are made to raise water from a source.
When water is available but there isn't enough pressure for efficient end-use, this system is especially helpful. Enhancing the range and consistency of drip or sprinkler irrigation systems, increasing water pressure for home plumbing, and guaranteeing adequate water force for livestock watering locations are typical uses.
SSCPM Integrated DC Controller Type
|
No. |
Pump |
Controller |
Solar Panels |
|||||||
|
WASSERMANN CODE |
Ref.# |
R. flow (m³/h) |
Motor power (HP) |
Connection (inch) |
Drive Type |
Power(KW) |
AC Voltage Range(V) |
VOC Range (V) |
MPPT Voltage Range(V) |
|
|
115 |
SSCPM5/0.75HP-IN |
10m³/h-32m-48V-550W |
5 |
0.75 |
1.25"x1" |
Integrated |
0.55 |
/ |
30-110V |
60-90V |
|
116 |
SSCPM5.2/1HP-IN |
11.5m³/h-40m-72V-750W |
5.2 |
1 |
1.25"x1" |
Integrated |
0.75 |
/ |
50-170V |
90-120V |
|
117 |
SSCPM6/1.2HP-IN |
12.5m³/h-44m-72V-900W |
6 |
1.2 |
1.25"x1" |
Integrated |
0.9 |
/ |
50-170V |
90-120V |
SSCPM External DC Controller Type
|
No. |
Pump |
Controller |
Solar Panels |
|||||||
|
WASSERMANN CODE |
Ref.# |
R. flow (m³/h) |
Motor power (HP) |
Connection (inch) |
Drive Type |
Power(KW) |
AC Voltage Range(V) |
VOC Range (V) |
MPPT Voltage Range(V) |
|
|
118 |
SSCPM5/0.75HP |
10m³/h-32m-48V-550W |
5 |
0.75 |
1.25"x1" |
External |
0.55 |
/ |
30-110V |
60-90V |
|
119 |
SSCPM5.2/1HP |
11.5m³/h-40m-72V-750W |
5.2 |
1 |
1.25"x1" |
External |
0.75 |
/ |
50-170V |
90-120V |
|
120 |
SSCPM6/1.2HP |
12.5m³/h-44m-72V-900W |
6 |
1.2 |
1.25"x1" |
External |
0.9 |
/ |
50-170V |
90-120V |
SSCPM External AC/DC Automatic Controller Type
|
No. |
Pump |
Controller |
Solar Panels |
|||||||
|
WASSERMANN CODE |
Ref.# |
R. flow (m³/h) |
Motor power (HP) |
Connection (inch) |
Drive Type |
Power(KW) |
AC Voltage Range(V) |
VOC Range (V) |
MPPT Voltage Range(V) |
|
|
121 |
SSCPM5.2/1HP-A/D |
11.5m³/h-40m-96V-750W |
5.2 |
1 |
1.25"x1" |
AC/DC |
0.75 |
80-280V |
80-430V |
96-350V |
|
122 |
SSCPM6/1.2HP-A/D |
12.5m³/h-44m-96V-900W |
6 |
1.2 |
1.25"x1" |
AC/DC |
0.9 |
80-280V |
80-430V |
96-350V |
Performance Curves
Free Accessories
Packaging
Working Principle
Solar booster pump for irrigation works by using solar panels, also known as photovoltaic panels, to convert sunlight into electricity. This electricity powers a motor that runs the pump. It's a simple, efficient system that uses the sun's energy to pump water without the need for external power sources or fuel.
Benefits Of Using Solar Booster Pump For Irrigation
- Energy saving and environmental protection, green travel
Solar energy is the power source for solar booster pumps. They don't use conventional fossil fuels like coal, oil, and natural gas while they're operating. As a result, they are free of environmental pollution and do not emit dangerous gasses like carbon dioxide and sulfur dioxide. These are genuinely eco-friendly and green products.
- Low cost, economical and practical
Solar booster pumps may have a somewhat greater initial investment cost than conventional water pumps, but their ongoing operating expenses are essentially insignificant. As long as it is exposed to sunshine, it can function without the need to purchase energy-related expenses like oil and electricity. Long-term use results in significant energy cost savings, and the original expenditure can be swiftly recouped, making it extremely cost-effective.
- Stable, reliable and adaptable
One reliable and generally accessible energy source is solar energy. The solar booster pump may function correctly as long as there is sunlight. Simultaneously, as science and technology continue to progress, solar booster pump technology has matured and its stability and dependability have significantly increased.
- Easy installation and easy maintenance
Complex power wiring projects are not necessary for the comparatively easy installation of the solar booster pump system. It can be used by simply installing the solar panels in a sunny location and connecting the pipeline and water pump.
Application Scenarios
FAQ
How High Can Solar Pumps Lift Water?
"How high can they lift water?" is one of the most often asked concerns concerning solar pumps. Some pumps may raise water up to 1,000 feet, therefore the answer varies. The type of pump, motor efficiency, and accessible solar energy are the primary determinants of how high a pump can lift water.
