RPS Solar Pump 2spv for Easy Install Wells with CE Certification
- Ref Price:
-
- Loading Port:
- Ningbo
- Payment Terms:
- TT OR LC
- Min Order Qty:
- 10 unit
- Supply Capability:
- 100000 unit/month
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Specifications
Self-sufficient,works with sun radiation
More sunlight more water pumped
Low maintenance and auto matic operation for years
Clean Energy,No contamination,No Noise.
Low borehole drlling cost—a diameter of6.0cm is sufficient
Easy to operate and maintain
NO | Ltem | Unit | KMP308 | KMP208 | KMP108 |
1 | Max.voltage | V | 35(+/-1.0) | 35(+/-1.0) | |
2 | Max.power | A | 36(+3.0) | 36(+3.0) | |
3 | Working temperature | W | 0.05-1.10 | 0.05-1.10 | |
4 | Solar panel | Pieces | 2pcs18W panel | 2pcs18W panel | |
5 | Working temperature | t | +1.0-+25 | + 1,0-+25(special treatment possible) | |
6 | Min water depth for operation | cm | 36 | 36(special treatment possible) | |
7 | Sate for"dry running" | Yes(using solar panels) | |||
8 | Oper ation | hangling | hangling | hangling | |
9 | Diameter of pump | cm | 4.90(+0.05) | 4.90(+0.05) | 4.90(+0.05) |
10 | Diameter inclusive filter | mm | 80.0(+2.0) | 80.0(+2.0) | 80.0(+2.0) |
11 | Length of pump | cm | 52 | 52 | 52 |
12 | Diameter of cable | mm | 7.5(+/-0.2) | 7.5(+/-0.2) | 7.5(+/-0.2) |
13 | Internal diameter of water pipe | mm | 9.2(+/-0.2) | 9.2(+/-0.2) | 9.2(+/-0.2) |
14 | External diameter of water pipe | mm | 11.0(+/-0.2) | 11.0(+/—0.2) | 11.0(+/-0.2) |
15 | Length of cable | m | 30.5(+/-0.2) (special treatment possible) | 20.5(+/-0.2) (special treatment possible) | 10.5(+/-0.2) (special treatment possible) |
16 | Length of water pipe | m | 30.5(+/-0.2) | 20.5(+/-0.2) | 10.5(+/-0.2) |
17 | Accessories of pump | Lifting rope,water pipe,foam filter, silter,silicone tube,O-ring,main spring, hexagonal key(8mm and 3mm),resin-free oil. | |||
Product Description
Product Feature
Solar submersible pumps is the efficient equipment to extract groundwater in applications of agricultural irrigation, human and livestock water in plateau and mountain areas, etc.
1. Motor and shell made of stainless steel
2. Stainless steel shaft and coupling
3. High strength & wear resistance stainless steel impeller and diversion shell
4. Sand resistance, anti-rust, pollution-free, long life time
5. Small size, light and easy to ship
6. Easy installation and easy maintain
7. High efficient smart controller with multiple protections: over-temperature protection,
short-current protection, over-load and under-voltage protection. Safe and reliable to use.
Price includes pump with controller. Solar PV panels may be purchased separately.
CNBMSOLAR is a world-leading and Vertical integrated manufacturer of high-performance with Silicon, Wafer, Cells,
Modules, which convert sunlight into electricity for residential, commercial, and utility-scale power generation.
FAQ
Q1. When can I get the quotation?
We usually quote within 24 hours after we get your inquiry. If you are urgent to get the price, please send the message on trade manager or call us directly.
Q2. Can I buy one as sample?
Yes, of course. MOQ of solar pump is 1 piece. For the other kind of products (water pump, air compressor and welding machine), you need to pay all the fee when we make the sample.
Q3. Can you make OEM?
Yes, you can put your logo and brand on the box.
Q4. What is your main market?
Eastern Europe, Southeast Asia. Mid East, South America, Northern Europe.
- Q:How does a solar pump help in reducing the risk of water pollution?
- A solar pump helps in reducing the risk of water pollution by eliminating the need for traditional fuel-powered pumps, which can release harmful emissions into the air and contaminate the water source. As solar pumps run on clean energy from the sun, they do not contribute to air or water pollution, thus reducing the overall risk of water pollution.
- Q:What is the lifespan of a solar pump?
- The lifespan of a solar pump can vary depending on several factors such as the quality of the pump, the maintenance provided, and the operating conditions. However, on average, a well-maintained solar pump can last anywhere between 15 to 25 years.
- Q:Can a solar pump be used in areas with limited access to water distribution networks?
- Yes, a solar pump can be used in areas with limited access to water distribution networks. Solar pumps are designed to operate using solar energy, making them independent of electricity grids and suitable for remote locations. They can draw water from various sources such as wells, boreholes, and rivers, providing a reliable and sustainable water supply in areas where traditional water distribution networks are not available.
- Q:Can a solar pump be used in areas with limited access to water treatment facilities?
- Yes, a solar pump can be used in areas with limited access to water treatment facilities. Solar pumps are particularly beneficial in remote or off-grid locations where there may be limited infrastructure for water treatment. They can draw water from natural sources such as wells, rivers, or lakes and provide a sustainable solution for accessing clean water without relying on traditional water treatment facilities. Additionally, solar pumps are environmentally friendly and cost-effective, making them well-suited for areas with limited resources or infrastructure.
- Q:Can a solar pump be used in areas with high altitude?
- Certainly! A solar pump is suitable for use in high-altitude areas. Its operation relies on capturing solar energy and converting it into power for water pumping. The key determinant of a solar pump's efficiency is the amount of sunlight it receives, rather than the altitude of the location. Nevertheless, it is crucial to take into account the impact of altitude on the performance of solar panels. In regions with higher altitudes, the air tends to be thinner, resulting in reduced atmospheric filtration of sunlight. Consequently, this can enhance the efficiency of solar panels by allowing more sunlight to reach them. However, it is also important to consider the temperature fluctuations that occur at higher altitudes, as extreme cold weather can affect the performance of the pump's components. To ensure optimal performance and durability, it is advisable to select a solar pump specifically designed for high-altitude environments. In summary, using a solar pump in high-altitude areas is feasible, but it is essential to consider the specific conditions and choose the appropriate equipment accordingly.
- Q:How does the size of the solar panel affect the performance of the pump?
- The size of the solar panel has a direct impact on the performance of the pump. A larger solar panel generally means a higher capacity to absorb sunlight and convert it into electricity. This results in a greater amount of energy being available to power the pump. As a result, the pump can operate at a higher flow rate or pressure, allowing it to deliver more water or perform more effectively. On the other hand, a smaller solar panel may have a lower capacity to generate electricity. This can limit the amount of energy available to power the pump, resulting in reduced performance. The pump may operate at a lower flow rate or pressure, which can limit its ability to deliver water or perform optimally. Additionally, the size of the solar panel also affects the amount of energy stored in the system's battery. A larger solar panel can generate more excess electricity, which can be stored in the battery for use during cloudy or low sunlight periods. This ensures a more consistent and reliable performance of the pump, even in less favorable weather conditions. In summary, the size of the solar panel directly influences the performance of the pump by determining the amount of energy available for operation. A larger solar panel generally leads to better performance, while a smaller one may result in reduced efficiency and output.
- Q:Are there any compatibility issues with integrating a solar pump into an existing water system?
- Yes, there can be some compatibility issues when integrating a solar pump into an existing water system. Some of the common compatibility issues include: 1. Power requirements: Solar pumps typically require a specific voltage and current input to operate efficiently. If the existing water system does not provide the required power, it may need to be modified or upgraded to accommodate the solar pump. 2. Water flow rate: Solar pumps have specific flow rate capacities, and it is essential to ensure that the existing water system can handle the desired flow rate without causing any pressure or performance issues. 3. Pipelines and fittings: The size and type of pipelines and fittings in the existing water system may not be suitable for connecting with a solar pump. In such cases, modifications or additional adapters may be necessary to ensure proper integration. 4. Control systems: Solar pumps often come with their own control systems, such as solar controllers, inverters, or sensors. Integrating these control systems with the existing water system may require additional wiring or modifications to the existing control infrastructure. 5. Voltage compatibility: If the existing water system operates on a different voltage than the solar pump, a voltage converter or transformer may be needed to ensure compatibility and safe operation. To avoid compatibility issues, it is recommended to consult with a professional or a solar pump manufacturer to assess the existing water system and determine the necessary modifications or upgrades required for seamless integration.
- Q:How does a solar pump handle water with high levels of bacteria?
- A solar pump does not specifically handle water with high levels of bacteria. Its main function is to pump water from a source, such as a well or a reservoir, using solar energy as the power source. However, if water with high levels of bacteria is being pumped, it is essential to use additional water treatment methods, such as filtration or disinfection, to ensure the water is safe for use.
- Q:Can a solar pump be used for water supply in off-grid homes or cabins?
- Certainly, water supply in off-grid homes or cabins can be achieved using a solar pump. By utilizing solar energy, these pumps power their mechanism without the need for electricity from the grid. This makes them an excellent choice for areas with limited or no access to electricity. Solar pumps can effectively extract water from wells, boreholes, or other water sources, ensuring a reliable and sustainable water supply. Moreover, they are cost-effective, environmentally friendly, and require minimal maintenance. Furthermore, solar pumps can be combined with storage systems to guarantee a continuous water supply even during periods of low sunlight. In conclusion, opting for a solar pump to provide water supply in off-grid homes or cabins presents a practical and efficient solution that is in line with sustainable and self-sufficient living.
- Q:Can a solar pump be used for mining applications?
- Yes, a solar pump can be used for mining applications. Solar pumps are an environmentally friendly and cost-effective option for pumping water or other fluids in mining operations. They can be used to provide water for various mining processes such as dust suppression, ore processing, and equipment cooling. Solar pumps use photovoltaic panels to convert sunlight into electrical energy, which powers the pump. This eliminates the need for fuel or electricity, making them suitable for remote mining sites or locations with limited access to power grids. Additionally, solar pumps can operate independently and can be easily installed, maintained, and relocated as required. The use of solar pumps in mining applications helps reduce carbon emissions, lowers operating costs, and promotes sustainability in the mining industry.
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RPS Solar Pump 2spv for Easy Install Wells with CE Certification
- Ref Price:
-
- Loading Port:
- Ningbo
- Payment Terms:
- TT OR LC
- Min Order Qty:
- 10 unit
- Supply Capability:
- 100000 unit/month
OKorder Service Pledge
OKorder Financial Service
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