4SPSC 6SPSC Solar Pump For Easy Install Wells Prices 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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• IDENTIFICATION CODE
6SPSC30-8 6:well diameter. 6"
SPSC:Submersible pump model 3:capacity(m3/h)
8:stage
• FIFLDS OF APPLICATION
For water supply from wells or reservoirs
For domestic use,for civi and industral applications
For qarden use and imiqation
•technical data
Suitable fiuids:
Clean,free from solid or abrasive substances,
Chemically neutral and close to the characteristtics of water Performance:
Speed range: 2900rpm
Fluid temperature range: 0t;~40t;
Max.working pressure
Permissible up to:50 ℃
Voltage:
Three-phase: 380v~415v/50hz,60hz
Motor:
Degree of protection: IP68
Insulation class: B
motor data
Model | Impeller | Voltage | Power | Max.flow (m3/h) | Max.head (m) | OUTLET | Outer | Weight | MOQ |
4SPSC14-5F | 300 | 1.5 | 25 | 36 | 2" | 96-1005 | 21 | 1 | |
4SPSC14-7F | 300 | 2.2 | 25 | 52 | 2" | 96-1175 | 26 | 1 | |
4SPSC14-1 OF | 520 | 3 | 25 | 71 | 2" | 96-1480 | 30 | 1 | |
4SPSC14-13F | 520 | 4 | 25 | 91 | 2" | 96-1805 | 34 | 1 | |
4SPSC14-15F | 520 | 5.5 | 25 | 102 | 2" | 96-2025 | 38 | 1 | |
4SPSC14-18F | 520 | 5.5 | 25 | 125 | 2" | 96-2220 | 40 | 1 | |
4SPSC14-21 F | 520 | 7.5 | 25 | 140 | 2" | 96-2495 | 47 | 1 | |
4SPSC14-25F | 520 | 7.5 | 25 | 168 | 2" | 96-2755 | 50 | 1 | |
6SPSC30-5 | Centrifugal | 520 | 5.5 | 49 | 71 | 3'' | 138-1286 | 62 | 1 |
6SPSC30-7 | (Plastic) | 520 | 7.5 | 49 | 100 | 3'' | 138-1444 | 67 | 1 |
6SPSC30-8 | 520 | 7.5 | 49 | 114 | 3'' | 138-1478 | 68 | 1 | |
6SPSC30-9 | 520 | 9.2 | 49 | 129 | 3'' | 138-1602 | 72 | 1 | |
6SPSC30-11 | 520 | 11 | 49 | 157 | 3'' | 138-1779 | 81 | 1 | |
6SPSC46-2 | 520 | 4 | 68 | 29 | 4" | 138-1056 | 52 | 1 | |
6SPSC46-3 | 520 | 5.5 | 68 | 44 | 4" | 138-1286 | 57 | 1 | |
6SPSC46-4 | 520 | 7.5 | 68 | 58 | 4" | 138-1444 | 62 | 1 | |
6SPSC46-5 | 520 | 7.5 | 68 | 69 | 4" | 138-1478 | 67 | 1 | |
6SPSC46-6 | 520 | 9.2 | 68 | 83 | 4" | 138-1602 | 68 | 1 | |
6SPSC46-7 | 520 | 11 | 68 | 93 | 4" | 138-1779 | 72 | 1 |
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:Can a solar pump be used for water supply in agricultural greenhouses?
- Yes, a solar pump can be used for water supply in agricultural greenhouses. Solar pumps are an efficient and sustainable solution for providing water to plants in greenhouses. They utilize solar energy to power the pump, eliminating the need for electricity or fuel. This makes them cost-effective and environmentally friendly. Solar pumps can be easily installed and require minimal maintenance, making them a suitable choice for agricultural greenhouse water supply.
- Q:Can a solar pump be used for water supply in off-grid agricultural fields?
- Certainly, water supply in off-grid agricultural fields can be achieved using a solar pump. Solar pumps are designed specifically to utilize solar energy, making them an ideal solution for remote locations with limited or no access to grid electricity. These pumps use photovoltaic (PV) panels to convert sunlight into electricity, which powers the motor to draw water from various sources and deliver it to the fields for irrigation. The use of solar pumps in off-grid agricultural fields provides several advantages. Firstly, they are environmentally friendly, as they do not emit harmful substances or contribute to greenhouse gas emissions like traditional diesel or petrol pumps. This makes solar pumps a sustainable and clean solution that aligns with eco-friendly farming principles. Secondly, solar pumps offer a reliable and consistent water supply. With sufficient sunlight, these pumps can operate all day, ensuring a continuous flow of water to the fields. Additionally, solar pumps often come equipped with battery storage systems, enabling them to operate even during cloudy days or at night when solar energy is unavailable. This ensures uninterrupted water supply, enhancing crop growth and yield. Furthermore, solar pumps are cost-effective in the long term. Although the initial investment may be higher compared to conventional pumps, solar pumps have lower operational and maintenance costs. They do not require fuel or electricity, reducing ongoing expenses. Additionally, solar pumps have a longer lifespan and require minimal maintenance, resulting in reduced downtime and repair costs. Lastly, solar pumps promote energy independence and self-sufficiency. By harnessing the sun's power, farmers can rely on a renewable energy source and reduce their reliance on external fuel or electricity providers. This allows for greater autonomy and control over water supply, enhancing the resilience of off-grid agricultural systems. In conclusion, solar pumps are an excellent choice for water supply in off-grid agricultural fields. They offer a sustainable, reliable, cost-effective, and independent solution that can significantly benefit farmers and contribute to sustainable agriculture practices.
- Q:Are there any limitations to using a solar pump?
- Yes, there are certain limitations to using a solar pump. One major limitation is that solar pumps are dependent on sunlight for their operation. This means that they may not be as effective or efficient during cloudy or rainy days, or in areas with limited sunlight. The amount of power generated by the solar panels directly affects the pump's performance, so if there is not enough sunlight, the pump may not be able to function optimally. Another limitation is the initial cost of installing a solar pump system. While solar pumps can save money in the long run by reducing electricity bills, the upfront costs can be significant. The cost includes not only the pump but also the solar panels, batteries, and other necessary components. This may make it less accessible for individuals or communities with limited financial resources. Additionally, solar pumps require adequate space for the installation of solar panels. The panels need to be positioned in a way that maximizes exposure to sunlight, which may require a large open area or a rooftop with unobstructed access to sunlight. In some urban or densely populated areas, finding suitable space for solar panels can be a challenge. Maintenance and repair can also be a limitation. Solar pumps require regular maintenance to ensure their efficient operation. This includes cleaning the solar panels, checking connections, and inspecting other components. If a part malfunctions or breaks, it may be more challenging to find specialized technicians or spare parts compared to conventional pumps. Lastly, the capacity of solar pumps can be limited. They may not be suitable for high-demand applications that require significant water flow or pressure. Larger-scale agricultural or industrial operations may require more powerful pumps that solar energy alone may not be able to provide. Despite these limitations, solar pumps offer numerous advantages such as energy efficiency, environmental friendliness, and long-term cost savings. It is important to carefully assess the specific requirements and limitations of your situation before deciding to use a solar pump.
- Q:How does the elevation affect the performance of a solar pump?
- Elevation plays a significant role in determining the performance of a solar pump. As the elevation increases, the performance of the solar pump decreases due to several factors. Firstly, at higher elevations, the air density decreases. This reduction in air density leads to a decrease in the efficiency of the solar panels as they receive less sunlight per unit area. As a result, the amount of electricity generated by the solar panels decreases, affecting the overall performance of the pump. Secondly, higher elevations usually entail longer pumping distances. As the pump has to work against gravity to lift water to higher altitudes, it requires more energy to overcome the increased head pressure. This additional energy requirement leads to a decrease in the pump's efficiency and performance. Furthermore, the pressure head at higher elevations is lower due to the decrease in atmospheric pressure. This lower pressure head affects the pump's ability to push water, resulting in reduced flow rates and decreased pumping capacity. Finally, at higher elevations, the ambient temperature tends to be lower. Solar panels function more efficiently at lower temperatures, so this can be an advantage. However, lower temperatures also affect the overall performance of the pump as it may lead to freezing of the water, which can damage the pump's components or hinder its operation. Overall, the elevation affects the performance of a solar pump by reducing the efficiency of solar panels, increasing the energy requirement to overcome the head pressure, decreasing the pressure head, and potentially causing freezing issues. Therefore, it is crucial to consider the elevation when designing and selecting a solar pump to ensure optimal performance and efficiency.
- Q:Can a solar pump be used in areas with high humidity?
- Yes, a solar pump can be used in areas with high humidity. High humidity does not affect the functionality or performance of a solar pump. However, it is important to ensure that the pump is properly installed and protected from excessive moisture to prevent any damage or malfunction.
- Q:How does the performance of a solar pump vary with different water quality parameters (e.g., turbidity, pH)?
- The performance of a solar pump may be influenced by various water quality parameters, including turbidity and pH. Turbidity refers to the cloudiness or haziness of water caused by suspended particles like sediment, silt, or organic matter. Elevated levels of turbidity can have a negative effect on the solar pump's performance by reducing the amount of sunlight reaching the solar panels, thus decreasing its efficiency. Moreover, suspended particles in turbid water can cause abrasion and damage to the pump components, resulting in decreased performance and potential breakdowns. Therefore, it is crucial to ensure that the water source for a solar pump has low turbidity levels to optimize its performance. pH, on the other hand, measures the acidity or alkalinity of water. The pH level of the water being pumped can also impact the performance of a solar pump. Extreme pH levels, whether too acidic or too alkaline, can lead to corrosion or scaling within the pump system. Corrosion can harm the pump components, resulting in reduced efficiency and potential failure. Scaling refers to the accumulation of minerals or other substances on the pump surfaces, which can hinder the flow rate and increase energy consumption. Therefore, it is essential to maintain an optimal pH level within the recommended range to ensure the longevity and efficiency of a solar pump. In conclusion, both turbidity and pH can have a significant effect on the performance of a solar pump. High turbidity levels can diminish sunlight exposure and cause mechanical damage, while extreme pH levels can contribute to corrosion and scaling issues. Consequently, it is crucial to consider and manage these water quality parameters in order to maximize the efficiency and lifespan of a solar pump.
- Q:Can solar pumps be used for wastewater treatment or sewage systems?
- Yes, solar pumps can be used for wastewater treatment or sewage systems. Solar-powered pumps are an environmentally-friendly and cost-effective solution for pumping and treating wastewater or sewage. They can effectively move water between different treatment stages, helping to aerate, circulate, or transfer wastewater for various treatment processes. Additionally, solar pumps can operate in remote or off-grid areas, reducing the reliance on traditional energy sources and making wastewater treatment more accessible in such locations.
- Q:How does the distance between the solar panel and the pump affect the performance?
- The performance of the system can be significantly affected by the distance between the solar panel and the pump. To begin with, the efficiency of power transfer from the solar panel to the pump is influenced by this distance. As the distance increases, there is a greater likelihood of power loss due to resistance in the cables or wires used for transmission. This can result in a decrease in the amount of power that reaches the pump, ultimately impacting its performance. Furthermore, a longer distance between the solar panel and the pump can give rise to voltage drop problems. Voltage drop occurs when the resistance in the wires causes a reduction in voltage over a distance. This can further diminish the power reaching the pump, affecting its performance and potentially causing it to operate below its optimal power range. In addition, the distance can have implications for the overall design and installation of the system. Longer distances may necessitate more extensive wiring, leading to increased costs and maintenance efforts. It can also introduce additional points of potential failure in the system, such as connections or junctions, which could result in performance issues. Lastly, the reliability of the system can be influenced by the distance between the solar panel and the pump. If the solar panel is situated far away from the pump, it may be exposed to different environmental conditions, such as shading or extreme temperatures, which can impact the overall performance and lifespan of the system. In conclusion, the distance between the solar panel and the pump can affect power transmission efficiency, give rise to voltage drop issues, impact system design and installation, and influence the reliability of the system. It is therefore crucial to carefully consider and optimize this distance to ensure optimal performance and longevity of the solar-powered pump system.
- Q:Can a solar pump be used for landscape watering?
- Yes, a solar pump can be used for landscape watering. Solar pumps are designed to harness energy from the sun and convert it into power to pump water. This makes them an eco-friendly and cost-effective option for landscape watering. Solar pumps are capable of drawing water from various sources such as ponds, wells, or rainwater harvesting systems, and distributing it to the desired areas in your landscape. They can be used for both small-scale residential gardens or large-scale commercial landscapes. With the advancements in solar technology, solar pumps have become increasingly efficient and reliable, providing a sustainable solution for landscape watering while reducing the dependence on traditional electricity sources.
- Q:How much water can a solar pump deliver?
- The amount of water a solar pump can deliver depends on various factors such as the size and efficiency of the pump, the amount of sunlight available, and the specific water requirements of the application. Generally, solar pumps can deliver anywhere from a few hundred liters to several thousand liters of water per day.
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4SPSC 6SPSC Solar Pump For Easy Install Wells Prices 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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