• DC Solar  Water Pump System 1
DC Solar  Water Pump

DC Solar Water Pump

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Item Description :

This superb new addition to our solar fountain range comes with a 10w solar panel,and a powerful fountain pump that is capable of producing fountains of up to 2m in height. As well as being easy to set up and use.Instruction manual is supplied for assembly and maintenance.


Solar Fountain Key Features :

  • Powered by direct sunlight

  • No high voltage electric mains required

  • Safe for children

  • Max. height of fountain: 2M

  • Max. flow capacity: 800 L/H(176 GAL)

  • 10W Polycrystalline solar panel included

  • 18V DC brushless pump

Solar Pump Features :

  • Can produce fountains up to : 2M (tube height) 1.4M (fountain height)

  • Comes with multiple nozzle accessories

  • Cable Length : 5M

Solar Panel Features :

  • 10W peak power.

  • Polycrystalline highly efficient solar panel

  • Comes mounted in aluminium frame

  • Comes with ground stake and rotating knob so you can angle your panel toward the sun

What You Will Get :

  • 10W solar panel

  • Solar pump

  • Ground Sake

  • Nozzle accessories

Precautions :

  • DO NOT alter or change the product itself or its components

  • Operate pump in freshwater only, never above 50 degrees celsius

  • Keep away from flammable liquids

  • Do not connect to any other power supply other than the included


Q:What is the average cost of a solar pump installation?
The average cost of a solar pump installation can vary depending on various factors such as the size and capacity of the pump, location, site requirements, and additional materials needed. However, on average, the cost of a solar pump installation can range from $5,000 to $15,000. This cost typically includes the solar panels, pump, controller, batteries, wiring, installation labor, and any necessary permits or inspections. It is important to note that this is just an average estimate, and the actual cost can be higher or lower depending on individual circumstances.
Q:What is the expected maintenance schedule for a solar pump?
The expected maintenance schedule for a solar pump typically includes regular checks for debris or blockages in the pump system, cleaning of the solar panels to ensure optimal sunlight absorption, and inspection of the battery and controller for any signs of wear or malfunction. Additionally, it is recommended to schedule professional maintenance at least once a year to ensure proper functioning and address any potential issues.
Q:Can a solar pump be used in areas with high wind speeds?
Yes, a solar pump can be used in areas with high wind speeds. The pump's operation is not affected by wind speeds as it solely relies on solar energy for power.
Q:Can a solar pump be used in areas with limited access to financing options for installation or maintenance?
Yes, a solar pump can be used in areas with limited access to financing options for installation or maintenance. Solar pumps are a cost-effective and sustainable solution that can be installed and maintained with minimal financial resources. Since solar pumps do not require electricity grids or fuel, they can significantly reduce operational costs and reliance on external financing. Additionally, various organizations and government schemes provide subsidies and financial support to promote the adoption of solar pumps in such areas, making them more accessible and affordable.
Q:Can a solar pump be used for water treatment or purification?
Yes, a solar pump can be used for water treatment or purification. Solar pumps use energy from the sun to power the pumping mechanism, allowing water to be moved from one location to another. This can be particularly useful for water treatment or purification processes, as it eliminates the need for external power sources and reduces operating costs. Solar pumps can be used in various water treatment or purification applications, such as pumping water from a well or borehole to a treatment facility, or moving water through different treatment stages, such as filtration, disinfection, or desalination. They can also be used to circulate water in a treatment system to ensure proper mixing and contact time with treatment chemicals or processes. Using a solar pump for water treatment or purification offers several advantages. Firstly, it is a sustainable and environmentally friendly solution as it relies on renewable energy. Secondly, solar pumps can be installed in remote or off-grid areas where access to electricity is limited or nonexistent. This makes them suitable for rural communities or developing regions that lack infrastructure. Furthermore, solar pumps are often more cost-effective in the long run compared to traditional pumps, as they have lower operational and maintenance costs. They also provide a reliable and continuous water supply, even during power outages or fluctuations. However, it is important to note that the use of a solar pump alone may not be sufficient for comprehensive water treatment or purification. Depending on the specific requirements and quality of the water source, additional treatment processes or technologies might be necessary to ensure safe and potable water. In conclusion, a solar pump can certainly be used for water treatment or purification, offering a sustainable, cost-effective, and reliable solution for various applications.
Q:Are there any certifications or standards for solar pumps?
Yes, there are certifications and standards for solar pumps. The most recognized and widely accepted certification for solar pumps is the International Electrotechnical Commission (IEC) 61215 standard, which ensures the quality and performance of photovoltaic modules used in solar pumps. Additionally, some countries and regions may have their own specific certifications or standards for solar pumps to ensure compliance with local regulations and safety requirements.
Q:What is the impact of a solar pump on energy independence?
A solar pump has a significant impact on energy independence as it relies solely on the renewable energy source of sunlight to operate. By harnessing solar power, it eliminates the need for traditional electricity, which often relies on fossil fuels. This not only reduces greenhouse gas emissions but also mitigates dependence on finite and non-renewable energy sources. Thus, a solar pump plays a crucial role in promoting sustainability, reducing carbon footprint, and achieving energy independence.
Q:Are there any noise or vibration concerns with a solar pump?
No, there are typically no noise or vibration concerns with a solar pump. Solar pumps are designed to operate quietly and efficiently, utilizing solar energy to power the pump without the need for any noisy or vibrating components.
Q:What is the expected lifespan of the solar panels in a solar pump system?
The expected lifespan of solar panels in a solar pump system can vary depending on several factors. On average, most solar panels have a lifespan of about 25 to 30 years. However, with proper maintenance and care, they can last even longer. The durability of solar panels is influenced by various factors, such as the quality of the materials used, the manufacturing process, and the environmental conditions in which they are installed. High-quality panels made from durable materials tend to have a longer lifespan. Regular maintenance and cleaning of the solar panels are essential to maximize their lifespan. Dust, dirt, and debris can accumulate on the surface, reducing their efficiency over time. Cleaning them periodically and ensuring they are free from any shading or obstructions can help maintain their performance and extend their lifespan. Additionally, extreme weather conditions such as hail, heavy snow, or strong winds can potentially damage solar panels. However, modern solar panels are designed to withstand these conditions to a certain extent. So, it is crucial to choose panels with good weather resistance, especially if you live in an area prone to severe weather events. In conclusion, the expected lifespan of solar panels in a solar pump system is typically around 25 to 30 years, but it can be extended with proper maintenance and care. Choosing high-quality panels and ensuring they are regularly cleaned and protected from extreme weather conditions can help maximize their lifespan.
Q:What is a photovoltaic pump?
However, the PV system also has its shortcomings, such as: energy dispersion, intermittent, strong regional. Pre-high cost. The use of solar energy in the absence of any external energy can be used in a flexible and flexible manner for farmland irrigation, providing clean drinking water, developing garden economy, beautifying the park, constructing color fountains, raising fish, raising shrimp pond, For drainage and so on.

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