135m Submersible Borehole Solar Water Pump

Description

About a 135m Submersible Borehole Solar Water Pump

A 135m Submersible Borehole Solar Water Pump, VC-4/6AC/DCS36-135-380-550/7500-A is a high-performance submersible solar water pump engineered for deep-well applications, offering reliable and sustainable water supply solutions for agriculture, livestock, domestic, and industrial use. With its high efficiency, robust construction, and solar-powered operation, this pump is an excellent choice for areas with limited or no access to grid electricity.

Key Features of a 135m Submersible Borehole Solar Water Pump:

• Efficient & Sustainable Operation
  • Uses solar power as the primary energy source, reducing electricity costs.
  • Hybrid AC/DC capability allows operation with the grid or backup generator if needed.
• High Performance & Reliability
  • Capable of pumping water from deep wells up to 550m.
  • Robust stainless steel construction ensures durability in harsh conditions.
  • Multi-stage impeller design enhances water flow and energy efficiency.
• Advanced Protection & Smart Control
  • MPPT controller optimizes solar energy usage for maximum efficiency.
  • Safety features include dry-run protection, overload protection, and voltage regulation.
  • Automatic start/stop based on water level sensors, preventing damage from dry running.
• Easy Installation & Low Maintenance
  • Plug-and-play setup for quick installation.
  • Requires minimal servicing, reducing operational costs over time.

Advantages of a 135m Submersible Borehole Solar Water Pump:

1. Cost-Effectiveness:
   • Plastic impellers reduce overall cost without compromising efficiency in low-sediment water conditions.
2. Energy Efficiency:
   • Powered entirely by renewable solar energy, lowering operating costs.
3. Corrosion Resistance:
   • Stainless steel body and plastic impeller are resistant to rust and most chemical reactions.
4. Low Maintenance:
   • Plastic impellers are less prone to wear in clean water conditions, while stainless steel resists damage from external elements.
5. Eco-Friendly:
   • Utilizes solar power to reduce dependence on fossil fuels or grid electricity.

Specifications to Consider:

1. Pump Capacity:
   • Flow Rate: Measured in liters per minute (L/min) or gallons per minute (GPM).
   • Lift Height: Maximum vertical distance the pump can deliver water.
2. Material Quality:
   • Ensure the impeller’s plastic material is high-quality, like engineering-grade polymers (e.g., polypropylene or nylon), for better durability.
3. Solar Panel Compatibility:
   • Match the pump’s voltage and wattage requirements with the solar panel system.
   • Include an MPPT-equipped DC controller for maximum efficiency.
4. Controller Features:
   • Ensure it includes safety features like dry-run protection and overcurrent prevention.

Applications and Ideal Use Cases:

1. Irrigation Systems:
   • Suitable for farms or gardens where the water source has low sediment levels.
2. Livestock and Rural Homes:
   • Provides a sustainable water source for animals and domestic use in off-grid areas.
3. Aquaculture:
   • Ideal for clean water transfer in fish farming operations.
4. Remote Locations:
   • Serves as a reliable solution in areas with no grid power availability.

Maintenance Tips:

1. Clean Regularly:
   • Check the pump and impeller for debris or sediment buildup to maintain performance.
2. Inspect Wiring:
   • Ensure all solar connections and the controller are secure and functioning correctly.
3. Avoid Dry Runs:
   • Operate the pump only when there is adequate water to prevent overheating or impeller damage.
4. Seasonal Storage:
   • Protect the pump during extreme weather conditions, such as freezing winters or intense storms.