WAYIN: Your Premier Solar Submersible Pump Manufacturer
Rich Experience
We have been developing in the new energy industry, especially the solar energy industry, for more than ten years. We have a strong team that specializes in designing and developing green energy products, and constantly launches unique upgraded products on the market.
One Stop Solution
We provide one-stop solutions for customers in the new energy industry. Whether you need solar panels, inverters, batteries, home solar, industrial solar, or agricultural solar, our engineers and labs are here to help you research solutions, implement your ideas, and optimize your costs.
Professional Service Team
Our professional service team is committed to providing customers with professional, efficient and reliable services. We provide progress tracking at each stage according to the order to ensure customer interests and support customers in handling after-sales issues and market analysis strategies.
Fast Delivery
We have our own factories, warehouses and logistics centers, and can reasonably arrange production and shipment, even if you are an overseas partner. This helps you produce and ship new products as quickly as possible and update products in your store.
Type of Solar Submersible Pump
What is Solar Submersible Pump?
Solar submersible pumps use solar energy to pump and deliver water. Solar submersible pumps are usually installed in water sources, such as wells, rivers, lakes, etc., to pump water to the ground or transport it to where it is needed. As the most attractive way of supplying water in sunny parts of the world today, especially in remote areas where electricity is lacking. Our submersible pumps are mainly used for domestic water supply, agricultural irrigation, livestock drinking water, deep well and borehole pumping, etc.
Components of Submersible Solar Pumps
PV Panels
The photovoltaic panel is the energy collector that receives solar radiations and converts them to electrical energy. PV panels are considered the most important and effective items in the PV system, making up almost 80% of the overall system cost (assuming no battery storage needed). How many modules and how much collection area is a topic that will be studied under the system sizing section.
Solar Pump
The choice of pump type, size, and capacity depends on the application and its requirements. In principle, submersible pumps are used in wells deeper than 7 meters and surface are used for shallow wells.
Controller
The controller plays a vital role in the system performance due to its ability to regulate the power production to match that produced by the panels with that required by the pump. It also plays a critical role in protecting the system by turning it off when the voltage is at inappropriate level, meaning too low or too high compared to the operating voltage range of the pump. This voltage protection role helps extend the lifetime of the pump and reduce maintenance requirements.
Inverters
When you invest in a solar water pump system, an inverter is another important component. Inverters are used to convert direct currents (DC) output into an alternating current (AC), which can be used to power electrical grids and off-grid electrical networks. This conversion is necessary for many electrical devices, including the water pumps, making inverters an important part of the solar pump system.
Advantages of Submersible Solar Pumps
Submersible solar pumps offer a number of advantages over traditional pumps. Here are a few of the key benefits:
Energy Efficiency
One of the biggest advantages of submersible solar pumps is their energy efficiency. These pumps are powered by solar panels, which means they don't require any electricity from the grid. This can lead to significant cost savings over time, especially in areas with high electricity prices.
Low Maintenance
Submersible solar pumps are also relatively low maintenance. Because they don't have any moving parts above ground, there's less wear and tear on the pump itself. Additionally, solar panels require very little maintenance, so once the system is set up, there's not much upkeep required.
Reliable Operation
Submersible solar pumps are designed to be reliable and long-lasting. Because they're completely sealed, they're less susceptible to damage from the elements or other environmental factors. This means they can operate consistently over long periods of time without any major issues.
Environmentally Friendly
Finally, submersible solar pumps are an environmentally friendly option. Because they're powered by solar energy, they don't produce any greenhouse gas emissions or other harmful pollutants. This makes them a great choice for anyone looking to reduce their environmental impact.
Supply Water for your Home
Solar pumps are used for private homes, cabins, villages, medical clinics, etc. A water pump can be powered by its own PV array, or by a main system that powers lights and appliances. An elevated storage tank may be used, or a second pump called a booster pump can provide necessary water pressure. Or the main battery system can provide storage instead of a tank.
Water for Livestock
Cattle ranchers in the Americas, Australia and Southern Africa are enthusiastic users of solar pumps. Their water sources are scattered over vast rangeland where power lines are few and costs of transport and maintenance are high. Some ranchers use solar pumps to distribute water through several miles (over 5 km) of pipelines. Others use portable systems, and move them from one water source to another.
Water for Plants
Solar pumps are used on small farms, orchards, vineyards and gardens. It is most economical to power the pump directly from the PV array (without battery), store water in a tank, and then distribute it by gravity flow. Where pressurizing is required, storage batteries stabilize the voltage for consistent flow and distribution, and may eliminate the need for a storage tank.
Comparison of Solar Water Pumps to Other Pump Technologies
|
Solar Water Pump |
Gas-powered systems (diesel or other fuel) |
Windmill |
Gravity |
|
|
Maintenance |
Low |
Relatively high, often inadequate resulting in shortened life |
High, repairs costly |
Low |
|
Fuel costs |
None |
High with limitations on supply in many cases |
None |
None |
|
Installation |
Simple |
Simple |
Complex requiring specialized tools |
Simple |
|
Reliability |
High |
Regular site visits necessary |
No wind means no power, though potentially a long-lasting source of power |
High |
|
Initial cost |
Potentially higher than other options |
Moderate |
High |
Low |
|
Mobility |
High |
Some |
None |
None |
|
Other considerations |
Requires sun exposure during daytime hours; lower output when cloudy |
Creates noise and fumes |
Parts are often difficult to source |
Practical only in certain locations |
How to Install a Solar Water Pump - Step-by-Step Guide
Step 1: Site Selection and Sun Exposure
●Choose a location that receives maximum sunlight exposure throughout the day. Confirm that the site allows for proper orientation and angle adjustment of the solar panels to capture the most sunlight. Proper sun exposure is very much important for the efficiency of the entire solar water pump system.
Step 2: Proper Sizing of the Solar Water Pump System
●Determine Water Requirements: Identify the specific water needs of your application, whether it’s for irrigation, domestic use, or other purposes. Accurately calculate the volume of water required to ensure the solar water pump system is appropriately sized.
●Match Solar Panel Capacity: Align the solar panel capacity with the power requirements of the pump. This matching ensures that the system operates efficiently, harnessing sufficient solar energy to power the pump effectively.
Step 3: Quality Components and Professional Install a Solar Water Pump
●Invest in High-Quality Components: Choose reliable and durable components for your solar water pump system, including the pump itself, solar panels, controller, and any additional accessories.
●Consider Professional Installation: If you are not familiar with electrical and plumbing work, it is advisable to hire a professional installer, who could set the system correction and reduce the risk of error or malfunctions.
Step 4: Battery Storage for Continuous Operation
●Assess System Design: Determine if your solar water pump system is intended for intermittent or emergency use. If so, consider integrating a battery storage system to ensure continuous operation during periods of low sunlight or power outages.
●Properly Size and Configure Battery Bank: Ensure that the battery bank is appropriately sized to meet the pump’s power requirements. Upon installation ensure the batter system can provide necessary backup.
Sizing for a solar pump is dependent on your Total Dynamic Head. The Total Dynamic Head calculated from your project will dictate which solar pump is the best fit for you. Total Head will also determine the necessary performance needed from a pump in order to mee your water needs. Every project is different and will have varying factors that affect Total Dynamic Head. There are a few factors required to calculate your Total Head.
Static Water Level
A recent well survey will typically list your Static Water Level. It is the distance from land surface to the water in the well. -Drawdown: When the Static Water Level drops due to pumping, drought, etc., wells producing less that 5 gallons per minute will need to consider drawdown. The less gallons per minute the more potential drawdown you may have. Drawdown is the change in groundwater levels.
Additional Lift
The additional lift is an estimate of the elevation at your well head to the source you will be pumping into. The difference between the two elevations is the additional vertical lift you will add to your Total Dynamic Head.
Frictional Loss
The higher the Gallons Per Minute you have and the narrower the pipe, the more frictional loss will occur. That means more head on the pump and less flow at the outlet. Sizing you pipe up will help decrease the Frictional Losses.
Preventive Maintenance of the Solar Submersible Pump
Pump Lubrication
Lubrication reduces friction and reduces the chances of wear and tear. It is important to keep the pumps properly lubricated; for the same, you can follow the guidelines provided by the manufacturer. Also, one should ensure no over-greasing as it can damage the parts.
Checking for Overheating
Even though the pump is submerged under the fluid body, it is necessary to often check if it is overheated. Overheating can be caused when the pump is not properly working or even when there is more pressure on the pump due to conditions like lack of water in the well for pumping.
Motor Inspection
Checking the working condition of the motor is crucial. Servicing the motor from time to time increases the efficiency and working of the pump. Also, a regular inspection will ensure that any damaged part is replaced on time that might cause issues in the future.
Seal and Hose Replacements
As the seals get eroded over time, it is advised to change them regularly. Cleaning or replacing the hoses is also important as the deposit in the inner lining can cause corrosion or hassle with the normal working of the pump.
Check for Noise
Stop operating the motor as soon as you hear a noise, and schedule a pump repair service immediately. If the pump is making noise, there may not be enough liquid in the tank, or a component may be clogged or ineffective.
Regular Professional Checks
These checks are to be done following the scheduled checking advised by the manufacturer. The daily, weekly, monthly, and yearly protocols are to be strictly followed to have a well-functioning pump. Giving the professional care that the submersible pump deserves would save money, power, stress, and the machine itself.
Our Warehouse
We have our own factories, warehouses and logistics centers, which enable us to produce and deliver new products to customers as quickly as possible and help customers develop larger markets.
Our Certificate
We are committed to the development and production of green energy-related products, and have obtained relevant certificates, such as CE certificates, and patent certificates, to provide customers with high-quality, reliable products.
Ultimate FAQ Guide to Solar Submersible Pump
Q: How does solar submersible pump work?
Q: What is the difference between solar submersible pump and submersible pump?
Q: What is the difference between AC and DC solar submersible pump?
Q: How effective are solar water pumps?
Q: Does a solar water pump need a battery?
Q: What is the major disadvantage of submersible pump?
Q: Do you need a water tank with a submersible pump?
Q: Can submersible pump run on solar power?
Q: Which is better submersible pump or centrifugal pump?
Q: Is submersible pump better than water pump?
Q: Do solar water pumps work at night?
Q: What is the difference between a regular electric pump and solar water pump?
Q: How long do solar water pumps last?
Q: How far can a solar pump pump water?
Q: How long does a solar pump take to charge?
Q: What is the alternative to a submersible pump?
Q: What is the purpose of a submersible pump?
Q: How long can a submersible pump stay underwater?
Q: What is the difference between immersion pump and submersible pump?
Q: Is submersible pump good for home use?
Q: Can solar pump work with a battery?
Q: Is submersible pump reliable?
Q: How many types of submersible pumps are there?
Q: What is the weakness of solar water pump?
We're well-known as one of the leading solar submersible pump manufacturers and suppliers in China. Please rest assured to wholesale custom made solar submersible pump from our factory. Good service and quality products are available.
DC Powered Submersible Water Pump, Solar Panel For Submersible Pump, Solar System Submersible Pump