Solar Water Pump Controller for Solar System
- Ref Price:
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- Loading Port:
- Shekou
- Payment Terms:
- TT OR LC
- Min Order Qty:
- 20 unit
- Supply Capability:
- 800000 unit/month
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Solar Pumping System can be applied to daily use (ground water), agricultural irrigation, forestry irrigation, desert control, pasture animal husbandry, water supply for islands, wastewater treatment engineering, and so on. Solar water pump System is dispensed with energy storing devices, and stores water instead of electricity. It improves the reliability of the device, at the same time, it lowers the construction and maintenance costs of the irrigation system dramatically.
In recent years, with the promotion of the utilization of new energy resources, Solar Pumping System is more and more used in municipal engineering, city centre squares, parks, tourist sites, resorts and hotels, the landscapes and fountain irrigation systems in the residential areas.
Technical Features
Optimization of Single Pump System
A single solar irrigation system consists of only one pump, a power -matched solar array and an inverter . The aim of optimization is to reduce the amount of PV modules as much as possible on the premise of filling the requirement of head and capacity. The rotational speed of pump is regulated according to the irradiation on the solar array; when the sunlight reaches its peak, the pump runs at the rated speed, and the output approaches the peak power of the solar array; when the sunlight is less abundant, the speed of pump varies bellow the range of the rated speed; when the speed as low as the capacity becomes zero, the solar pumping system stops working. So, there are big differences between solar irriation systems and traditional pumping systems in system design, and the system should be optimized according to the requirements of head, capacity, and local conditions of sunlight.
•Determine the optimal average daily operating time and the range of speed governing.
•Choose the optimal head and capacity of the pump.
•Determine the maximum power of PV modules, the best working voltage and method of connection.
Optimization of Multi-pump Systems:
There are several pumps in a multi-pump system. The pumps can be driven either by only one high-power inverter, or by several matching inverters. In the case of large capacity demand, the operation of the multi-pump system is more flexible. By switching solar arrays and pumps, all of the pumps run in MPPT mode when the sunlight is abundant, while some pumps will be shut down and all solar arrays supply power intensively for the rest running pumps when irradiation is weak. Based on the optimization of single pump system, the range of speed can be further optimized, and the photovoltaic(PV) pumping system always works with high efficiency.
Product Specifications
Model | Rated Power ( kW ) | Rated Voltage ( V ) | Head ( M ) | Daily Flow ( ㎥/ D ) |
PS370 | 0.37 | 220 | 20-47 | 20-1 |
PS550 | 0.55 | 220 | 15-70 | 40-1 |
PS750 | 0.75 | 220 | 6-81 | 100-1 |
PS1100 | 1.1 | 220 | 8-93 | 100-1 |
PS1500 | 1.5 | 220 | 7-128 | 130-1 |
PS2200 | 2.2 | 380 | 12-163 | 130-1 |
PS3000 | 3 | 380 | 9-187 | 250-10 |
PS4000 | 4 | 380 | 6-225 | 500-10 |
PS5500 | 5.5 | 380 | 10-172 | 500-20 |
PS7500 | 7.5 | 380 | 15-237 | 500-20 |
PS9200 | 9.2 | 380 | 20-140 | 500-40 |
PS11000 | 11 | 380 | 23-159 | 500-40 |
PS13000 | 13 | 380 | 27-189 | 500-40 |
PS15000 | 15 | 380 | 31-208 | 500-40 |
PS18500 | 18.5 | 380 | 39-143 | 500-100 |
PS22000 | 22 | 380 | 25-86 | 700-210 |
PS26000 | 26 | 380 | 30-105 | 700-210 |
PS30000 | 30 | 380 | 35-125 | 700-210 |
PS37000 | 37 | 380 | 40-150 | 700-210 |
PS45000 | 45 | 380 | 50-180 | 700-210 |
PS55000 | 55 | 380 | 65-200 | 700-210 |
- Q:How do I upgrade or expand a solar controller system?
- To upgrade or expand a solar controller system, you can follow these steps: 1. Determine your current system's capacity: Understand the specifications of your existing solar controller system, including its maximum capacity and the number of panels it can handle. This information will help you plan your upgrade or expansion effectively. 2. Assess your energy needs: Evaluate your current and future energy requirements. Consider factors such as increased power consumption, additional appliances, or any upcoming expansions that may demand more solar energy. 3. Consult with a professional: Seek advice from a solar energy professional or technician. They can assess your existing system, suggest suitable upgrades, and provide guidance on expanding your solar controller system based on your energy needs and available resources. 4. Consider adding more panels: If you want to expand your system's capacity, you may need to add more solar panels. Ensure that your existing controller can handle the increased number of panels or consider upgrading to a higher-capacity controller if necessary. 5. Check compatibility: Ensure that any new components you plan to add are compatible with your existing system. This includes your solar panels, batteries, and any additional equipment you wish to incorporate. 6. Install additional equipment: Once you have decided on the upgrades or expansion, acquire the necessary components and arrange for their installation. This may involve mounting more solar panels, wiring new systems, or integrating additional batteries. 7. Test and monitor: After the upgrade or expansion, thoroughly test the system to ensure it functions properly. Monitor its performance regularly to identify any issues and make adjustments if needed. Remember, it is crucial to consult with professionals and adhere to safety guidelines while working with solar energy systems.
- Q:What is the voltage range for a solar controller?
- The voltage range for a solar controller typically varies between 12V to 48V, depending on the specific model and application.
- Q:Can a solar controller be used with solar-powered remote weather stations?
- Yes, a solar controller can be used with solar-powered remote weather stations. A solar controller is essential in regulating and optimizing the charging of batteries connected to solar panels. It helps manage the flow of energy from the solar panels to the batteries, ensuring efficient charging and preventing overcharging or damage to the batteries. This is particularly important for remote weather stations that rely on solar power, as it helps maintain a consistent and reliable power supply for continuous operation.
- Q:Solar controller one machine how
- 4LED display status, dual digital display mode of operation (a key operation intuitive, with power saving mode); can also be compatible with 12V system and 24V system (fully compatible) LED lamp operating current size, that is, the first period of work adjustable power ; The second time period, the third time period the power size adjustable, adjustable range of 10% -90%; the first time period, the second time period, the third time period, before dawn lights time adjustable; Tune, that is, after a few days after the delay in time to turn on the lights.
- Q:Can a solar controller be used with solar-powered indoor hydroponics systems?
- Yes, a solar controller can be used with solar-powered indoor hydroponics systems. A solar controller helps regulate and optimize the charging process of batteries connected to solar panels. In indoor hydroponics systems, solar panels can be used to generate electricity, which can then be stored in batteries. The solar controller ensures that the batteries are charged efficiently and protects them from overcharging or excessive discharge. This allows for the sustainable and independent operation of indoor hydroponics systems using solar power.
- Q:Can a solar controller be used with a solar-powered educational institution?
- Yes, a solar controller can be used with a solar-powered educational institution. A solar controller regulates and monitors the flow of electricity generated by solar panels, ensuring efficient charging and protection of batteries. It is an essential component for managing and optimizing the solar power system in an educational institution, facilitating reliable and sustainable energy supply.
- Q:Can a solar controller be used with portable solar panels?
- Yes, a solar controller can be used with portable solar panels. A solar controller helps regulate the charging process and protects the battery from overcharging. It can be especially beneficial for portable solar panels as it ensures optimal charging efficiency and prolongs the battery life.
- Q:Are there any safety concerns with using a solar controller?
- Yes, there can be safety concerns associated with using a solar controller. Some potential safety issues include electrical hazards, such as the risk of electric shock if not installed or used correctly, and fire hazards if the controller malfunctions or overheats. It is important to follow all manufacturer guidelines, use proper wiring and grounding techniques, and regularly inspect and maintain the solar controller to minimize any potential safety risks.
- Q:What is the role of a solar controller in preventing electrical surges in the solar panel system?
- Ensuring the safe and efficient operation of a solar panel system relies heavily on the crucial role of a solar controller. Also referred to as a charge controller, it is responsible for effectively managing the flow of charge between the solar panels and the batteries or grid-connected system. Among its primary functions is the prevention of electrical surges that have the potential to cause harm or damage to the solar panels, batteries, or other system components. Electrical surges can occur due to a variety of factors, including sudden changes in weather conditions, lightning strikes, or fluctuations in the power grid. These surges result in a sudden increase in voltage that surpasses the system's capacity, putting it at risk of damage or complete failure. To prevent such electrical surges, solar controllers employ a range of protective mechanisms. One common feature is voltage regulation, where the controller closely monitors the voltage levels of the solar panels and batteries. If the voltage surpasses a predetermined threshold, the controller takes action to limit the flow of charge, thereby preventing overcharging and potential surges. Moreover, advanced solar controllers often incorporate surge suppression devices or transient voltage suppressors. These devices are specifically designed to redirect excessive voltage or high-energy transient spikes away from sensitive components, ensuring their protection against any potential damage. In addition, solar controllers frequently include grounding mechanisms to guarantee proper grounding of the system. This grounding plays a significant role in dissipating any excess energy and directing it safely into the ground, minimizing the risk of electrical surges. To summarize, the role of a solar controller is crucial in preventing electrical surges within a solar panel system. By effectively managing charge flow, monitoring voltage levels, incorporating surge suppression devices, and implementing proper grounding, the solar controller ensures the long-term reliability and safety of the system, safeguarding it against electrical surges.
- Q:Can a solar controller be used with a solar-powered greenhouse ventilation system?
- Yes, a solar controller can be used with a solar-powered greenhouse ventilation system. The solar controller helps regulate and control the flow of electricity from the solar panels to power the ventilation system. It ensures that the system operates efficiently and optimizes the use of solar energy.
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Solar Water Pump Controller for Solar System
- Ref Price:
-
- Loading Port:
- Shekou
- Payment Terms:
- TT OR LC
- Min Order Qty:
- 20 unit
- Supply Capability:
- 800000 unit/month
OKorder Service Pledge
OKorder Financial Service
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