Window Solar Collectors - Flat Plate Solar Collectors for Solar Energy Hot Sale

Window Solar Collectors - Flat Plate Solar Collectors for Solar Energy Hot Sale

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Loading Port:: Shanghai

Payment Terms:: TT OR LC

Min Order Qty:: 50 pc

Supply Capability:: 100000 pc/month

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Flat Plate Solar Collectors Solar Energy Hot Sale

The flat plate solar collectors is a kind of solar energy into heat energy, the heat generated can be used in everyday life hot water, heating, heating and industrial applications of low temperature hot water. Flat-plate collector is better than glass vacuum tube solar products in structure, strength and performance, its heat production performance, service life and structural strength considerably with building materials, is currently the world's solar thermal utilization products and building integrated fusion best , so the use of flat plate solar collectors is tantamount to the best choice.

The following is solar collectors’ advantages:

1) S-type tube flat plate solar collector, have gotten the line patent in China. Besides, we are Famous factory to produce S-type tube flat plate solar collector, no any welding on the tube, no any leakage.

2) Laser welding between whole absorber panel and copper tube, high strength thicken heavy duty aluminum frame, much better than some technology of ultrasonic welding or heat-conducting glue in some factories.

3) The instant heat efficiency of the collector can up to 81.1%, much higher than the 72% standard, very rare in China.

4) Germany imported high efficient selective blue titanium coating. Use best copper tubes in Domestic. The copper brand is Hai liang.

5) Special low-iron tempered glass with transmittance more than 92%.

6) Mechanical load, freeze resistance, rain penetration, exposure, hail impact, external and internal shock tested etc.

7) Long lifetime, large absorber area and good warm keeping, European, North America specially designed.

Products installation pictures:

Flat Plate Solar Collectors Solar Energy Hot Sale

Our service:

1.Your inquiry related to our products or prices will be replied in 24 hours.

2.Well-trained and experienced staffs are to answer all your enquiries in fluent English.

3.OEM&ODM,any your customized plates or strips we can help you to design and put into production.

4.Distributorships are offered for your unique design and some our current products.

5.Protection of your sales area,ideas of design and all your private information.

FAQ:

1.Can you accept OEM ?

Yes,we can print your brand and logo on box and carton, and also can make the packing as per your request.

2. What are your MOQ?

50 pcs

3.What are your terms of payment?

1) T/T;L/C

2) For less than 500 USD,we also accept PAYPAL,Western Union,Escrow,MoneyGram

4. How long is the delivery time?

The delivery time is about 35 working days.

5.What kind of packing for this item?

Carton box for FCL;Plywood box for LCL

Q:Can solar collectors be used in areas with limited access to research institutions?: Yes, solar collectors can be used in areas with limited access to research institutions. Solar collectors are relatively simple and well-established technology that can be implemented with basic knowledge and training. While access to research institutions may provide additional resources and expertise for optimization and troubleshooting, solar collectors can still be successfully used in remote areas through local training programs and support from solar energy companies or NGOs.

Q:Can solar collectors be used for heating sports facilities?: Yes, solar collectors can be used for heating sports facilities. Solar thermal systems can capture sunlight and convert it into usable heat energy, which can then be used to warm indoor spaces like sports facilities. This renewable energy source is environmentally friendly and can help reduce dependence on traditional heating methods, making it a sustainable option for heating sports facilities.

Q:Can solar collectors be used in areas with limited access to electricity grids?: Yes, solar collectors can be used in areas with limited access to electricity grids. Solar collectors, such as photovoltaic panels, can generate electricity from sunlight and can function independently of electricity grids. They are particularly suitable for remote areas or off-grid locations where traditional electricity infrastructure is not available or unreliable. Solar collectors offer a sustainable and viable solution for generating electricity in areas with limited access to grids.

Q:Can solar collectors be used for generating electricity on mines?: Yes, solar collectors can be used for generating electricity on mines. Solar collectors, also known as solar panels or photovoltaic (PV) panels, convert sunlight into electricity through the photovoltaic effect. They are designed to capture and convert solar energy into electrical energy. Mines often require a significant amount of electricity to power their operations, including machinery, lighting, ventilation systems, and other equipment. Solar collectors can be installed on the roofs or open spaces of mine buildings or structures to harness the abundant sunlight available in many regions. The electricity generated by the solar panels can then be used to directly power the mine's operations, reducing the reliance on traditional sources of energy such as fossil fuels. Implementing solar collectors on mines has several benefits. Firstly, it can significantly reduce the mine's carbon footprint and environmental impact by replacing fossil fuel-based electricity generation with clean and renewable solar energy. This contributes to the global efforts in combating climate change and reducing greenhouse gas emissions. Secondly, solar collectors can help mines reduce their energy costs in the long run. Although the initial investment in installing solar panels can be substantial, the operational and maintenance costs associated with solar energy are relatively low compared to traditional energy sources. Over time, the savings in electricity bills can offset the initial investment, resulting in cost-effective energy generation for mines. Furthermore, solar collectors can provide a reliable and uninterrupted source of electricity for mines, especially in remote areas where access to the electricity grid might be limited or unreliable. By generating their own electricity, mines can ensure a continuous power supply for their operations, avoiding downtime and increasing productivity. It is worth mentioning that the feasibility and effectiveness of using solar collectors on mines may depend on various factors, such as the location, climate, available space, and energy requirements of the mine. Additionally, a comprehensive analysis of the mine's energy needs, potential solar energy generation, and the financial implications should be conducted before implementing solar collectors. Nonetheless, solar collectors have proven to be a viable and sustainable option for generating electricity on mines, offering numerous environmental and economic benefits.

Q:Can solar collectors be used for generating electricity on warehouses?: Solar collectors have the capability to generate electricity on warehouses. These devices, also referred to as solar panels, are capable of being installed on the roof of warehouses in order to capture sunlight and transform it into usable electricity. Composed of photovoltaic cells, these panels absorb sunlight and produce direct current (DC) electricity. This DC electricity can then be converted into alternating current (AC) electricity by an inverter, which can power the electrical systems within the warehouse or even transmit surplus electricity back into the grid. By relying on renewable energy sources and emitting zero greenhouse gases, solar collectors represent an environmentally friendly and sustainable method of electricity generation. Furthermore, the installation of solar collectors on warehouses can assist businesses in reducing their reliance on fossil fuels, decreasing their electricity expenses, and contributing to a cleaner energy future.

Q:How do solar collectors affect the overall energy efficiency of a building?: Solar collectors can significantly improve the overall energy efficiency of a building. By harnessing the power of the sun, solar collectors can generate clean and renewable energy, reducing the reliance on traditional fossil fuels. This reduces the carbon footprint of the building and helps combat climate change. Solar collectors convert sunlight into thermal energy, which can be used for various purposes, such as heating water or providing space heating. This reduces the need for conventional heating methods, which often rely on non-renewable energy sources. As a result, solar collectors can significantly lower energy consumption and decrease utility bills. The integration of solar collectors into a building's energy system also increases its energy independence. By generating their own clean energy, buildings can become less dependent on the grid, especially during peak demand periods. This leads to increased resilience and reliability of the building's energy supply. Furthermore, solar collectors are typically installed on the roof or facade of a building, utilizing previously unused space. This dual-purpose approach allows for efficient use of land or rooftop areas, making them ideal for urban environments with limited space. Additionally, solar collectors can also act as passive shading devices, reducing the need for air conditioning in warmer climates. Overall, solar collectors have a positive impact on the energy efficiency of a building. They reduce greenhouse gas emissions, lower energy consumption, decrease reliance on the grid, and make efficient use of available space. By harnessing the power of the sun, solar collectors contribute to a more sustainable and environmentally friendly building design.

Q:How does the orientation of a solar collector affect its performance?: The orientation of a solar collector significantly affects its performance. The collector should be properly oriented to maximize solar energy absorption. Ideally, the collector should be facing towards the sun, with a tilt angle that corresponds to the latitude of the location. By optimizing the orientation, the collector can capture the maximum amount of solar radiation, thereby enhancing its efficiency and overall performance.

Q:What is the ideal location for installing solar collectors?: The ideal location for installing solar collectors is an area that receives ample sunlight throughout the year and has minimal shade obstruction. Additionally, a location with a south-facing orientation and proper tilt angle for maximum solar exposure is preferred.

Q:What is the effect of saltwater exposure on solar collectors?: The effect of saltwater exposure on solar collectors is generally negative. Saltwater can corrode and damage the components of solar collectors, such as the metal frames, reflective surfaces, and electrical connections. This corrosion can reduce the efficiency and lifespan of the collectors, resulting in decreased energy production. To minimize the impact of saltwater exposure, regular maintenance, protective coatings, and proper installation in coastal areas are essential.

Q:Can solar collectors be used for generating electricity on elevators?: Using solar collectors to generate electricity on elevators presents several considerations. Firstly, efficient electricity generation requires direct sunlight, but elevators are typically enclosed within buildings or shafts, limiting sunlight availability. The constant movement of elevators also creates shadows, further reducing exposure to sunlight. Additionally, solar collectors are typically installed on rooftops or open areas to capture maximum sunlight. Mounting them on elevators would require specific engineering and design considerations to ensure proper positioning and orientation for adequate sunlight. Continuously adjusting the position and angle of the solar collectors would also be necessary to optimize their efficiency as the elevator moves. Furthermore, the limited space on elevators poses a challenge. Solar collectors require sufficient surface area to generate significant electricity, which may not be feasible on the limited surface area of an elevator. Moreover, elevators have varying power requirements, and solar collectors may not generate enough electricity to meet these needs consistently. Installing energy storage systems or alternative power sources would be necessary to ensure a reliable power supply. In conclusion, while it is technically possible to use solar collectors for elevator electricity generation, challenges such as sunlight availability, limited space, and varying power requirements must be addressed through extensive engineering and design considerations to make it a viable solution.

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