• blue titanium flat panel solar thermal collector System 1
  • blue titanium flat panel solar thermal collector System 2
  • blue titanium flat panel solar thermal collector System 3
blue titanium flat panel solar thermal collector

blue titanium flat panel solar thermal collector

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Loading Port:
Shanghai
Payment Terms:
TT OR LC
Min Order Qty:
500 pc
Supply Capability:
10000 pc/month

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Solar Thermal Collector

 

"This kind of products use All-glass Evacuated Tubular Solar Collector Tube with Heat Pipe as its heat-absorb element. So it can be connected to the pressurized system.

 

 

 

These top-of-the-range solar panel heat collectors are suitable for heating domestic hot water, swimming pools etc - even in winter! One unit is adequate for an average household (3-4people), and it is modular, so you can add more if required. A single panel is sufficient for a 200litre cylinder, but you can fit 2 or more for high water usage, or for heating swimming pools or underfloor heating. Some types of renewable energy are only available in certain locations, however free solar heating is potentially available to almost every house in the world! "


Specifications

Flat Panel Solar Collector for Solar Water Heateing 
1.Certificate:CE,ISO,CCC 
2.Life time:25years 
3.OEM provide




Description:

Flat-plate collector is one of common solar collectors for solar hot water heating in homes and solar space heatings. Flat plate solar collectors provide quality hot water with its new solar energy efficient flat plate design. This glazed collector includes a selective coating to maximize the solar heat absorption, weather resistant aluminium framing and interior fibreglass insulation for increased efficiency. 

 

Features:

 1. Using patent advanced coating technology with high efficiency      performance

2. High strength aluminium-alloy structure with surface varnish baking

3. High visual shape, easy installation, maintenance free

4. Pressurized designing, operate with pressure up to 100degree

5. Can be combined with existing energy 

1) High efficiency solar collector using heat pipe evacuated tubes

2) Able to be used in all climates

3) Reliable and efficient with twin-glass solar tubes

4) Copper heat pipes for rapid heat transfer

5) Easy plug-in installation for mounting on the roof or at ground level

6) Maintenance free

7) Suitable for mains pressure water (up to 6bar / 87psi)

8) Corrosion resistant silver brazed copper header

9) Frame material: 304 2B grade standard steel

10) Casing material: 304 BA or AB stainless steel

11) Excellent insulator in glass wool

12) Collectors may be connected in series to increase water heating capacity

13) Tubes easily replaced if broken - can be used with broken tubes

14) Ideal for commercial solar water heating applications

 


Q:Can solar collectors be used for heating warehouses and storage facilities?
Yes, solar collectors can be used for heating warehouses and storage facilities. Solar thermal collectors, such as flat plate collectors or evacuated tube collectors, can capture solar energy and convert it into heat. This heat can be utilized for space heating or for heating water in the facility. By installing solar collectors on rooftops or open areas near the warehouse, the facility can benefit from renewable energy to reduce heating costs and decrease reliance on fossil fuels.
Q:How do solar collectors perform in areas with high levels of sand or dust storms?
Solar collectors can face some challenges in areas with high levels of sand or dust storms. The presence of sand or dust particles in the air can reduce the efficiency of solar collectors by blocking or covering the surface of the panels. This can significantly reduce the amount of sunlight reaching the collectors and, consequently, decrease the amount of electricity or heat generated. To mitigate these challenges, solar collectors in such areas often require regular maintenance and cleaning. This includes removing any accumulated sand or dust from the surface of the panels to allow for optimal sunlight absorption. In some cases, automated cleaning systems that use water or brushes may be installed to ensure the panels remain clean and free from any obstructions. Another approach is to use advanced anti-soiling coatings on the surface of the solar collectors. These coatings are designed to repel dust and sand particles, preventing them from sticking to the panels. This can help maintain the efficiency of the collectors for longer periods between cleanings. Additionally, the design and orientation of solar collectors can play a role in minimizing the impact of sand or dust storms. By placing the collectors at an angle or using tilted panels, the force of the wind during storms can help to naturally blow away loose particles, reducing the accumulation on the panels. In conclusion, while solar collectors may face challenges in areas with high levels of sand or dust storms, regular maintenance, cleaning, and the use of anti-soiling coatings can help ensure their optimal performance. Proper design and orientation can also help to minimize the impact of these environmental conditions on the efficiency of solar collectors.
Q:What is the environmental impact of solar collectors?
The environmental impact of solar collectors is generally positive. They produce clean, renewable energy without emitting greenhouse gases or other pollutants during operation. However, the production and disposal of solar panels can have some environmental consequences, including the release of certain toxic chemicals. Proper recycling and disposal methods can mitigate these impacts. Additionally, the land and water use for large-scale solar installations may have some localized effects on ecosystems. Overall, the environmental benefits of solar collectors outweigh their potential drawbacks.
Q:How do parabolic trough solar collectors work?
Parabolic trough solar collectors work by using curved mirrors to concentrate sunlight onto a receiver tube. The mirrors are curved in a parabolic shape, which allows them to focus the sunlight onto a small line along the length of the tube. Inside the receiver tube, a heat transfer fluid is heated by the concentrated sunlight. This hot fluid is then used to generate steam, which can be used to power turbines and produce electricity.
Q:Can solar collectors be used in remote areas?
Yes, solar collectors can be used in remote areas. They are particularly suitable for remote areas where access to electricity is limited or nonexistent. Solar collectors can provide a reliable and sustainable source of energy by harnessing sunlight, making them an ideal solution to meet the energy needs of remote communities or installations.
Q:Can solar collectors be used in combination with solar tracking systems?
Solar collectors can be utilized alongside solar tracking systems to increase the efficiency and output of a solar energy system. These collectors are specifically designed to capture and convert sunlight into usable energy, while solar tracking systems adjust the position of the solar panels or collectors throughout the day to maximize sunlight absorption. By combining these technologies, the overall performance of the solar energy system can be significantly improved. Solar tracking systems function by following the movement of the sun and adjusting the angle and orientation of the solar collectors accordingly. This ensures that the collectors capture sunlight at the optimal angle, resulting in the highest possible energy generation. The ability to track the sun throughout the day guarantees that the solar collectors are always positioned to receive the maximum amount of sunlight available. When used in conjunction with solar tracking systems, solar collectors enhance the overall functionality of a solar energy system. They can be employed in various applications, such as solar thermal collectors for heating water or air, or photovoltaic (PV) panels for electricity generation. By incorporating both solar collectors and solar tracking systems, the energy output of the system can be increased, leading to improved efficiency and cost-effectiveness. Nevertheless, it is important to consider that implementing solar tracking systems may entail additional costs and maintenance requirements. The moving parts and mechanisms involved in tracking the sun's movement need to be carefully maintained to ensure proper functioning. Furthermore, the enhanced efficiency provided by solar tracking systems may not always justify the additional investment, particularly in areas with consistently high solar irradiance. In conclusion, solar collectors can be effectively combined with solar tracking systems to optimize the efficiency and energy output of a solar energy system. However, the decision to integrate solar tracking should be carefully evaluated based on the specific requirements, location, and cost-effectiveness of the project.
Q:What is the average cost of a solar collector system?
The average cost of a solar collector system can vary depending on various factors such as the size of the system, type of collectors used, installation costs, and location. However, on average, a solar collector system can cost anywhere from $10,000 to $30,000.
Q:Can solar collectors be used for generating electricity on electric vehicle charging stations?
Yes, solar collectors can be used for generating electricity on electric vehicle charging stations. By installing solar panels or collectors on the charging stations' rooftops or nearby areas, the energy from the sun can be harnessed and converted into electricity to charge electric vehicles. This renewable energy source can help reduce reliance on the grid and decrease carbon emissions associated with charging electric vehicles.
Q:Can solar collectors be used for space exploration?
Yes, solar collectors can be used for space exploration. Solar collectors, such as solar panels, are commonly used in space missions to generate electricity from sunlight. They are used to power various systems and instruments on spacecraft, including communication devices, scientific instruments, and life support systems. Solar collectors are particularly useful for space exploration as they provide a reliable and renewable source of energy in the form of sunlight, which is abundantly available in space.
Q:Can solar collectors be used for heating refineries?
Yes, solar collectors can be used for heating refineries. Solar thermal systems can provide heat for various industrial processes, including heating refineries. By capturing the sun's energy and converting it into heat, solar collectors can help reduce the reliance on fossil fuels and decrease greenhouse gas emissions in the refining industry. Additionally, solar thermal systems can offer cost savings and long-term sustainability for refineries.

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