Buy 12 Tubes Solar Pipes Solar Collectors with High Efficiency
- Ref Price:
-
- Loading Port:
- China main port
- Payment Terms:
- TT OR LC
- Min Order Qty:
- 5 set
- Supply Capability:
- 10000 set/month
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Specification
manifold (inner) | red copper |
manifold (exterior) | aluminum alloy |
glass tube dimensions | 58mm * 1800mm |
daily efficiency | ≥55% |
heat preservation | 72 hours |
hail resistance | 25mm |
max pressure | 7 bar |
coating of vacuum tube | ALN/AIN-SS/CU |
heat pipe | anti-freezing > -35 degree |
certificate | Solar Keymark, EN12975,SRCC |
Serious Product
Models | L*W*H mm | Vacuum tube | Power output | Efficiency | Header mm | Frame | container loading 20FT/40HQ sets | Gross Weight kg |
SHC-8 | 1917*910*133 | 58*1800*8pcs | 939W | 0.668 | Φ35/1.0 | AL alloy | 185/445 | 27 |
SHC-10 | 1917*1130*133 | 58*1800*10pcs | 1189W | 159/385 | 33 | |||
SHC-12 | 1917*1350*133 | 58*1800*12pcs | 1440W | 149/358 | 40 | |||
SHC-15 | 1917*1680*133 | 58*1800*15pcs | 1815W | 120/290 | 49 | |||
SHC-18 | 1917*2010*133 | 58*1800*18pcs | 2191W | 100/242 | 59 | |||
SHC-20 | 1917*2230*133 | 58*1800*20pcs | 2442W | 87/210 | 66 | |||
SHC-22 | 1917*2450*133 | 58*1800*22pcs | 2692W | 83/202 | 72 | |||
SHC-24 | 1917*2670*133 | 58*1800*24pcs | 2943W | 77/188 | 79 |
Packaging & Delivery
Packaging Details: | Exporting Carton with big foaming protection |
Delivery Detail: | In 10-15 days |
Loading Quantity
Model | Tube | Tube Q.T.Y | Loading Q.T.Y/40HQ |
GSC15 | 58*1800mm | 15pcs | 315sets |
GSC18 | 58*1800mm | 18pcs | 265sets |
GSC20 | 58*1800mm | 20pcs | 248sets |
GSC22 | 58*1800mm | 22pcs | 225sets |
GSC25 | 58*1800mm | 25pcs | 200sets |
GSC30 | 58*1800mm | 30pcs | 168sets |
Details of solar collector:
- Q: Can solar collectors be used for heating asphalt in road construction?
- Yes, solar collectors can be used for heating asphalt in road construction. Solar thermal technology can be utilized to heat the asphalt mix during the production process, reducing the reliance on fossil fuels and minimizing greenhouse gas emissions. This sustainable approach can contribute to more environmentally friendly road construction practices.
- Q: Can solar collectors be used for heating water for industrial processes?
- Yes, solar collectors can be used for heating water for industrial processes. Solar thermal systems can provide a cost-effective and environmentally friendly solution for heating large volumes of water in industries such as manufacturing, food processing, and agriculture. By harnessing the energy from the sun, solar collectors can generate heat to meet the hot water demand, reducing reliance on fossil fuels and lowering operating costs.
- Q: Can solar collectors be used for heating snow melting systems?
- Yes, solar collectors can be used for heating snow melting systems. Solar thermal collectors can absorb sunlight and convert it into heat, which can then be used to melt snow in a snow melting system. This can provide a sustainable and environmentally friendly way to heat and melt snow on surfaces such as driveways, walkways, and rooftops.
- Q: Can solar collectors be used for radiant floor heating?
- Yes, solar collectors can be used for radiant floor heating. Solar collectors, such as solar thermal panels or evacuated tube collectors, can capture solar energy and transfer it to a fluid which can then be used to heat the floors through a radiant system. This method is an efficient and sustainable way to provide warmth to a building's floors using renewable energy sources.
- Q: Can solar collectors be used in coal-fired power plants?
- Indeed, coal-fired power plants have the capability to utilize solar collectors. The primary source of fuel for these plants is coal, a fossil fuel that is used to generate electricity. However, the integration of solar collectors into these facilities can contribute to reducing the overall carbon footprint and improving energy efficiency. Within coal-fired power plants, solar collectors can be employed in various ways. One method involves the use of solar thermal collectors to preheat the feedwater prior to entering the boiler. This preheating process reduces the amount of fuel required to heat the water, resulting in decreased coal consumption and lower emissions. Another approach entails the utilization of solar photovoltaic (PV) panels alongside the coal-fired power plant to generate electricity. This additional solar power can supplement the electricity produced through coal combustion, thereby reducing reliance on fossil fuels and decreasing greenhouse gas emissions. The implementation of solar collectors in coal-fired power plants can also contribute to reducing operational costs. By harnessing solar energy, the plant can decrease its coal consumption, leading to potential cost savings over time. Furthermore, the integration of solar collectors into coal-fired power plants can serve as a transitional measure towards a cleaner and more sustainable energy system. As the world progresses towards renewable energy sources, the incorporation of solar technology into existing coal-fired power plants can act as a stepping stone towards a greener future. In summary, solar collectors can indeed be utilized in coal-fired power plants to enhance energy efficiency, reduce emissions, and decrease operational costs.
- Q: What is the maintenance cost of a solar collector?
- The maintenance cost of a solar collector can vary depending on factors such as the size and type of the collector, as well as the specific location and climate. Generally, solar collectors require minimal maintenance. Routine tasks may include cleaning the collector surface, checking for any damage or leaks, and inspecting the components to ensure optimal performance. Additionally, periodic professional inspections and possible repairs might be needed, which would incur additional costs. Nonetheless, compared to other energy systems, the maintenance cost of a solar collector is typically low, resulting in long-term cost savings.
- Q: Can solar collectors be used for drying construction equipment?
- Solar collectors, also known as solar thermal collectors, have the capacity to be utilized for the purpose of drying construction equipment. These devices are responsible for absorbing sunlight and converting it into heat. This heat can then be employed for a multitude of purposes, one of which includes the drying of equipment. By employing solar collectors to generate heat, construction equipment can be effectively dried without relying on conventional fuel-based techniques. The process of drying involves directing the heat generated by solar collectors towards the equipment in need of drying. This can be accomplished by either placing the equipment in direct contact with the solar collectors or by utilizing a network of pipes to transfer the heat to the equipment. The heat emanating from the solar collectors has the ability to effectively evaporate any moisture present on the equipment, thus ensuring thorough drying. The utilization of solar collectors for the drying of construction equipment boasts several advantages. To begin with, it is an environmentally friendly choice as it relies on renewable energy derived from the sun. This diminishes the dependence on fossil fuels and aids in the reduction of carbon emissions. Additionally, solar collectors necessitate minimal maintenance and possess a lengthy lifespan, rendering them a cost-effective option in the long run. Nevertheless, it is important to acknowledge that the efficacy of solar collectors for the drying of construction equipment can be influenced by a variety of factors, such as weather conditions, the size and design of the equipment, and the quantity of moisture present. In certain instances, supplementary heating methods may be required to ensure optimal drying. All things considered, solar collectors can prove to be a viable and sustainable solution for the drying of construction equipment, providing an energy-efficient alternative to traditional drying methods.
- Q: Are solar collectors suitable for heating greenhouses?
- Yes, solar collectors are suitable for heating greenhouses. They can effectively harness the sun's energy to provide heat, reducing the reliance on traditional heating methods and increasing sustainability. Solar collectors can help maintain optimal temperatures for plant growth, making them an eco-friendly and cost-effective solution for greenhouse heating.
- Q: Can solar collectors be used for heating public transportation stations?
- Certainly, solar collectors are capable of being utilized for the purpose of heating public transportation stations. Known also as solar thermal systems or solar water heaters, these collectors harness the energy of the sun to warm water or air, which can then be employed for heating objectives. Public transportation stations, such as bus stops, train platforms, or subway stations, often necessitate heating during colder periods to ensure the well-being of commuters awaiting their rides. Installation of solar collectors atop or on the walls of these stations enables the capturing of sunlight and its conversion into usable heat. The solar energy collected can be utilized to heat water, which can subsequently be circulated through radiators or underfloor heating systems, thereby providing warmth to the stations. Alternatively, the solar energy can directly warm the air within the stations, creating a comfortable environment for commuters. Utilizing solar collectors for heating public transportation stations offers several advantages. Firstly, it presents a sustainable and environmentally conscious solution, as it relies on renewable energy from the sun, thereby diminishing dependence on fossil fuels and reducing carbon emissions. Secondly, it aids in reducing energy expenses for these stations, since solar energy becomes free once the initial installation cost is recovered. Furthermore, it enhances the overall commuting experience by offering a warm and cozy waiting area during colder weather conditions. Nonetheless, certain factors must be taken into account when implementing solar collectors for heating public transportation stations. The size and design of the solar thermal system must be thoughtfully planned to ensure its ability to meet the heating demands of the station. Additionally, adequate insulation and energy-efficient building design should be considered to optimize the efficacy of the solar heating system. Regular maintenance and surveillance are also essential to ensure optimal performance and address any potential issues. In conclusion, solar collectors can definitely be employed for heating public transportation stations. By harnessing the sun's power, these systems offer a sustainable and economical means of heating these stations, thereby improving the comfort of commuters while minimizing environmental impact.
- Q: Can solar collectors be used for generating electricity on billboards?
- Yes, solar collectors can be used for generating electricity on billboards. Solar collectors, also known as solar panels or photovoltaic (PV) panels, can convert sunlight directly into electrical energy. When installed on billboards, solar collectors can harness the sunlight and convert it into electricity, which can then be used to power the billboard's lighting or other electrical components. This application of solar collectors on billboards offers several benefits. Firstly, it allows billboards to be self-sufficient in terms of energy supply, reducing or even eliminating their dependence on the electrical grid. This can lead to significant cost savings and a more sustainable operation. Additionally, using solar collectors on billboards promotes renewable energy usage and reduces carbon emissions. By harnessing the sun's energy, billboards can contribute to reducing the environmental impact associated with traditional fossil fuel-based electricity generation. Furthermore, solar collectors on billboards can also serve as a visible symbol of the company's commitment to sustainability and renewable energy. It can enhance the brand image and attract environmentally conscious consumers. However, there are a few factors to consider when installing solar collectors on billboards. The size of the solar collectors should be carefully determined to ensure they fit within the available space on the billboard without obstructing the visibility of the advertisement. Additionally, the positioning and orientation of the solar collectors should be optimized to maximize sunlight exposure and electricity generation. Overall, solar collectors can indeed be used for generating electricity on billboards, offering numerous advantages such as cost savings, environmental benefits, and improved brand image.
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Buy 12 Tubes Solar Pipes Solar Collectors with High Efficiency
- Ref Price:
-
- Loading Port:
- China main port
- Payment Terms:
- TT OR LC
- Min Order Qty:
- 5 set
- Supply Capability:
- 10000 set/month
OKorder Service Pledge
Quality Product, Order Online Tracking, Timely Delivery
OKorder Financial Service
Credit Rating, Credit Services, Credit Purchasing
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