Integrated Rooftop Mounted Solar Structures BIPV Skylights Building
Product Details:
Place of Origin: | China |
Brand Name: | FASEC |
Certification: | ISO 9001; ISO 14001; IEC ; UL |
Model Number: | BIPV Skylight |
Payment & Shipping Terms:
Packaging Details: | Pallets Packaing or Packing in Bulk (Seaworthy packings into container or bulk vessel ) |
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Delivery Time: | 30~45 workdays |
Payment Terms: | L/C,T/T, Western Union |
Supply Ability: | 300,000 Square Meter per Year |
Detail Information |
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Product Name: | Solar PV Glass | Type: | Monocrystalline, Polycrystalline PV Glass |
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Material: | Glass, Cells | Application: | Commercial / Residential Buildings |
Function: | Generating Energy,Heat-insulation,shading | Glass Type: | Ultra Clear, Patterned,Rolled,AR Coated,Back Print |
Frame: | 6063-T5 Grade Of Aluminum Alloy, Invisible Frame, STANDARD ALUMINUM PROFILE | Hardware: | China Top Brand, CHINA BRAND OR GERMAN, High Quality Made In China, Chinese Brand Or International Brand For 10 Years Warraty, ALUK Brand |
Surface Treatment: | Anodized, Powder Coating,Electrophoresis | Certification: | ISO 9001; ISO 14001; IEC ; UL |
Warranty: | 10 Years | ||
High Light: | Rooftop Mounted BIPV Solar Structures,BIPV Building Integrated Photovoltaics Skylights,Shading Building Integrated Pv Panels |
Product Description
BIPV SkylightsTransparent Solar PV Glass for Commerical Skylights
What is Building-Integrated Photovoltaics (BIPV) ?
Building-integrated photovoltaics are energy generating photovoltaic materials or components that are used to replace traditional building components or materials . They can be used in a wide range of applications such as ventilated facades, curtain walls, rooftop, canopies, windows and balconies.
The components of a building-integrated photovoltaic system include:
· Photovoltaic module
· Backup power supply system
· Charge controller
· Power storage system
· Support for wiring, hardware and safety disconnects
A PV module is created by a series of connected solar cells that provide standard output power. The PV module is encapsulated with tempered glass or other transparent material on the front surface, and with a protective and waterproof material on the back. The edges are sealed for weatherproofing, and there is a frame holding everything together in a mountable unit. In the back of the module, there is an electrical box, or wire leads, providing electrical connections. These panels are created to absorb sunlight as a source of energy to generate electricity. The electricity created from solar cells has become one of the most cost-efficient energy sources.
Solar PV modules have aluminum frames that are attached directly to the silicon. Solar panel framing plays a fundamental role in increasing mechanical strengths as well as making the installation process easier. It is important to know the different types of framing options, there is the full-frame, partial frame, and bifacial frame.
There are different types of panel technologies, offering varying levels of efficiency and reliability. The three most prevalent module types are monocrystalline, polycrystalline, and thin film. Each of these modules serves different purposes and needs, the graph below is a quick overview of each panel in comparison to one another.
Why You Should Consider Replacing Conventional Building Materials with BIPV Modules?
In the world of energy, especially the solar market, Building-integrated photovoltaics (BIPV) are rapidly becoming omnipresent and is widely used to replace conventional building materials in facade, roofs and skylights.The advantage of integrating BIPV into existing building materials is that
- Replacing conventional materials at lower costs. The initial operating cost can be positively affected by reducing the amount that is spent on conventional raw materials.
- Significant reduction in labour that would normally be used to construct parts of the building, which would eventually be replaced by the BIPV modules.
- Power generation and electricity bill payment reduction: BIPV system can be considered as ancillary or a primary electrical power source. Building-integrated photovoltaic components can generate power efficiently and effectively for a building. There are different technologies and projects that work in conjunction with these to ensure a rich energy harvest.
- When used for facade, they can protect components from unwanted solar heat and provide necessary functions such as thermal insulation, acoustic insulation or water proofing.
- Reduced building energy consumption: BIPV modules also help in Green Building and reduce the solar heat gain on the building and hence reduce the temperature of the building which results in lower consumption of air conditioners.
The solar BIPV modules are popular among architects, building consultants and planners to build more sustainable and eco-friendly buildings without compromising on architectural designs. BIPV has become one of the fastest growing segments of the photovoltaic industry. Among the several types of BIPV solar modules, the Double glass PV module series is the most widely used. It is available in different colours, dimensions, and shapes and is perfect for housing and commercial buildings as it provides the right amount of opaqueness.
With the world moving towards greater environmental sustainability and eco-friendly products, it is necessary to re-evaluate our energy producing sources and the best way forward is the solar way. Photovoltaic skylights are a great solution for both new construction and renovation projects. A PV skylight generates clean and free energy at the same time that it provides bioclimatic properties of thermal comfort. It has an optimized solar filter, which absorbs almost all of the ultraviolet and infrared rays that are harmful to the occupants of the building. The air chamber of the insulating glass guarantees a better thermal performance inside the building.The advantages mentioned above help to reduce considerably the CO2 and other greenhouse gas emissions, which significantly reduces the carbon footprint of buildings. In addition, they offer an average payback time of 2 years, and decrease the energy consumption of the building by 40%.
We are ONE-STOP-SHOP for a variety of applications for Building Integrated Photovoltaic Systems on your building or home. We have completed many projects in New Zealand, Australia, Europe, South America and Southeast Asia. Please feel free to contact us by phone or email if you need a recommendation.
Part of our BIPV standard modules on offer:
Model No. | FM40-170 | FM50-210 | FM60-270 | FM72-320 |
Warranty | ||||
Product Warranty | 10 Years | |||
Electrical Data at STC | ||||
Maximum Power (Pmax) | 170 Wp | 210 Wp | 270 Wp | 320 Wp |
Voltage at Maximum Power (Vmpp) | 21.17 V | 24.98 V | 30.59 V | 37.43 V |
Current at Maximum Power (Impp) | 8.11 A | 8.33 A | 8.5 A | 8.55 A |
Open Circuit Voltage (Voc) | 29.79 V | 31.65 V | 38.24 V | 46.56 V |
Short Circuit Current (Isc) | 8.59 A | 8.85 A | 9.07 A | 9.16 A |
Panel Efficiency | 10.40% | 10.70% | 16.50% | 16.30% |
Standard Test Conditions (STC): air mass AM 1.5, irradiance 1000W/m2, cell temperature 25°C | ||||
Thermal Ratings | ||||
Operating Temperature Range | -10~85 °C | |||
Temperature Coefficient of Pmax | -0.43 %/°C | |||
Temperature Coefficient of Voc | -0.38 %/°C | |||
Temperature Coefficient of Isc | 0.08 %/°C | |||
Maximum Ratings | ||||
Maximum System Voltage | 1000 V | |||
Series Fuse Rating | 15 A | |||
Cell Type | Monocrystalline |