BIPV Module Monocrystalline Solar Panel System Solar Powered Fan Types of Solar Energy BIPV Roof

Product Details
Customization: Available
After-sales Service: Assist in Installation
Warranty: 25 Years
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Number of Employees
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Year of Establishment
2007-04-10
  • BIPV Module Monocrystalline Solar Panel System Solar Powered Fan Types of Solar Energy BIPV Roof
  • BIPV Module Monocrystalline Solar Panel System Solar Powered Fan Types of Solar Energy BIPV Roof
  • BIPV Module Monocrystalline Solar Panel System Solar Powered Fan Types of Solar Energy BIPV Roof
  • BIPV Module Monocrystalline Solar Panel System Solar Powered Fan Types of Solar Energy BIPV Roof
  • BIPV Module Monocrystalline Solar Panel System Solar Powered Fan Types of Solar Energy BIPV Roof
  • BIPV Module Monocrystalline Solar Panel System Solar Powered Fan Types of Solar Energy BIPV Roof
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Basic Info.

Model NO.
JS30DG-6b1/2
Number of Cells
36pcs
Application
Industrial
Condition
New
Certification
ISO, CE, TUV
Material
Monocrystalline Silicon
Dimensions
586mm*400mm
Weight
5kg
Glass (Material/Thickness)
Tempered Glass/3.2mm+Tempered Glass/3.2mm
Junction Box
≥IP67
Plug Connector
Mc4
Transport Package
Carton/Wooden Box
Specification
1780*1180mm
Trademark
GAINSOLAR
Origin
Hebei China
HS Code
85414300

Packaging & Delivery

Package Size
58.60cm * 40.00cm * 10.00cm
Package Gross Weight
7.000kg

Product Description

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PHYSICAL PARAMETERS
Product model JS30DG-6e Junction box ≥IP67
Color Black Cable type 300mm / 4mm² /Customizable
Dimensions 586*400mm Plug connector MC4
Weight 5kg Life span >30years
Glass (material/thickness) Tempered glass/3.2mm+Tempered glass/3.2mm
 
ELECTRICAL PARAMETERS(STC)
Solar cells Monocrystalline
Power output(Pmax ) 35W Current at Pmax(I mpp) 6.14A
Module efficiency(%) 15% Open-circuit current(Voc) 6.74V
Voltage at Pmax(Vmpp) 5.7V Short-circuit current(Isc) 6.53A
 
OPERATING CONDITIONS PERFORMANCE GRADE
Max. system voltage 1500VDC Load grade 2400Pa
Max. series fuse rating 20A Fireproofing grade ClassA
Operating temperature range -40°C~+85°C Anti-hail grade Φ25mm/23m/s
Max. static load, front (e.g., snow) 5400Pa Operating temperature -40ºC~+85ºC
Max. static load, back (e.g., wind) 2400Pa Operating humidity 0-80%
Max. hailstone impact (diameter / velocity)  25mm / 23m/s    
BIPV Module Monocrystalline Solar Panel System Solar Powered Fan Types of Solar Energy BIPV Roof
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How long does a solar panel last?
Most solar panels have a guaranteed lifespan of 25 years-30years.
Can the solar panel be damaged by wind/snow?
Solar panels are well attached to the roof and can take a beating. The panels are so well secured that they can even withstand speeds of up to 150 km/h . Since the surface of the solar panels is very slippery, the snow will slide off in most cases. As a result, the generation of solar energy is often not hindered. An ice layer can form on the solar panel, which will melt away automatically as soon as it stops freezing.
How much maintenance do I have to do on my solar panel?
Solar panels require little maintenance. Solar panels last at least 25 years, while the inverter lasts 10-12 years. This inverter will therefore have to be replaced halfway through its use. It is advisable to clean the solar panels once in a while, so that optimal solar energy can be generated.

Where Can You Install Building Integrated Photovoltaics (BIPV)? Essentially, anywhere that sunlight directly hits the exterior surface of your home, homeowners can potentially incorporate BIPVproducts into the building design. Companies that operate in the BIPV market continue to find ingenious ways to integrate BIPV products into the building envelope seamlessly. They can be part of standard building components such as façades, roofs, or windows. Though you could not generate electricity by placing solar panels on your home foundation, virtually anywhere that sunlight is present, you may be able to find a BIPV product to install.

What Types of Building-Integrated Photovoltaics Can You Buy?
BIPV products used to be exclusively for roofing. This feature makes sense since our roofs generally receive the most direct solar radiation. Most early innovators in BIPV technology focused on replacing traditional roofing with panels, tiles, or shingles that could generate renewable solar energy while protecting the home from the elements. The impetus for this innovation stemmed from asimple economic calculation. Suppose the average cost of a roofing replacement in the USA costs between $5,500 and $11,500. In that case, solar panels that doubled as a roof could essentially "subsidize" part of the cost of going solar. BIPV products are systems that can function as a component of the building skin or envelope while simultaneously converting solar energy into electricity by serving a dual purpose. Instead of attaching solar panels to a separate roof or façade, BIPV products can offer weather protection, thermal insulation, noise protection, daylight illumination, and even increased safety, along with an independent, clean source of renewable energy for your home. According to one financial analysis, building-integratedphotovoltaic products' total global market size will grow to an astounding $59.5 billion by 2028. As more and more companies rush to enter the BIPV industry, the market could see a compound annual growth rate of at least 20 percent! In practical terms, this means that the options for building-integrated photovoltaics currently available to homeowners and builders will only continue to expand. Prices should also continue to drop as competition stiffens and more innovative products become available. The combination of the plummeting cost of solar energy and innovative technologies in solar energy production (such as thin-film technologies, solar cell efficiency, open-circuit voltage, short circuit current, maximum effect, and fill factor) will almost certainly continue to drive innovation in BIPV products.

How Much Energy Can BIPVs Produce?
The exact amount of energy that BIPV products or systems can produce is contextual. The total amount of energy will depend on several environmental factors related to your home location, including: Insolation/Solar Radiation: The average amount of solar radiation your home receives, as calculated by kWh/m2/day, is the most common way to describe the amount of solar resources in a particular area. Check out this tool provided by the US Department of Energy to determine your home's solar radiation potential. Climate and other Weather Conditions: Both scorching summer temperatures and continuously cloudy/rainy conditions can negatively affect the system output for all types of BIPVs. Also, urban areas with high levels of air pollution may increase cleaning and maintenance requirements to ensure the BIPV systems operate at maximum efficiency. Shading Conditions: Though solar technologies today deal better with shady conditions, the presence of trees, buildings, and other structures that block the sun from your home for long periods of the day will reduce the BIPV system energy production.

Are BIPVs Worth It?
The primary appeal of BIPV products is twofold. BIPV systems increase the space on and around that home where you can turn solar radiation into usable energy for your home. More importantly, is the economic factor because BIPV products serve a double function. They provide renewable energy while also protecting the house, reducing the cost of autonomous solar energy generation for homeowners. By using solar shingles instead of asphalt panels, homeowners can essentially "discount" the roofing price from their solar installation. The same "discount" could also be applied to skylights, railings, skylights, and other places where manufacturers could design BIPV systems.

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