MODEL
|
S-1 (Small Size)
|
S-2
|
SIZE
|
630*480mm
|
1260*480mm
|
Weight
|
9kg
|
16.5kg
|
GLASS(Materials/Thickness)
|
Low-iron tempered glass/3.2mm
|
Low-iron tempered glass/3.2mm
|
Battery Size
|
182*91mm (2*5)
|
182*91mm (5*12)
|
Junction Box
|
≥IP67
|
≥IP67
|
Cable Type
|
450mm / 4mm²
|
900mm / 4mm²
|
Cable Joiner
|
MC4
|
MC4
|
Lifespan
|
>30 years
|
>30 years
|
Power output
|
35W
|
87W
|
Temperature Range
|
-40°C to +85°C
|
-40°C to +85°C
|
Fire Rating
|
ClassA
|
ClassA
|
Solar Tiles
Building-integrated photovoltaics (BIPV) energy is revolutionizing how homeowners can incorporate solar energy production into their homes.
BIPVs are built into the house's vital exterior elements. In this sense, BIPVs serve the double function of generating renewable energy for your home from the sun while also performing the necessary structural tasks of certain building elements.
Solar Roof Tiles Structures
Glass / glass solar panels are the most commonly used technology in energy generating buildings. This technology so far has the highest durability rate against harsh environmental conditions and longer lifespan
Roofing System
We provide roofing solutions that can be applied as an addition to an existing roof or instead of any other roofing.
It also could use to "replace" the following building elements:
* Roofs
* Facades or exterior cladding
* Windows
* Skylights
* Attached greenhouses
* Pergolas
* Balcony railings
How does the Solar Energy work?
1) Sunlight hits the solar cells to get the power, then the energy is converted to DC electricity.
2) The electricity enters the inverter to be converted into AC electricity that the home can use.
3) The excess power produced can be sold to the utility through net metering
4) Aso the excess electricity then flows through inverter to change back into DC electricity that can be stored for later.
5) If the house needs to use the energy stored in the battery, that electricity must flow through the inverter again to become AC electricity that the home can use.
6) A mobile monitoring app will show how much energy your solar system is creating and your home is using, and the savings you're generating.
|
BAPV (Building Applied Photovoltaics) |
BIPV (Building Integrated Photovoltaics) |
Installation Method |
Fitting modules to existing surfaces |
Replacement of the traditional construction element with materials incorporating solar modules |
Function |
Power generation without destroying or impairing the original building function |
Replacing the original building roof components, becoming a part of the integral building |
Appearance |
The roof is messy and the integrity is poor |
Beautiful, simple and elegant, with the characteristics of modern industrial buildings |
Lifespan |
20 Years |
50+ Years |
Secutiry |
Complex stress that affects structural safety |
The structural force is clear and the structural safety is high, which is in line with the national construction |
Waterproof |
Higher leakage risk |
Premium waterproofing resistance |
Difficulty in construction |
Construction in two phases, long construction period |
Easy construction and fast installation |
Maintenance |
Large roof deformation, there are many hidden dangers of water leakage, and maintenance is difficult |
Integrated roof synchronous design and construction will not cause secondary trampling damage |
IT'S A ROOFING MATERIAL!
Sangobuild Solar Roof Tile is a kind of roofing material just like conventional roof tiles. It not only can generate electricity power, but also can work as your roof cover to protect your house from rain, wind, hail, etc.
It saves your roofing cost. You don't need to install any traditional roofing materials. And you don't need to set up mounting racks on the roof to install solar tiles, which could affect the roof beauty to some extent.
The Future Of Solar Roof Tile is Brilliant!
In the coming years, the solar will become quite common with the technology improvements.
And with the high requirment of people's demand on roofing aesthetics as well as the waterproofing function, wind-uplift resistance, the BIPV solar roof tiles will become more popular on roofing buildings as well as generate renewable energy, this will also have a positive impact on the environment and climate change.
If you are considering installing BIPV roof tiles for your house or need more information, pls feel free to contact us.
1. Where Can You Install Building Integrated Photovoltaics (BIPV)?
Essentially, anywhere that sunlight directly hits the exterior surface of your home, homeowners can potentially incorporate BIPV products 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.
2. 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 a simple 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-integrated photovoltaic 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.
3. 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 number 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.
4. 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.
5. How Long do BIPVs Last?
Another added economic benefit of some BIPV systems is that they could potentially be much more durable than the building systems/elements they replace. For example, most asphalt shingle roofs have an average lifespan of 15 years. Conversely, most solar shingles will last 25-30 years with only a small drop in efficiency towards the end of that lifespan. The total economic savings associated with a BIPV roof, then, should take into consideration the cost of two roof installations. You could apply the same principle to solar facades and other BIPV systems.
6. What Is a Solar Shingle?
Like solar panels, solar roofing is designed to capture the energy from the sun that is shining on your roof and turn that energy into a usable power source for your home. Though different types of solar roofing products are available, they are all essentially mini solar panels designed to look like and function as conventional roofing materials. The main market driver of solar roofing products was consumer demand for solar panels that were less noticeable and conspicuous. Though some people appreciate the "futuristic" look of a roof clad in solar panels, others lament the loss of traditional roofing appearance. Solar roofing, then, is made to resemble asphalt shingles or slate tiles while also producing electricity. All of the different types of solar roofing are known as building-integrated photovoltaics (BIPV).
7. How Long Does Solar Roofing Last?
Solar shingles and other solar roofing products are lightweight and easy to install. Like all types of roofing alternatives, they are designed to withstand rain, wind, and hail and should easily last for 25 years or more. For example, Tesla's Solar Roof comes with the following specifications/warrantees:
* Tile warranty: 25 years
* Power warranty: 25 years
* Weatherization warranty: 25 years
* Wind rating: ASTM D3161 Class F
* Fire rating: Class A (highest rating)
* Hail rating: ANSI FM 4473 Class 3