The Future of Low-E Glass Tech What to Expect? | Buy From VGC China
What is Low-E Glass?
Low-E Glass (low emissivity glass) is a type of energy-efficient glass that is coated with a thin, transparent layer of metal or metallic oxide. The coating reflects infrared radiation and blocks heat transfer, which helps to keep indoor spaces cooler in the summer and warmer in the winter.
low emissivity glass works by selectively transmitting and reflecting different wavelengths of light. The coating is designed to allow visible light to pass through while reflecting infrared radiation. This means that Low-E glass can reduce the amount of heat that enters or escapes a building through windows, which can help to lower energy costs and improve indoor comfort.
There are two types of Low-E glass: passive and solar control. Passive low emissivity glass is designed to provide insulation, while solar control Low-E glass is designed to reduce solar heat gain. Both types of Low-E glass can be used in a variety of building applications, including windows, doors, and skylights.
Specificaion of Low-E Glass
Product | low emissivity glass |
Types | Passive Control |
Solar Control | |
Thickness | 3mm 4mm 5mm 6mm 8mm 10mm 12mm 15mm 19mm etc. |
Max. Thickness | 57mm |
Max. Size | 3000mm × 6000mm |
Min. Size | 100*100mm |
Edges | Simple grinding edges, polished edges, customized edges |
Spacer width | 6mm, 9mm, 12mm, 15mm and 16mm |
Application | Glass Windows,Glass Doors,Glass Curtain Walls, Furniture Glass, Inner and outer Glass Decoration. |
The Advantages of Low-E Glass?
There are several advantages to using low emissivity glass in building design:
- Energy Efficiency: can significantly reduce the amount of energy needed to heat or cool a building by minimizing the amount of heat transfer through windows. This can help to reduce energy bills and lower a building’s carbon footprint.
- Comfort: By reducing the amount of heat that enters or escapes a building through windows, can help to maintain a more comfortable indoor environment. This can lead to increased productivity and overall well-being.
- UV Protection: can block up to 99% of harmful UV radiation, which can help to protect furniture, flooring, and artwork from fading and sun damage.
- Versatility: low emissivity glass can be used in a variety of building applications, including windows, doors, and skylights. It is available in different colors and levels of performance to meet the specific needs of different building designs.
- Cost-Effective: While Low-E glass may have a slightly higher initial cost compared to standard glass, its energy-saving benefits can help to offset this cost over time through lower energy bills.
- can help homeowners save money on energy costs by reducing heat loss in the winter and heat gain in the summer. It also protects furniture from fading by blocking UV rays, improves indoor comfort, reduces noise, and has a positive impact on the environment.
Overall, Low-E glass is an effective way to improve the energy efficiency, comfort, and value of a building while also providing protection against UV radiation.
Low-E Glass vs Normal Glass
Low-E (low emissivity) glass is a type of glass that has a special coating applied to its surface to reduce the amount of heat transfer through the glass. This coating reflects heat back into a room or building, making it more energy-efficient.
Normal glass, on the other hand, is not coated and allows a significant amount of heat to pass through it. This can result in energy loss and higher heating and cooling costs.
Low-E glass can be more expensive than normal glass, but its energy-saving properties can provide long-term savings on energy bills. It can also help to reduce the amount of ultraviolet (UV) light that enters a building, which can help to prevent fading of furniture, carpets, and other interior items.
Low-e glass is better than regular glass for energy efficiency and overall performance. Regular glass allows more heat to pass through, resulting in higher energy costs, while low-e glass reflects heat back to its source, reducing the amount of heat entering or escaping a building. Low-e glass also improves comfort and blocks UV rays, even though it may cost more upfront.
Overall, if you’re looking to make your home or building more energy-efficient and reduce your energy costs, low-E glass is a good choice. However, if cost is a major concern, normal glass may be a more affordable option.
Where we can use LOW-E GLASS?
Low-E glass can be used in a variety of building applications, including:
- Windows: is commonly used in residential and commercial windows to improve energy efficiency and reduce heat gain or loss.
- Doors: can be used in exterior and interior doors to provide insulation and UV protection.
- Skylights: can be used in skylights to allow natural light into a building while minimizing heat gain.
- Curtain Walls: Low-E glass can be used in curtain walls, which are non-structural exterior cladding systems that are typically used in commercial buildings.
- Greenhouses: can be used in greenhouses to control temperature and light transmission.
- Automotive Glass: Some cars use Low-E glass in their windows to improve fuel efficiency and reduce heat gain.
- Overall, Low-E glass is a versatile and effective solution for improving energy efficiency, reducing heat gain or loss, and providing UV protection in a variety of building applications.
How To Choose The Right Low-E Glass For Your Project
- Choosing the right low-e Coating Glass for your project depends on several factors, including the climate, building orientation, and desired performance. Here are some tips for selecting the right Low-e coating glass:
- Determine the climate zone: glass coatings are designed to perform differently in different climates. Select a low-e glass coating that is optimized for the climate zone in which your project is located.
- Consider building orientation: Buildings facing different directions may have different energy needs. For example, buildings facing north may require more insulation than buildings facing south. Choose Low-E coating glass is optimized for the building orientation.
- Identify the desired performance: can vary in terms of their visible light transmission, solar heat gain coefficient, and U-value. Consider your project’s performance needs in terms of natural light, heat control, and insulation.
- Consult with a professional: Work with a professional glass supplier or architect to determine the best low-e glass solution for your project.
- By considering these factors, you can select the right low emissivity glass coating for your project, optimizing energy performance and comfort.
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