Classification and Characteristics of Solar Glass

1. Ultra Clear Float Solar Glass

Ultra Clear Float Solar Glass: for construction and solar energy

For construction: the transmittance requirements are relatively slack, and the appearance quality such as color is high.

For solar energy: high transmittance requirements, demanding solar glass components (cannot contain elements such as antimony, cobalt, etc.)

2. Low Iron Rolled Solar Glass

The continuous calendering method is that the glass liquid flows out from the tank kiln working tank along the trough, enters the pair of water-cooled hollow press rolls, is rolled into a flat plate, and then sent to the annealing furnace for annealing the glass forming method, super white calendering solar energy Glass is also called ultra-white cloth (sue) glass.

The Ultra Clear Rolled Solar Glass including Embossed Glass, Wire Mesh Glass, Corrugated Glass, Channel Glass.

3. Characteristics of Low Iron Rolled Solar Glass

High solar transmittance: The surface pattern causes the glass to scatter the incident light, which can help increase the absorption of incident light by the solar cell and achieve higher photoelectric conversion efficiency.

4. Features of Solar glass

1) Does not affect day-lighting.

After installing the solar cell on the edge of the solar glass, the mixed paint is applied to the surface of the solar glass. After the paint absorbs the sunlight, the light is transmitted to the solar cell installed at the edge of the solar glass at different wavelengths. The coating collects sunlight on large areas such as solar glazing. This shaped energy material is not only suitable for solar glass, but also for plastic plates and the like. It can also be made in color or transparent and colorless, and it will not affect the daylight when it is applied to the solar glass in transparent color.

2) Increase the efficiency of the panel.

At present, most solar concentrators use large moving mirrors to track sunlight, but the configuration and maintenance cost of the mirror is quite high, and the entire device is bulky, and the new energy gathering technology solves these problems. Because the production process of this technology is not complicated, the material cost is not expensive, which greatly reduces the cost. In addition, this technology can be added to existing solar panels, which can be used to increase efficiency by nearly 50%. This technology is low cost and is a revolutionary advancement in the field of solar energy use.