English
中文简体
Español
Light transmittance: Photovoltaic glass has high transmittance, which allows sunlight to pass through the glass as much as possible and reach the surface of the photovoltaic panel. This maximizes the use of solar energy and improves photoelectric conversion efficiency.
Durability: Photovoltaic glass needs to have good durability and be able to resist the influence of the external environment, such as wind, rain, ultraviolet radiation, temperature changes, etc. It often uses special tempered or laminated glass technology for added strength and impact resistance.
Anti-reflective coating: In order to improve the photoelectric conversion efficiency of photovoltaic glass, anti-reflective coating is often applied to the glass surface. This coating can reduce light reflection, allowing more solar energy to enter photovoltaic panels and improving energy conversion efficiency.
Self-cleaning function: Some photovoltaic glass can also have a self-cleaning function. Through special coating or treatment methods, the surface is not easily contaminated with dust, dirt or water stains, thereby maintaining high light transmittance.
Safety: Photovoltaic glass needs to meet safety standards to ensure it does not break or create dangerous fragments in the event of an accident. This can be achieved through tempering, lamination or reinforcement.
Custom Design: Photovoltaic glass can be custom designed and manufactured to the size and requirements of your specific solar panel or photovoltaic system. This includes the size, shape, thickness, edge finish, etc. of the glass.
Photovoltaic glass plays a vital role in solar photovoltaic systems. Not only does it provide protection for photovoltaic panels, it also maximizes the ability to capture solar energy and convert it into usable electricity. Through continuous innovation and technological development, the efficiency and reliability of photovoltaic glass are constantly improving, making important contributions to the utilization of renewable energy.
