In the modern world, people seek high standard indoor environments, leading to increasing energy consumption through building heating and air-conditioning; accordingly a stronger voice for environmental protection arises. Building Integrated Photovoltaic (BIPV) is a technology that integrates thin-film power generation products onto buildings. BIPV thin-film solar power systems, which are designed, constructed and installed at the same time as the construction work, become harmonious with the buildings. As part of the building, it not only has functions such as power generation, energy saving and consumption reduction, but can further enhance the aesthetic value of the building. Hanergy's thin-film solar technology has many advantages such as a high conversion rate, good performance under low light, being lightweight, flexibility and diverse colors. It brings more options to architectural design, and solar modules can form a perfect unity with the building. At present, Hanergy has become a BIPV solution provider integrating design, R&D, production, integration, construction and operation and maintenance.More
In line with international and domestic standards, and having passed reliability testing by a variety of authoritative product certification agencies.
PV modules adopt a double-glass structure, which needs to pass a series of strict mechanical properties testing. The modules passed a static load test, or the equivalent of 2 meters of snow pressure, and can withstand a gale level of 12, ensuring utmost safety during outdoor use.
Able to work under extreme temperatures
The products won't turn yellow under strong UV irradiation and can significantly reduce UV light transmittance.
Significant anti-hot spot effect under shadowing. Effectively avoid module failures under maintenance-free conditions.
In hot weather the modules are connected in series under unstable irradiation, the thin-film components' natural double-glass structure is highly fireproof and can effectively avoid the risk of fire.
Seaside salt mist is highly corrosive to normal PV modules while Hanergy’s double-glass structure modules can effectively avoid the damage of salt mist, ammonia and other corrosive gases, extending service life.
As the temperature increases, temperature loss is only half that of conventional modules, and more electricity is generated under a high-temperature environment.
Hanergy's modules have much better performance than conventional modules in absorbing long waves and short waves within visible light and can generate more electricity under low light, such as during cloudy days, in the morning and evening, improving system stability in power generation.