GoodWe has developed a residential solar carport with Polaris PV panels (BIPV) integrated into the building. The carport, which is available in 4.8 kW and 8.0 kW variants, is designed to accommodate one or two vehicles respectively.
GoodWe BIPV, part of the Chinese PV manufacturer GoodWe, has launched a new solar carport for residential applications.
“Our new carport has a built-in waterproof structure that requires no glue for a neat finish,” a company spokesperson said pv magazine. “The modular system is highly adaptable and can accommodate different living environments and slopes with adjustable post heights, making it a perfect fit for any space. With a wind resistance of up to 240 km/h, the structure offers superior durability, even in harsh weather conditions such as cyclones.”
The new product has a modular design and is available in two versions: one with a power of 4.8 kW for one vehicle and another with a power of 8.0 kW for two vehicles.
The smaller carport measures 6,500 mm x 3,000 mm and has a carport peak height of 3,000 mm to 3,500 mm. The larger system is 6,500mm x 5,200mm and has the same carport peak height as the smaller carport. In both versions, the clearance height of the carport varies from 2,000 mm to 2,500 mm.
The systems feature the company’s 535W Polaris bifacial modules, based on n-type tunnel oxide passivated contact (TOPCon) technology, which are designed for BIPV applications. The panels have an energy conversion efficiency of 21.5% and a power of 215 W/m2. They measure 2,142 mm x 1,160 mm x 29.6 mm and weigh 30 kg.
The carports feature full aluminum alloy and adjustable post heights, making them adaptable to any space, according to the manufacturer. It was said that the lightweight design allows for easy installation.
“The residential solar carport is expected to provide retailers with a potential gross margin of almost 30%,” the GoodWe spokesperson added. “The introduction of this new solar carport represents a significant advancement in residential solar energy solutions, combining functionality, efficiency and style.”
This content is copyrighted and may not be reused. If you would like to collaborate with us and reuse some of our content, please contact: editors@pv-magazine.com.