Longi는 자사의 하이브리드 패시베이션 백 컨택(HPBC) 2.0 듀얼 글래스 모듈이 분산형 발전 프로젝트에 처음으로 설치되었다고 밝혔습니다. 중국 북동부의 2.2MW 태양광 발전소는 현재 상업적으로 운영 중입니다.
이미지: 롱기
A 2.2 MW solar plant featuring Longi’s HPBC 2.0 dual-glass PV modules has been connected to the grid in Yichun, China‘s Heilongjiang province.
The array, which features Longi’s 630 W HPBC 2.0 modules, is the first HPBC 2.0 distributed solar plant to reach commercial operation.
The facility is located at Longfei Wood Products Factory in Yichun, an area integral to China’s timber industry, and is expected to generate 3.2 million kWh per year for the factory. It was constructed as a ground-mounted installation, which will deliver 25% more power generation than a flat rooftop installation, according to Longi.
The company said the use of its HPBC 2.0 modules will help the Longfei plant to generate an additional 111,000 kWh annually compared to a tunnel oxide passivated contact (TOPCon) PV plant of the same capacity, representing a 3.56% power gain. It added that the modules have an increased installed capacity of 5% compared to TOPCon modules across the same surface area, achieving an 8.56% power generation gain.
The Chinese manufacturer launched the HPBC 2.0 range earlier this year, after unveiling the HPBC 1.0 technology in November 2022.
The company claims that HPBC 2.0 modules outperform TOPCon modules in resistance to UV, damp heat, and thermal cycling. They also feature a temperature coefficient of -0.26% per degree Celsius, improving by 0.03% per degree Celsius over TOPCon. These enhancements will ensure durability and reliable performance, even in Yichun, where winter temperatures can drop as low as -30 C.
“The establishment of the first HPBC 2.0 PV power plant not only supports Yichun’s transition from a timber-based economy to an ecological one but also signifies the nationwide potential for HPBC 2.0 distributed PV power plants to take root and flourish,” a statement from Longi says.
In October, Longi’s HPBC 2.0 module set a new world record for crystalline silicon solar module efficiency, reaching 25.4%.
이 콘텐츠는 저작권으로 보호되며 재사용할 수 없습니다. 저희와 협력하고 저희 콘텐츠 중 일부를 재사용하고 싶으시다면 editors@pv-magazine.com으로 연락해 주세요.
출처 pv 잡지
면책 조항: 위에 제시된 정보는 Cooig.com과 독립적으로 pv-magazine.com에서 제공합니다. Cooig.com은 판매자와 제품의 품질과 신뢰성에 대해 어떠한 진술 및 보증도 하지 않습니다. Cooig.com은 콘텐츠의 저작권과 관련된 위반에 대한 모든 책임을 명시적으로 부인합니다.
