2020年1月17日,中国上海, 全球极具创新力的光伏企业晶科能源控股有限公司(下称“晶科能源”或“公司”)(纽交所代码:JKS)今日宣布,经第三方权威认证测试机构TÜV莱茵测试,太阳能,公司最新研发的双面电池组件,太阳能设备,其正面效率达到22.49%,刷新量产组件效率世界纪录。
依托于晶科自主开发的高效电池技术,中国太阳能网,通过新型高效钝化技术和先进金属化技术的开发导入,实现了量产电池高效化;采用高效叠焊技术,消除电池片间隙,实现高效高可靠性的同时显著提升了组件美观度。高效率组件能够显著降低度电成本,太阳能网,大力助推行业实现全球平价上网。
晶科能源研发副总裁金浩博士表示:“晶科一直致力于为全球客户提供高效率、高品质、高可靠性组件产品,此次世界纪录的打破,将引领行业组件效率的又一轮蜕变提升。未来,我们将加速将最新的研发成果投入规模化量产,实现行业的降本增效、助力平价上网。
Shanghai, China, January 17. 2020 – JinkoSolar Holding Co., Ltd. (the “Company,” or “JinkoSolar”) (NYSE: JKS), one of the largest and most innovative solar module manufacturers in the world, today announced that the maximum conversion efficiency of its bifacial solar modules reached 22.49%, breaking the previous world record and setting a new industry standard for efficiency of mass produced solar cells. These results were verified during testing conducted by TÜV Rheinland, an independent provider of technical services for testing, inspection, certification, consultation and training.
JinkoSolar was able to significantly improve efficiency for its mass produced modules by applying newly developed ARC and advanced metallization technologies and proven proprietary technologies to high-efficient cell design. New Tiling Ribbon (TR) technology was also incorporated into the cell design which eliminates any inter-cell gap, ensuring high-efficiency and high-reliability, while significantly improving the module’s appearance. The high-efficiency modules also help reduce the levelized cost of electricity (LCOE) as the industry approaches grid parity globally.
Dr. Jin Hao, Vice President of JinkoSolar commented, "We are committed to providing high-quality modules that will efficiently and reliably operate under the toughest conditions. This new world record will pave the way for a new round of technological and industry upgrades in module efficiency with JinkoSolar leading the way. Going forward, we will accelerate the application of the latest and most advanced technologies to the mass production of our solar products which will drive an increase in cost-effectiveness and promote grid parity on a global scale."
,中国太阳能网