摘要
因半透明光伏组件能够同时实现光伏发电和保持透光性,其在现代绿色建筑中的应用潜力被广泛认可。采用数值模拟方法,基于半透明光伏组件在实际光伏建筑一体化(BIPV)项目中的适用性研究,进一步分析了其在满足建筑用能和采光质量条件下的优化应用。研究结果表明:优化设计对改善建筑室内光环境和提升节能降碳效益具有积极影响,并确认了合理优化采光分布的重要性。研究结果为半透明光伏组件在BIPV中的应用提供了实用的设计策略和实践参考。
Semi-transparent PV modules can simultaneously achieve PV power generation and maintain light transmission,are considered to have great application potential in modern green buildings.This paper employs numerical simulation methods to study the applicability of semi-transparent PV modules in actual BIPV projects,and further analyze their optimized application in meeting building energy consumption and daylighting quality.The research results show that optimizing design has a positive impact on improving the indoor light environment of buildings and energy-saving carbon reduction benefits,confirming the importance of reasonable optimization of daylighting distribution.This study provide practical design strategies and practical references for the application of semi-transparent PV modules in BIPV.
作者
刘铁凝
王沁芳
许鸣
许国昕
Liu Tiening;Wang Qinfang;Xu Ming;Xu Guoxin(Changzhou Institute of Building Science Group,Changzhou 213000,China)
出处
《太阳能》
2024年第10期42-51,共10页
Solar Energy
基金
创新能力建设计划(研发机构)——碳达峰碳中和科技创新专项资金BM2022035
江苏省建材与建筑碳排放核算与监测技术公共服务平台建设。
