摘要
光储充一体化建筑表皮是新能源技术与建筑设计融合的创新方向。以南京江宁输电中心微电网充电站为研究对象,聚焦其光储充一体化建筑表皮的参数化设计,探讨充电站空间布局、能源效率与美学表达的协同优化路径。借助参数化技术与模块化设计,提出以功能为导向的模数体系,以动态表皮智能优化为核心的设计策略。研究表明,参数化设计有助于光储充系统与建筑表皮的深度整合,提升能源自洽能力与空间体验,为新型微电网充电站的标准化推广提供实践参考。
The integrated photovoltaic energy storage-charging(PV-ES-C)building envelope represents an innovative direction for the integration of new energy technologies and architectural design.Taking the Nanjing Jiangning Integrated PV-ES-C Microgrid Project as the research subject,this paper focuses on the parametric design of its integrated building envelopes,exploring collaborative optimization pathways in spatial layout,energy efficiency,and aesthetic expression.By utilizing parametric technology and modular design,the research proposes a design strategy centered on a function-oriented modular system and taking intelligent optimization of dynamic facades as the core.The research demonstrates that parametric design facilitates deep integration of PV-ES-C systems with building envelopes,enhancing energy self-consistency abilities and spatial experiences,while providing practical references for the standardized promotion of new microgrid charging stations.
作者
童星
王畅
TONG Xing;WANG Chang(Nanjing Tech University,Nanjing 211816,China)
出处
《金陵科技学院学报》
2025年第2期64-70,共7页
Journal of Jinling Institute of Technology
关键词
光储充一体化
建筑表皮
参数化设计
微电网充电站
integrated photovoltaic energy storage-charging
building envelope
parametric design
microgrid charging station
