南方建筑Issue(8):14-21,8.DOI:10.3969/j.issn.1000-0232.2024.08.002
神经网络驱动的建筑自适应表皮产出性能预测方法
Prediction Method of Adaptive Facade Output Performance Driven by the Neural Network
摘要
Abstract
Adaptive facades that integrate dynamic photovoltaic shading systems and facade planting systems offer new opportunities for urban sustainable development.Through the integration of light,wind,and heat production,adaptive facades can improve indoor environmental quality and generate electricity and crops,thereby reducing buildings'reliance on external resources.However,various environmental factors influence adaptive facades'performance,leading to significant discrepancies between traditional simulation methods and actual results.Predicting electrical energy and crop output quickly and accurately in the design stage has become a key challenge.To address this issue,an output prediction method based on machine learning neural networks was proposed with comprehensive consideration of influences on the urban built environment for adaptive facade dynamic photovoltaic shading and facade planting of urban residential buildings.This method is expected to replace traditional photovoltaic software simulation and crop output estimation methods.Specifically,this method trains an artificial neural network based on measurement data to develop two prediction models. The first model(prediction model of environmental elements and dynamic photovoltaic shading electricity output elements)used Pearson correlation analysis to obtain three environmental factors and one photovoltaic shading power output factor to train and establish the artificial neural network model.Then,the shadow loss coefficient was added to establish the prediction model.Similarly,the second model(prediction model of environmental elements and facade planting crop output elements)sought to establish the correlation between built environmental factors and output factors and choose the optimal model through the comparative selection of difference activation function.An interactive interface prediction platform was established to improve the convenience of the prediction process and the reliability of results.Based on the Rhinoceros+Grasshopper tool,the platform—which is characteristic of a menu-based operation interface,interactive information transmission,and real-time evaluation feedback—improves user-friendliness for architects and promotes the application of adaptive facade design.Due to the small difference in urban climate conditions between Haikou and Singapore,the common composite high-rise residential buildings in Singapore and Haikou in recent years were selected as the architectural carrier of adaptive facade application. The results demonstrate that implementing an adaptive facade can significantly enhance indoor environmental comfort,accompanied by substantial outputs.The annual power generation of monocrystal silicon photovoltaic modules and GIGS thin film photovoltaic modules of adaptive facades on residential buildings in Singapore was 253.9 kwh and 216.7 kwh,respectively.The crop output was 99 kg per year.The annual power generation of monocrystal silicon photovoltaic modules and GIGS thin film photovoltaic modules of adaptive facades on residential buildings in Haikou were 229.6 kwh and 197.4 kwh,respectively.The crop output was 85.5 kg per year.According to calculation,it is projected that the adaptive facade can fulfill approximately 9.3%~10.9%(Singapore)and 8.4%~9.8%(Haikou)of household electricity demand and meet around 32%(Singapore)and 27.6%(Haikou)of annual vegetable demand for households. This method demonstrates the convenience of the prediction process and the reliability of prediction results.It confirms the crucial role of adaptive facades in reducing energy demands for residential buildings,enhancing urban food security,and improving indoor visual and thermal comfort.Further,it provides powerful support in designing and applying adaptive facades.With technological progress and application promotion,adaptive facade will become more and more important in future urban construction,and is expected to attract more researchers and practitioners to promote the sustainable development of cities.关键词
建筑自适应表皮/城市居住建筑/神经网络/建筑光伏一体化/建筑农业一体化/预测方法Key words
adaptive facade/urban residential building/neural network/building-photovoltaic integration/building-agriculture integration/prediction method分类
建筑与水利引用本文复制引用
史学鹏,石诚斐,解旭东,汪丽君..神经网络驱动的建筑自适应表皮产出性能预测方法[J].南方建筑,2024,(8):14-21,8.基金项目
山东省自然科学基金资助项目(ZR2023QE217):城市居住建筑自适应表皮设计方法研究 (ZR2023QE217)
山东省自然科学基金资助项目(ZR2020ME218):基于热环境性能提升的山东农村住宅改造碳排放控制机理及低碳策略研究 (ZR2020ME218)
"十四五"国家重点研发计划项目子课题(2023YFC3807404-3):基于亲和感的空间包容性优化技术. (2023YFC3807404-3)
