摘要
针对工业化建筑全生命周期中的碳源分析设计了一种可以预测和评价各阶段碳排放用于优化建筑设计的实验方法。这一虚拟实验教学与新型学科方向下的工业化建筑理论讲授相结合的显著特点,能有效帮助学生深入挖掘和理解知识难点,将教学中难以触及的实践性实验操作转化为可近距离操作的、身临其境的、多数据处理的虚拟仿真实验教学,开拓新型工业化建造与碳排放审计知识点相结合的有效途径,具有创新性,进一步强化学生专业理论知识,培养学生工程实践能力,更好地指导工业化建筑设计优化。
An experimental method is designed to predict and evaluate the carbon emission in the whole life cycle of industrialized buildings.Virtual simulation experiment is integrated with the theoretical teaching under the direction of the innovative industrialization discipline,and it effectively helps students to understand the difficult points of knowledge.The transfer of a hard-to-reach stream of practical experiments into virtual simulation experiments,which are operable,immersive through multi-data processing,is an efficient path to combine new industrialized construction technology with carbon emissions audit,to further strengthen the comprehensive cultivation of students’theoretical knowledge and engineering ability,to better guide the optimization design of industrialized buildings.
出处
《华中建筑》
2020年第11期33-38,共6页
Huazhong Architecture
基金
国家自然科学基金资助项目(编号:51708282,51708283)
江苏省自然科学基金资助项目(编号:BK2017011)。
关键词
碳排放审计
装配式建筑
优化设计
实验教学
Carbon emission audit
Prefabricated building
Optimized design
Experimental teaching
