摘要
高烈度地区需要进行减隔震设计,本文对减隔震的技术原理、技术发展、设计方法进行梳理,并基于实际案例,进行了不同结构方案的建材阶段碳排放量的对比分析。由分析可知,在相同性能目标下,高烈度地区的学校建筑通过采用减隔震技术,建筑物化阶段的碳排量降低40%以上,有助于实现学校建筑的碳减排目标。
High intensity areas need to carry out seismic isolation design.This paper combs the technical principle,technical development and design method of seismic isolation,and makes a comparative analysis of carbon emissions in building materials stage of different structural schemes based on actual cases.It can be seen from the analysis that under the same performance target,the carbon emission of school buildings in high intensity areas can be reduced by more than 40%in the physical and chemical stage of buildings by adopting seismic isolation technology,which is conducive to achieving the carbon emission reduction target of school buildings.
作者
惠怡
HUI Yi(China Architecture Design&Research Group,Beijing 100044,China)
出处
《建筑结构》
北大核心
2023年第S02期867-872,共6页
Building Structure
关键词
学校建筑
减隔震技术
设计方法
碳排放
school building
vibration reduction and isolation technology
design method
carbon emission
