城市建筑能耗和碳排放计算方法及云平台研发
Introduction to the Algorithm of a Novel Cloud Platform for Evaluating Urban Building Energy Use and Carbon Emissions
王晓宇 1胡亚山 2黄峥 2吴静云 2刘浩 2石邢3
作者信息
- 1. 同济大学建筑与城市规划学院,上海 200092;国网江苏电力设计咨询有限公司,南京 210008;国网江苏省电力有限公司经济技术研究院,南京 210008
- 2. 国网江苏电力设计咨询有限公司,南京 210008;国网江苏省电力有限公司经济技术研究院,南京 210008
- 3. 同济大学建筑与城市规划学院,上海 200092
- 折叠
摘要
建筑行业消耗了城市大约70%的一次能源.为了应对城市能耗和碳排放的快速增长,城市设计和城市更新中越来越注重建筑的节能降碳.然而,以低碳为导向的城市设计或城市更新需要首先能够对城市建筑能耗和碳排放进行科学、可靠、高效的计算.在此背景下,开发了 1种新型高效的城市建筑能耗与碳排放模拟云平台(Urban Energy & Carbon Cloud,简写UECC).UECC平台可以为城市规划设计中实现低碳节能的目标提供基础性的科学计算手段,为城市电力系统规划和区域能源站建设提供负荷需求数据,为城市能源政策制定者提供不同建筑节能措施的节能潜力分析报告和建议等.
Abstract
Statistically,the building industry consumes approximately 70%of the primary energy use in cities.In response to the rapid growth of energy consumption and carbon emissions,cities pay increasingly greater attention to building energy efficiency in urban design and renewal.However,the scientific,reliable and efficient calculation of urban building energy consumption and carbon emissions is a prerequisite for low-carbon oriented urban design or renewal.On this basis,Urban Energy & Carbon Cloud(UECC),a novel and efficient simulation platform,was developed,which focuses on evaluating and analyzing urban building energy use and carbon emissions.UECC can provide a suite of features and application scenarios such as a basic means of scientific computation for low-carbon and energy-saving goals in urban planning and design,load demand data for urban electric system planning and district energy system planning,and analysis reports and suggestions on the energy saving potential of different building energy efficiency initiatives for urban energy policy-makers.
关键词
城市建筑能耗/UECC/碳排放/建筑节能/低碳Key words
urban building energy use/UECC/carbon emissions/building energy efficiency/low carbon引用本文复制引用
出版年
2024
NETL
NSTL
万方数据