电气化
电
温室气体
化石燃料
自然资源经济学
库存(枪支)
软件部署
人均
发电
业务
环境科学
市电
环境经济学
经济
废物管理
工程类
功率(物理)
机械工程
生态学
人口
物理
人口学
软件工程
量子力学
电压
社会学
电气工程
生物
作者
Peter Berrill,Eric Wilson,Janet Reyna,Anthony Fontanini,Edgar G. Hertwich
标识
DOI:10.1038/s41558-022-01429-y
摘要
Residential GHG emissions in the United States are driven in part by a housing stock where onsite fossil combustion is common, home sizes are large by international standards, energy efficiency potential is large and electricity generation in many regions is GHG intensive. In this analysis, we assess decarbonization pathways for the US residential sector to 2060, through 108 scenarios describing housing stock evolution, new housing characteristics, renovation levels and clean electricity. The lowest emission pathways involve very rapid decarbonization of electricity supply alongside extensive renovations to existing homes, including improving thermal envelopes and heat pump electrification of heating. Reducing the size and increasing the electrification of new homes provide further emission cuts and combining all strategies enables reductions of 91% between 2020 and 2050. The potential of individual mitigation strategies shows great regional variation. Reaching zero emissions will require simultaneous deployment of multiple strategies and greater reduction of embodied emissions. Residential sector decarbonization is an essential part of mitigation, especially in the United States where per capita energy use is high by global standards. This article shows the emission reduction potential from individual and combined strategies applied to existing and new homes and to electricity supply.
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