Short-Lived Buildings in China: Impacts on Water, Energy, and Carbon Emissions

Short-Lived Buildings in China: Impacts on Water, Energy, and Carbon Emissions

This paper has changed the vague understanding that “the short-lived buildings have huge environmental footprints (EF)” into a concrete one. By estimating the annual floor space of buildings demolished and calibrating the average building lifetime in China, this paper compared the EF under various a...

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Veröffentlicht in:Environmental science & technology 2015-12, Vol.49 (24), p.13921-13928
Hauptverfasser: Cai, Wenjia, Wan, Liyang, Jiang, Yongkai, Wang, Can, Lin, Lishen
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Sprache:eng
Schlagworte:
Belgium
Buildings
Carbon
Carbon Dioxide - analysis
China
Conservation of Natural Resources
Energy consumption
Energy-Generating Resources
Environment
Environmental impact
Housing - statistics & numerical data
Impact analysis
Italy
Mexico
Models, Theoretical
Urbanization
Water
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container_end_page 13928
container_issue 24
container_start_page 13921
container_title Environmental science & technology
container_volume 49
creator Cai, Wenjia
Wan, Liyang
Jiang, Yongkai
Wang, Can
Lin, Lishen
description This paper has changed the vague understanding that “the short-lived buildings have huge environmental footprints (EF)” into a concrete one. By estimating the annual floor space of buildings demolished and calibrating the average building lifetime in China, this paper compared the EF under various assumptive extended buildings’ lifetime scenarios based on time-series environmental-extended input-output model. Results show that if the average buildings’ lifetime in China can be extended from the current 23.2 years to their designed life expectancy, 50 years, in 2011, China can reduce 5.8 Gt of water withdrawal, 127.1 Mtce of energy consumption, and 426.0 Mt of carbon emissions, each of which is equivalent to the corresponding annual EF of Belgium, Mexico, and Italy. These findings will urge China to extend the lifetime of existing and new buildings, in order to reduce the EF from further urbanization. This paper also verifies that the lifetime of a product or the replacement rate of a sector is a very important factor that influences the cumulative EF. When making policies to reduce the EF, adjusting people’s behaviors to extend the lifetime of products or reduce the replacement rate of sectors may be a very simple and cost-effective option.
doi_str_mv 10.1021/acs.est.5b02333
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source MEDLINE; ACS Journals: American Chemical Society Web Editions
subjects Belgium
Buildings
Carbon
Carbon Dioxide - analysis
China
Conservation of Natural Resources
Energy consumption
Energy-Generating Resources
Environment
Environmental impact
Housing - statistics & numerical data
Impact analysis
Italy
Mexico
Models, Theoretical
Urbanization
Water
title Short-Lived Buildings in China: Impacts on Water, Energy, and Carbon Emissions
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