Impacts of booming concrete production on water resources worldwide

Concrete is the most-used construction material worldwide. Previous studies on the environmental impacts of concrete production have mainly focused on the materials involved and energy consumption, as well as CO 2 emissions; little is known, however, about its water consumption as well as the effect...

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Bibliographic Details
Published in:Nature sustainability 2018-01, Vol.1 (1), p.69-76
Main Authors: Miller, Sabbie A., Horvath, Arpad, Monteiro, Paulo J. M.
Format: Article
Language:English
Subjects:
639/301/1023
704/172/4081
706/2805
Analysis
Carbon dioxide emissions
Earth and Environmental Science
Emissions
Emissions control
Energy consumption
Environment
Environmental impact
Environmental studies
Greenhouse gases
Industrial water
Raw materials
Renewable resources
Sustainable Development
Water consumption
Water demand
Water resources
Water stress
Water use
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Summary:Concrete is the most-used construction material worldwide. Previous studies on the environmental impacts of concrete production have mainly focused on the materials involved and energy consumption, as well as CO 2 emissions; little is known, however, about its water consumption as well as the effective measures to reduce such consumption. We quantify water use of global concrete production in 2012 and project the value to 2050. The results show that concrete production was responsible for 9% of global industrial water withdrawals in 2012 (this is approximately 1.7% of total global water withdrawal). In 2050, 75% of the water demand for concrete production will likely occur in regions that are expected to experience water stress. Among possible ways of mitigating water demand are choosing the appropriate selection of electricity fuel mixes and improved processing of raw materials; however, these strategies may conflict with greenhouse gas emissions reduction goals. This work develops a baseline estimate for water consumption and withdrawal for concrete production and identifies locations for targeted mitigation. Little is known about the water impacts of concrete production. This study quantifies this impact globally for 2012 and projects it to 2050. It also evaluates in which regions the impacts will be more severe, based on the availability of renewable water resources.
ISSN:2398-9629
2398-9629
DOI:10.1038/s41893-017-0009-5