Water-saving co-benefits of CO2 reduction in China's electricity sector

Xu Peng; Hong Chen; Honglin Zhong; Ruyin Long; Chao Zhang; Dandan Zhao; Guangfei Yang; Jingke Hong; Cuncun Duan; Xinxian Qi; Pengbang Wei; Pengfei Zhang; Jindao Chen

doi:10.1016/j.isci.2023.106035

Water-saving co-benefits of CO₂ reduction in China's electricity sector

Xu Peng, Hong Chen^*, Honglin Zhong, Ruyin Long^*, Chao Zhang^*, Dandan Zhao^*, Guangfei Yang, Jingke Hong, Cuncun Duan, Xinxian Qi, Pengbang Wei, Pengfei Zhang, Jindao Chen

^*Corresponding author for this work

Research output: Contribution to journal › Article › Scientific › peer-review

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Abstract

Electricity sector is the largest CO₂ emitter and water user in China's industrial sectors. The low-carbon transition of China's electricity sector reduces its cooling water consumption. Here we firstly quantify CO₂ emission and virtual water embodied in electricity trade with Quasi-Input-Output model. Then, we analyze the impacts of energy substitution, efficiency improvement, and electricity trade on water-saving co-benefits of CO₂ reduction with the differences between the baseline scenario and counterfactual scenario. Results show that the low-carbon transition contributes to water-saving in China's electricity sector. Virtual water and embodied CO₂ have relatively decoupled from electricity trade since 2012. Water-saving (+10.4% yr⁻¹) outweighed CO₂ reduction (+8.4% yr⁻¹) through energy substitution and efficiency improvement in the ‘new normal’ stage. Our work emphasizes the need to integrate water-saving co-benefits of CO₂ reduction into electricity system planning and highlights the challenges to facilitate coordinated development of the electricity-water nexus in China.

Original language	English
Article number	106035
Number of pages	15
Journal	iScience
Volume	26
Issue number	2
DOIs	https://doi.org/10.1016/j.isci.2023.106035
Publication status	Published - 17 Feb 2023
MoE publication type	A1 Journal article-refereed

Keywords

Energy management
Energy policy
Natural resources

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1016/j.isci.2023.106035Licence: CC BY-NC-ND

1-s2.0-S2589004223001128-mainFinal published version, 3.62 MBLicence: CC BY-NC-ND

Cite this

@article{ee22f0e97a6e46fc8755c4fc57f9ca8b,

title = "Water-saving co-benefits of CO2 reduction in China's electricity sector",

abstract = "Electricity sector is the largest CO2 emitter and water user in China's industrial sectors. The low-carbon transition of China's electricity sector reduces its cooling water consumption. Here we firstly quantify CO2 emission and virtual water embodied in electricity trade with Quasi-Input-Output model. Then, we analyze the impacts of energy substitution, efficiency improvement, and electricity trade on water-saving co-benefits of CO2 reduction with the differences between the baseline scenario and counterfactual scenario. Results show that the low-carbon transition contributes to water-saving in China's electricity sector. Virtual water and embodied CO2 have relatively decoupled from electricity trade since 2012. Water-saving (+10.4% yr−1) outweighed CO2 reduction (+8.4% yr−1) through energy substitution and efficiency improvement in the {\textquoteleft}new normal{\textquoteright} stage. Our work emphasizes the need to integrate water-saving co-benefits of CO2 reduction into electricity system planning and highlights the challenges to facilitate coordinated development of the electricity-water nexus in China.",

keywords = "Energy management, Energy policy, Natural resources",

author = "Xu Peng and Hong Chen and Honglin Zhong and Ruyin Long and Chao Zhang and Dandan Zhao and Guangfei Yang and Jingke Hong and Cuncun Duan and Xinxian Qi and Pengbang Wei and Pengfei Zhang and Jindao Chen",

note = "Funding Information: This work is supported by the Major Project of National Social Science Foundation of China (No. 21&ZD166 , 21ZDA065 ), Key Research & Development Project of Qinghai Province ( 2022-SF-173 ), National Natural Science Foundation of China ( 72174111 ), Shandong Natural Science Foundation of China ( ZR2021MG013 ), and General Project of Philosophy and Social Science Research in Jiangsu Province{\textquoteright}s Colleges and Universities ( 2022SJYB0948 ). Publisher Copyright: {\textcopyright} 2023 The Authors",

year = "2023",

month = feb,

day = "17",

doi = "10.1016/j.isci.2023.106035",

language = "English",

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TY - JOUR

T1 - Water-saving co-benefits of CO2 reduction in China's electricity sector

AU - Peng, Xu

AU - Chen, Hong

AU - Zhong, Honglin

AU - Long, Ruyin

AU - Zhang, Chao

AU - Zhao, Dandan

AU - Yang, Guangfei

AU - Hong, Jingke

AU - Duan, Cuncun

AU - Qi, Xinxian

AU - Wei, Pengbang

AU - Zhang, Pengfei

AU - Chen, Jindao

N1 - Funding Information: This work is supported by the Major Project of National Social Science Foundation of China (No. 21&ZD166 , 21ZDA065 ), Key Research & Development Project of Qinghai Province ( 2022-SF-173 ), National Natural Science Foundation of China ( 72174111 ), Shandong Natural Science Foundation of China ( ZR2021MG013 ), and General Project of Philosophy and Social Science Research in Jiangsu Province’s Colleges and Universities ( 2022SJYB0948 ). Publisher Copyright: © 2023 The Authors

PY - 2023/2/17

Y1 - 2023/2/17

N2 - Electricity sector is the largest CO2 emitter and water user in China's industrial sectors. The low-carbon transition of China's electricity sector reduces its cooling water consumption. Here we firstly quantify CO2 emission and virtual water embodied in electricity trade with Quasi-Input-Output model. Then, we analyze the impacts of energy substitution, efficiency improvement, and electricity trade on water-saving co-benefits of CO2 reduction with the differences between the baseline scenario and counterfactual scenario. Results show that the low-carbon transition contributes to water-saving in China's electricity sector. Virtual water and embodied CO2 have relatively decoupled from electricity trade since 2012. Water-saving (+10.4% yr−1) outweighed CO2 reduction (+8.4% yr−1) through energy substitution and efficiency improvement in the ‘new normal’ stage. Our work emphasizes the need to integrate water-saving co-benefits of CO2 reduction into electricity system planning and highlights the challenges to facilitate coordinated development of the electricity-water nexus in China.

AB - Electricity sector is the largest CO2 emitter and water user in China's industrial sectors. The low-carbon transition of China's electricity sector reduces its cooling water consumption. Here we firstly quantify CO2 emission and virtual water embodied in electricity trade with Quasi-Input-Output model. Then, we analyze the impacts of energy substitution, efficiency improvement, and electricity trade on water-saving co-benefits of CO2 reduction with the differences between the baseline scenario and counterfactual scenario. Results show that the low-carbon transition contributes to water-saving in China's electricity sector. Virtual water and embodied CO2 have relatively decoupled from electricity trade since 2012. Water-saving (+10.4% yr−1) outweighed CO2 reduction (+8.4% yr−1) through energy substitution and efficiency improvement in the ‘new normal’ stage. Our work emphasizes the need to integrate water-saving co-benefits of CO2 reduction into electricity system planning and highlights the challenges to facilitate coordinated development of the electricity-water nexus in China.

KW - Energy management

KW - Energy policy

KW - Natural resources

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