TY - JOUR
T1 - Managing China’s coal power plants to address multiple environmental objectives
AU - Peng, Wei
AU - Wagner, Fabian
AU - Ramana, M. V.
AU - Zhai, Haibo
AU - Small, Mitchell J.
AU - Dalin, Carole
AU - Zhang, Xin
AU - Mauzerall, Denise Leonore
N1 - Funding Information:
W.P. thanks the Woodrow Wilson School of Public and International Affairs at Princeton University for her graduate fellowship and the J.F. Kennedy School of Government at Harvard University for postdoctoral fellowship. C.D. acknowledges the funding support of the UK Natural Environment Research Council Fellowship (grant no. NERC NE/N01524X/1). We thank Y. Satoh for sharing water availability data, and K. Feng, L. Liu and X. He for valuable suggestions.
Publisher Copyright:
© 2018, The Author(s), under exclusive licence to Springer Nature Limited.
PY - 2018/11/1
Y1 - 2018/11/1
N2 - China needs to manage its coal-dominated power system to curb carbon emissions, as well as to address local environmental priorities such as air pollution and water stress. Here we examine three province-level scenarios for 2030 that represent various electricity demand and low-carbon infrastructure development pathways. For each scenario, we optimize coal power generation strategies to minimize the sum of national total coal power generation cost, inter-regional transmission cost and air pollution and water costs. We consider existing environmental regulations on coal power plants, as well as varying prices for air pollutant emissions and water to monetize the environmental costs. Comparing 2030 to 2015, we find lower CO2 emissions only in the scenarios with substantial renewable generation or low projected electricity demand. Meanwhile, in all three 2030 scenarios, we observe lower air pollution and water impacts than were recorded in 2015 when current regulations and prices for air pollutant emissions and water are imposed on coal power plants. Increasing the price of air pollutant emissions or water alone can lead to a tradeoff between these two objectives, mainly driven by differences between air pollution-oriented and water-oriented transmission system designs that influence where coal power plants will be built and retired.
AB - China needs to manage its coal-dominated power system to curb carbon emissions, as well as to address local environmental priorities such as air pollution and water stress. Here we examine three province-level scenarios for 2030 that represent various electricity demand and low-carbon infrastructure development pathways. For each scenario, we optimize coal power generation strategies to minimize the sum of national total coal power generation cost, inter-regional transmission cost and air pollution and water costs. We consider existing environmental regulations on coal power plants, as well as varying prices for air pollutant emissions and water to monetize the environmental costs. Comparing 2030 to 2015, we find lower CO2 emissions only in the scenarios with substantial renewable generation or low projected electricity demand. Meanwhile, in all three 2030 scenarios, we observe lower air pollution and water impacts than were recorded in 2015 when current regulations and prices for air pollutant emissions and water are imposed on coal power plants. Increasing the price of air pollutant emissions or water alone can lead to a tradeoff between these two objectives, mainly driven by differences between air pollution-oriented and water-oriented transmission system designs that influence where coal power plants will be built and retired.
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U2 - 10.1038/s41893-018-0174-1
DO - 10.1038/s41893-018-0174-1
M3 - Article
AN - SCOPUS:85056456819
VL - 1
SP - 693
EP - 701
JO - Nature Sustainability
JF - Nature Sustainability
SN - 2398-9629
IS - 11
ER -