氮氧化物
环境科学
微粒
燃煤
中国
火力发电站
温室气体
煤
单位(环理论)
废物管理
工程类
地理
化学
数学教育
有机化学
考古
燃烧
生物
数学
生态学
作者
Ling Tang,Jiabao Qu,Zhifu Mi,Xin Bo,Xiangyu Chang,Laura Díaz Anadón,Shouyang Wang,Xiaoda Xue,Shibei Li,Xin Wang,Xiaohong Zhao
出处
期刊:Nature Energy
[Springer Nature]
日期:2019-10-07
卷期号:4 (11): 929-938
被引量:299
标识
DOI:10.1038/s41560-019-0468-1
摘要
In 2014, China introduced an ultra-low emissions (ULE) standards policy for renovating coal-fired power-generating units to limit SO2, NOx and particulate matter (PM) emissions to 35, 50 and 10 mg m−3, respectively. The ULE standard policy had ambitious levels (surpassing those of all other countries) and implementation timeline. We estimate emission reductions associated with the ULE policy by constructing a nationwide, unit-level, hourly-frequency emissions dataset using data from a continuous emissions monitoring systems network covering 96–98% of Chinese thermal power capacity during 2014–2017. We find that between 2014 and 2017 China’s annual power emissions of SO2, NOx and PM dropped by 65%, 60% and 72%, respectively. Our estimated emissions using actual monitoring data are 18–92% below other recent estimates. We detail the technologies used to meet the ULE standards and the determinants of compliance, underscoring the importance of ex post evaluation and providing insights for other countries wishing to reduce their power emissions. In 2014 China proposed an ultra-low emissions policy for coal-fired power plants to reduce emissions. Using comprehensive nationwide stack emissions monitoring data, Tang et al. show reductions in excess of 60% for SO2, NOx and particulate matter emissions since 2014, even as power generation overall increased.
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