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Driving forces of national and regional carbon intensity changes in China: Temporal and spatial multiplicative structural decomposition analysis

强度(物理) 碳纤维 环境科学 能量强度 分解 中国 发射强度 最终需求 自然资源经济学 生产(经济) 经济 地理 数学 材料科学 化学 统计 微观经济学 算法 光致发光 能量(信号处理) 有机化学 考古 光电子学 量子力学 物理 复合数
作者
Ye Cao,Yuhuan Zhao,Hongxia Wang,Hao Li,Song Wang,Liu Ya,Qiaoling Shi,Yongfeng Zhang
出处
期刊:Journal of Cleaner Production [Elsevier BV]
卷期号:213: 1380-1410 被引量:69
标识
DOI:10.1016/j.jclepro.2018.12.155
摘要

With the increasing pressure on reducing CO2 emissions, China promised to reduce carbon intensity by 60–65% by 2030 from 2005 levels. This study aims at identifying the driving forces of national and regional carbon intensity changes in China at multiple levels by a newly extended multiplicative structural decomposition analysis. Attribution analysis is further adopted to identify sectors with large intensity-reduction potential. National and regional carbon intensity changes during 2007–2012 are decomposed into three determinants: intensity (or efficiency) effect, input structure effect and final demand effect. Temporal decomposition results suggest that 29.0% decline of national carbon intensity is mainly due to intensity effect, while input structure and final demand effect drive the increment of national carbon intensity. Eight regions are divided into two groups: carbon intensity in Northwest, South Coast and Northeast increased due to input structure and final demand effect; carbon intensity in other regions decreased due to intensity effect and final demand effect. Investment and export are the dominant final demand categories to carbon intensity decline in most regions. Spatial decomposition results reveal the huge contribution discrepancy of driving forces among 30 provinces, and 30 provinces are accordingly classified into four groups. For most regions, simultaneously optimizing input structure and final demand are preferred in sectors with large intensity-reduction potential like Mining, Manufacture, Metals and metal productions and Production and supply of electricity, gas and water. Targeted intensity-reduction strategies at multiple levels are suggested.

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