Carbon emission structure decomposition analysis of manufacturing industry from the perspective of input-output subsystem: a case study of China

[1]  X. Tian,et al.  Socioeconomic drivers of China's resource efficiency improvement: A structural decomposition analysis for 1997–2017 , 2022, Resources, Conservation and Recycling.

[2]  Jing Liu,et al.  Influencing Factors of New Energy Development in China: Based on ARDL Cointegration and Granger Causality Analysis , 2021, Frontiers in Energy Research.

[3]  Ying Han,et al.  Influencing factors and decoupling analysis of carbon emissions in China’s manufacturing industry , 2021, Environmental Science and Pollution Research.

[4]  Pu Zhang,et al.  Migration of manufacturing industries and transfer of carbon emissions embodied in trade: empirical evidence from China and Thailand , 2021, Environmental Science and Pollution Research.

[5]  Qunwei Wang,et al.  Carbon emission reduction characteristics for China's manufacturing firms: Implications for formulating carbon policies. , 2021, Journal of environmental management.

[6]  He Xu,et al.  Estimating the mitigation potential of the Chinese service sector using embodied carbon emissions accounting , 2021 .

[7]  Wendong Wei,et al.  Unbalanced economic benefits and the electricity-related carbon emissions embodied in China's interprovincial trade. , 2020, Journal of environmental management.

[8]  Yaochen Qin,et al.  Spatiotemporal changes of carbon emissions in high-carbon manufacturing industry in China and driving factors , 2020, 资源科学.

[9]  Zixiang Wei,et al.  Factor substitution, diversified sources on biased technological progress and decomposition of energy intensity in China's high-tech industry , 2019, Journal of Cleaner Production.

[10]  Muhammad Wasif Zafar,et al.  Uncovering the driving forces of carbon dioxide emissions in Chinese manufacturing industry: An intersectoral analysis , 2019, Environmental Science and Pollution Research.

[11]  Qunwei Wang,et al.  Factors influencing the progress in decoupling economic growth from carbon dioxide emissions in China’s manufacturing industry , 2019, Resources, Conservation and Recycling.

[12]  P. Tan,et al.  Emission reduction characteristics of a catalyzed continuously regenerating trap after-treatment system and its durability performance. , 2019, Journal of environmental sciences.

[13]  J. Camacho,et al.  A waste generation input output analysis: The case of Spain , 2019, Journal of Cleaner Production.

[14]  Dalia Patiño-Echeverri,et al.  Policies to promote energy efficiency and air emissions reductions in China's electric power generation sector during the 11th and 12th five-year plan periods: Achievements, remaining challenges, and opportunities , 2019, Energy Policy.

[15]  Elena Gatti,et al.  „Made in China 2025“ , 2019, Digitales China.

[16]  Siqin Xiong,et al.  Structural path decomposition of carbon emission: A study of China's manufacturing industry , 2018, Journal of Cleaner Production.

[17]  Ruyin Long,et al.  Scenario prediction of China’s coal production capacity based on system dynamics model , 2018 .

[18]  João F. D. Rodrigues,et al.  The evolution of inter-sectoral linkages in China's energy-related CO2 emissions from 1997 to 2012 , 2018 .

[19]  Emilio Padilla,et al.  Nitrogen oxide emissions and productive structure in Spain: An input–output perspective , 2017 .

[20]  Bin Xu,et al.  Reducing carbon dioxide emissions in China's manufacturing industry: a dynamic vector autoregression approach , 2016 .

[21]  Yue-Jun Zhang,et al.  The CO2 emission efficiency, reduction potential and spatial clustering in China's industry: evidence from the regional level , 2016 .

[22]  Jing Zhao,et al.  Power generation and renewable potential in China , 2014 .

[23]  Mohamed Moubarak,et al.  Carbon dioxide emissions and growth of the manufacturing sector: Evidence for China , 2014 .

[24]  Gokhan Egilmez,et al.  Transportation related carbon, energy and water footprint analysis of U.S. manufacturing: An eco-efficiency assessment , 2014 .

[25]  G. P. Hammond,et al.  Decomposition analysis of energy-related carbon emissions from UK manufacturing , 2012 .

[26]  Geoffrey P. Hammond,et al.  Decomposition analysis of energy-related carbon emissions from UK manufacturing , 2012 .

[27]  Ding Wei-jia Analyzing Impact Factors of Manufacturing CO_2 Emissions in China Based on the STIRPAT Model , 2012 .

[28]  HU Yong-shun,et al.  Analysis of the Difference of Carbon Emissions of China's Manufacturing Sector: A Decomposition Study Based on Input-output Model , 2011 .

[29]  Francisco Navarro,et al.  Las emisiones de metano (CH4) en el subsistema agroalimentario catalán: un análisis input-output alternativo , 2011 .

[30]  Pablo del Río,et al.  Assessing the influence of manufacturing sectors on electricity demand. A cross-country input-output approach , 2010 .

[31]  Vicent Alcántara,et al.  Input-output subsystems and pollution: An application to the service sector and CO2 emissions in Spain , 2009 .

[32]  Elif Akbostancı,et al.  CO2 Emissions vs. CO2 Responsibility: An Input-Output Approach for the Turkish Economy , 2007 .

[33]  Jhih-Shyang Shih,et al.  The near-term impacts of carbon mitigation policies on manufacturing industries , 2004 .

[34]  M. Lenzen Primary energy and greenhouse gases embodied in Australian final consumption: an input–output analysis , 1998 .

[35]  A. McMichael,et al.  Carbon dioxide emissions , 1996, Nature.