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Decomposing the change in energy consumption in Chinas nonferrous metal industry: An empirical analysis based on the LMDI method. (2018). Wang, Miao ; Feng, Chao.
In: Renewable and Sustainable Energy Reviews.
RePEc:eee:rensus:v:82:y:2018:i:p3:p:2652-2663.

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  2. Decomposition of factors affecting copper consumption in major countries in light of green economy and its trend characteristics. (2024). Cao, Fuguo ; Guo, Shaobo.
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  3. Possibility and pathways of Chinas nonferrous metals industry to achieve its carbon peak target before 2030: A new integrated dynamic forecasting model. (2024). Cao, Yue ; Qu, Ying ; Guo, Lingling ; Wang, Liang.
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  4. Accounting and decomposition of Chinas CO2 emissions 1981–2021. (2024). Chen, Zhan-Ming ; Xiong, Qiyang ; Wang, Ning ; Ma, Jianhong ; Zhang, Hongxia ; Zheng, Ying.
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  17. The effects of technical change on carbon intensity in China’s non-ferrous metal industry. (2021). Song, YI ; Zhang, Yi-Jun ; Xiao, Shun-Li ; Zhong, Mei-Rui ; Zou, Han.
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  18. Urban and rural differences with regional assessment of household energy consumption in China. (2021). Wang, Shubin ; Sun, Shaolong ; Zhao, Erlong.
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  29. Decomposition of energy-related CO2 emissions in Chinas iron and steel industry: A comprehensive decomposition framework. (2018). Song, YI ; Huang, Jian-Bai ; Feng, Chao.
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  4. The environmental impact of industrialization and foreign direct investment. (2020). Boachie, Micheal Kofi ; Osei, Eric Evans.
    In: Energy Policy.
    RePEc:eee:enepol:v:137:y:2020:i:c:s0301421519307645.

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  5. A high-definition spatially explicit modelling approach for national greenhouse gas emissions from industrial processes: reducing the errors and uncertainties in global emission modelling. (2019). Bun, Rostyslav ; Topylko, Petro ; Charkovska, Nadiia ; Jonas, Matthias ; Halushchak, Mariia ; Nahorski, Zbigniew ; Oda, Tomohiro.
    In: Mitigation and Adaptation Strategies for Global Change.
    RePEc:spr:masfgc:v:24:y:2019:i:6:d:10.1007_s11027-018-9836-6.

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  6. Investigation for the Decomposition of Carbon Emissions in the USA with C-D Function and LMDI Methods. (2019). Jiang, Rui ; Li, Rongrong ; Wu, Qiuhong.
    In: Sustainability.
    RePEc:gam:jsusta:v:11:y:2019:i:2:p:334-:d:196701.

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  7. Dynamic evolution of characteristics and decomposition of factors influencing industrial carbon dioxide emissions in China: 1991–2015. (2019). Zhang, Wei ; Liang, Wei ; Gan, Ting.
    In: Structural Change and Economic Dynamics.
    RePEc:eee:streco:v:49:y:2019:i:c:p:93-106.

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  8. Factors impacting firm failure and technological development: A study of three emerging-economy firms. (2019). Karabag, Solmaz Filiz.
    In: Journal of Business Research.
    RePEc:eee:jbrese:v:98:y:2019:i:c:p:462-474.

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  9. Driving factors of carbon emissions in China: A joint decomposition approach based on meta-frontier. (2019). Zhou, Peng ; Su, Xuelin ; Shi, Junxue ; Wang, Hui ; Liu, Bingquan.
    In: Applied Energy.
    RePEc:eee:appene:v:256:y:2019:i:c:s0306261919316733.

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  10. GHG emissions embodied in Macaos internal energy consumption and external trade: Driving forces via decomposition analysis. (2018). Zhou, S L ; Yang, Q ; Li, J S ; Chen, G Q.
    In: Renewable and Sustainable Energy Reviews.
    RePEc:eee:rensus:v:82:y:2018:i:p3:p:4100-4106.

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  11. Decomposing the change in energy consumption in Chinas nonferrous metal industry: An empirical analysis based on the LMDI method. (2018). Wang, Miao ; Feng, Chao.
    In: Renewable and Sustainable Energy Reviews.
    RePEc:eee:rensus:v:82:y:2018:i:p3:p:2652-2663.

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  12. Drivers of fuel based carbon dioxide emissions: The case of Turkey. (2018). Turut-Aik, Serap ; Tun, Gul Pek ; Akbostanci, Elif.
    In: Renewable and Sustainable Energy Reviews.
    RePEc:eee:rensus:v:81:y:2018:i:p2:p:2599-2608.

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  13. How far is Colombia from decoupling? Two-level decomposition analysis of energy consumption changes. (2018). Roman-Collado, Rocio ; Cansino, Jose M ; Botia, Camilo.
    In: Energy.
    RePEc:eee:energy:v:148:y:2018:i:c:p:687-700.

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  14. Decomposition and scenario analysis of CO2 emissions in China’s power industry: based on LMDI method. (2017). Zhao, Yuhuan ; Zhang, Yongfeng ; Liu, YA ; Wang, Song.
    In: Natural Hazards: Journal of the International Society for the Prevention and Mitigation of Natural Hazards.
    RePEc:spr:nathaz:v:86:y:2017:i:2:d:10.1007_s11069-016-2710-5.

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  15. Dynamic Trends of Carbon Intensities among 127 Countries. (2017). Sang, YU ; Kim, Hann Earl ; Choi, Dosoung.
    In: Sustainability.
    RePEc:gam:jsusta:v:9:y:2017:i:12:p:2268-:d:122065.

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  16. Energy-Related CO 2 Emissions Forecasting Using an Improved LSSVM Model Optimized by Whale Optimization Algorithm. (2017). Guo, Sen ; Zhao, Huiru.
    In: Energies.
    RePEc:gam:jeners:v:10:y:2017:i:7:p:874-:d:103042.

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  17. Sustainable development of Chinas energy intensive industries: From the aspect of carbon dioxide emissions reduction. (2017). Lin, Boqiang ; Tan, Ruipeng.
    In: Renewable and Sustainable Energy Reviews.
    RePEc:eee:rensus:v:77:y:2017:i:c:p:386-394.

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  18. Comprehensive development of industrial symbiosis for the response of greenhouse gases emission mitigation: Challenges and opportunities in China. (2017). Yu, Xiaoman ; Liu, Weili ; Cote, Raymond P ; Chen, Qinghua ; Adams, Michelle ; Sun, LU ; Geng, Yong.
    In: Energy Policy.
    RePEc:eee:enepol:v:102:y:2017:i:c:p:88-95.

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  19. Driving forces of Irans CO2 emissions from energy consumption: An LMDI decomposition approach. (2017). Stephen, Neil ; Blesl, Markus ; Manuel, Jose Bienvenido ; Mousavi, Babak.
    In: Applied Energy.
    RePEc:eee:appene:v:206:y:2017:i:c:p:804-814.

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  20. The effects of transportation infrastructure on urban carbon emissions. (2017). Xie, Rui ; Fang, Jiayu ; Liu, Cenjie.
    In: Applied Energy.
    RePEc:eee:appene:v:196:y:2017:i:c:p:199-207.

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  21. Potential assessment of optimizing energy structure in the city of carbon intensity target. (2017). Shang, Yizi ; Lu, Shibao ; Wang, Jianhua ; Chen, Huixiong ; Bao, Haijun.
    In: Applied Energy.
    RePEc:eee:appene:v:194:y:2017:i:c:p:765-773.

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  22. Whole process decomposition of energy-related SO2 in Jiangsu Province, China. (2017). Zhou, Peng ; Wang, Qunwei ; Wei, Hongye.
    In: Applied Energy.
    RePEc:eee:appene:v:194:y:2017:i:c:p:679-687.

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  23. Decomposition of Net CO 2 Emission in the Wuhan Metropolitan Area of Central China. (2016). Ma, Chunbo ; Yang, Xin ; Zhang, Anlu.
    In: Sustainability.
    RePEc:gam:jsusta:v:8:y:2016:i:8:p:784-:d:75834.

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  24. Exploring the driving forces and mitigation pathways of CO2 emissions in China’s petroleum refining and coking industry: 1995–2031. (2016). Shao, Shuai ; Lin, Boqiang ; Xie, Xuan.
    In: Applied Energy.
    RePEc:eee:appene:v:184:y:2016:i:c:p:1004-1015.

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  25. Decomposition analysis from demand services to material production: The case of CO2 emissions from steel produced for automobiles in Mexico. (2016). Sheinbaum-Pardo, Claudia.
    In: Applied Energy.
    RePEc:eee:appene:v:174:y:2016:i:c:p:245-255.

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  26. Uncovering driving forces on greenhouse gas emissions in China’ aluminum industry from the perspective of life cycle analysis. (2016). Adams, Michelle ; Sun, Lina ; Dong, Liang ; Zhao, Jingjing ; Wu, Jiao ; Liu, Zhe ; Geng, Yong ; Tian, XU.
    In: Applied Energy.
    RePEc:eee:appene:v:166:y:2016:i:c:p:253-263.

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  27. Decomposing the decoupling relationship between energy-related CO 2 emissions and economic growth in China. (2015). Li, Wei ; Sun, Shuang.
    In: Natural Hazards: Journal of the International Society for the Prevention and Mitigation of Natural Hazards.
    RePEc:spr:nathaz:v:79:y:2015:i:2:p:977-997.

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  28. The driving forces of change in energy-related CO2 emissions in Eastern, Western, Northern and Southern Europe: The LMDI approach to decomposition analysis. (2015). Moutinho, Victor ; Silva, Pedro Miguel ; Moreira, Antonio Carrizo.
    In: Renewable and Sustainable Energy Reviews.
    RePEc:eee:rensus:v:50:y:2015:i:c:p:1485-1499.

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  29. The decomposition of energy-related carbon emission and its decoupling with economic growth in China. (2015). Zhang, Yue-Jun ; Da, Yabin.
    In: Renewable and Sustainable Energy Reviews.
    RePEc:eee:rensus:v:41:y:2015:i:c:p:1255-1266.

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  30. Energy efficiency and CO2 mitigation potential of the Turkish iron and steel industry using the LEAP (long-range energy alternatives planning) system. (2015). Ates, Seyithan A.
    In: Energy.
    RePEc:eee:energy:v:90:y:2015:i:p1:p:417-428.

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  31. How industrialization and urbanization process impacts on CO2 emissions in China: Evidence from nonparametric additive regression models. (2015). Lin, Boqiang ; Xu, Bin.
    In: Energy Economics.
    RePEc:eee:eneeco:v:48:y:2015:i:c:p:188-202.

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  32. Changes in CO2 emissions over business cycle recessions and expansions in the United States: A decomposition analysis. (2015). Shahiduzzaman, Md., ; Layton, Allan.
    In: Applied Energy.
    RePEc:eee:appene:v:150:y:2015:i:c:p:25-35.

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  33. Carbon dioxide emissions intensity of Portuguese industry and energy sectors: A convergence analysis and econometric approach. (2014). Moutinho, Victor ; Robaina-Alves, Margarita ; Mota, Jorge.
    In: Renewable and Sustainable Energy Reviews.
    RePEc:eee:rensus:v:40:y:2014:i:c:p:438-449.

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  34. Analysis of energy-related CO2 (carbon dioxide) emissions and reduction potential in the Chinese non-metallic mineral products industry. (2014). Lin, Boqiang ; Ouyang, Xiaoling.
    In: Energy.
    RePEc:eee:energy:v:68:y:2014:i:c:p:688-697.

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  35. Factorial decomposition of CO2 emissions: A generalized Divisia index approach. (2014). Vaninsky, Alexander.
    In: Energy Economics.
    RePEc:eee:eneeco:v:45:y:2014:i:c:p:389-400.

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  36. Cost of energy saving and CO2 emissions reduction in China’s iron and steel sector. (2014). Zhu, Lei ; Li, Yuan.
    In: Applied Energy.
    RePEc:eee:appene:v:130:y:2014:i:c:p:603-616.

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  37. Decomposition of energy-related GHG emissions in agriculture over 1995–2008 for European countries. (2014). Moutinho, Victor ; Robaina-Alves, Margarita .
    In: Applied Energy.
    RePEc:eee:appene:v:114:y:2014:i:c:p:949-957.

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  38. The differences of carbon intensity reduction rate across 89 countries in recent three decades. (2014). Wei, Yi-Ming ; Liao, Hua ; Zhu, Zhi-Shuang ; Wang, LU ; Yan, Jinyue ; Cao, Huai-Shu.
    In: Applied Energy.
    RePEc:eee:appene:v:113:y:2014:i:c:p:808-815.

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  39. Forecasting Energy CO 2 Emissions Using a Quantum Harmony Search Algorithm-Based DMSFE Combination Model. (2013). Gu, Xingsheng ; Sun, Wei ; Chang, Hong.
    In: Energies.
    RePEc:gam:jeners:v:6:y:2013:i:3:p:1456-1477:d:24016.

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  40. Decomposition analysis: Change of carbon dioxide emissions in the Chinese textile industry. (2013). Lin, Boqiang ; Moubarak, Mohamed.
    In: Renewable and Sustainable Energy Reviews.
    RePEc:eee:rensus:v:26:y:2013:i:c:p:389-396.

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  41. Decomposition analysis and Innovative Accounting Approach for energy-related CO2 (carbon dioxide) emissions intensity over 1996–2009 in Portugal. (2013). Moutinho, Victor ; Alves, Margarita Robaina .
    In: Energy.
    RePEc:eee:energy:v:57:y:2013:i:c:p:775-787.

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  42. An analysis of energy-related greenhouse gas emissions in the Chinese iron and steel industry. (2013). Geng, Yong ; Tian, Yihui ; Zhu, Qinghua.
    In: Energy Policy.
    RePEc:eee:enepol:v:56:y:2013:i:c:p:352-361.

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  43. A study of energy efficiency of transport sector in China from 2003 to 2009. (2013). Yeung, Iris M. H., ; Chung, William ; Zhou, Guanghui.
    In: Applied Energy.
    RePEc:eee:appene:v:112:y:2013:i:c:p:1066-1077.

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  44. Examining the impact factors of energy-related CO2 emissions using the STIRPAT model in Guangdong Province, China. (2013). Wei, Yi-Ming ; Wu, Wanshui ; Wang, Ping ; Zhu, Bangzhu.
    In: Applied Energy.
    RePEc:eee:appene:v:106:y:2013:i:c:p:65-71.

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  45. Decomposition analysis for energy-related CO2 emissions intensity over 1996-2009 in Portuguese Industrial Sectors. (2013). Moutinho, Victor ; Alves, Margarida R..
    In: CEFAGE-UE Working Papers.
    RePEc:cfe:wpcefa:2013_10.

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  46. Regional energy-related carbon emission characteristics and potential mitigation in eco-industrial parks in South Korea: Logarithmic mean Divisia index analysis based on the Kaya identity. (2012). Fujita, Toyohisa ; Jung, Seok ; An, Kyoung-Jin ; Dodbiba, Gjergj.
    In: Energy.
    RePEc:eee:energy:v:46:y:2012:i:1:p:231-241.

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  47. An easily traceable scenario for 80% CO2 emission reduction in Japan through the final consumption-based CO2 emission approach: A case study of Kyoto-city. (2012). Yamagata, Yoshiki ; Shigeto, Sawako ; Horio, Masayuki ; Hidaka, Masato ; Ii, Ryota, .
    In: Applied Energy.
    RePEc:eee:appene:v:90:y:2012:i:1:p:201-205.

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  48. The differences of carbon intensity reduction rate across 89 countries in recent three decades. (2012). Wei, Yi-Ming ; Liao, Hua ; Zhu, Zhi-Shuang ; Wang, LU ; Yan, Jinyue ; Cao, Huai-Shu.
    In: CEEP-BIT Working Papers.
    RePEc:biw:wpaper:38.

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  49. A study of residential energy use in Hong Kong by decomposition analysis, 1990–2007. (2011). Chung, William ; Kam, M. S. ; Ip, C. Y..
    In: Applied Energy.
    RePEc:eee:appene:v:88:y:2011:i:12:p:5180-5187.

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  50. South Africa’s electricity consumption: A sectoral decomposition analysis. (2011). Inglesi-Lotz, Roula ; Blignaut, James.
    In: Applied Energy.
    RePEc:eee:appene:v:88:y:2011:i:12:p:4779-4784.

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