1. Evaluating the impact of natural resource rents, R&D expenditures, green finance and energy efficiency on carbon emissions in BRICS economies: Greening the path to carbon neutrality in the post-COP 27 era. (2025). Shabbir, Muhammad Salman ; Sharif, Arshian ; Pan, Yanchun ; Amin, Nabila.
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   RePEc:eee:teinso:v:81:y:2025:i:c:s0160791x25000168.

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2. A holistic picture of the carbon emission responsibility in Chinas aluminium supply chain: Production-side flow analyses, consumption-side responsibility allocation, and driving factor analysis. (2025). Ma, Linwei ; Li, Zheng ; Fu, Yuning ; Yang, Honghua ; Chong, Chin Hao ; Arras, Maximilian.
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3. Resource configuration and daily operational scheduling for urban electric bus route under the hybrid power supply strategy. (2025). Yang, Menglin ; Zhou, Haolin ; Bie, Yiming.
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   RePEc:eee:energy:v:320:y:2025:i:c:s036054422500739x.

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4. Analysis of energy-related carbon dioxide intensity in Chinas major non-ferrous metal producing regions: Spatio-temporal decomposition and emission reduction strategies. (2025). Li, Xin ; Su, Zhu ; Zhang, Chang ; Xu, Weihua ; Peng, Zheng.
   In: Energy.
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5. Exploring the carbon neutrality pathway for Chinas aluminium industry: An analysis from 1950 to 2060. (2025). Zhu, Xueyuan ; Jin, Qiang.
   In: Applied Energy.
   RePEc:eee:appene:v:393:y:2025:i:c:s0306261925008207.

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6. Decarbonization pathways analysis and recommendations in the green steel supply chain of a typical steel end user-automotive industry. (2025). Tian, Shuoshuo ; Zhang, QI ; Shen, Jialin.
   In: Applied Energy.
   RePEc:eee:appene:v:377:y:2025:i:pd:s0306261924020944.

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7. Fintech and aluminium: Strategic enablers of climate change mitigation and sustainable mineral policy. (2024). Tao, Ran ; Umar, Muhammad ; Qin, Meng ; Liu, Fangying ; Su, Chi Wei.
   In: Resources Policy.
   RePEc:eee:jrpoli:v:91:y:2024:i:c:s0301420724003015.

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8. Assessment of trade-off, exergetic performance, and greenhouse gas impact-cost analysis of a diesel engine running with different proportions of TiO2, Ag2O, and CeO2 nanoadditives. (2024). Erol, Dervi ; Glcan, Halil Erdi ; Bayindirli, Cihan ; Elik, Mehmet.
   In: Energy.
   RePEc:eee:energy:v:313:y:2024:i:c:s0360544224035643.

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9. 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.
   In: Energy.
   RePEc:eee:energy:v:306:y:2024:i:c:s0360544224021601.

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10. Balancing progress and preservation: analyzing the role of technological innovation in mitigating environmental degradation caused by energy consumption in China. (2024). Shafiq, Muhammad Nouman ; Yang, Xiuyun ; Zeng, Xubin ; Gillani, Seemab ; Sharif, Arshian.
    In: Economic Analysis and Policy.
    RePEc:eee:ecanpo:v:84:y:2024:i:c:p:391-409.

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1. Research of the Impact of Hydrogen Metallurgy Technology on the Reduction of the Chinese Steel Industry’s Carbon Dioxide Emissions. (2024). Han, Yunfei ; Yao, Xilong ; Li, Jizu ; Wan, Fang.
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2. Numerical study on oxy-fuel combustion characteristics of industrial furnace firing coking dry gas. (2024). Feng, Qinqin ; Chen, Meijing ; Xu, Jie ; Fan, Gaofeng ; Wang, Changan ; Sun, Yunlei ; Du, Yongbo.
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3. A multi-criteria decision support model for adopting energy efficiency technologies in the iron and steel industry. (2023). Zhou, Wenji ; Ma, Tieju ; Zhang, Shaohui ; Makowski, Marek ; Ren, Hongtao ; Yu, Yadong.
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4. A Comprehensive Evaluation and Empirical Research on Dual Carbon Emission Reduction under Digital Empowerment. (2023). Xu, Xintong ; Un, Cora.
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5. Tracing Chinas steel use from steel flows in the production system to steel footprints in the consumption system. (2023). Li, Zheng ; Ma, Linwei ; Yang, Honghua.
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6. The carbon reduction potential of hydrogen in the low carbon transition of the iron and steel industry: The case of China. (2023). Ou, Xunmin ; Zhou, Sheng ; Ren, Lei.
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7. CFD study of bio-syngas and coal co-injection in a blast furnace with double lance. (2023). Wang, QI ; Chionoso, Oguga Paul.
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8. Effect of multi-component gases on the behavior and mechanism of carbon deposition in hydrogen-rich blast furnaces. (2023). Zhang, Lei ; Jiao, Kexin ; Feng, Guangxiang ; Wang, Cui.
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9. Cascade relationship between flow field characteristics and smoke emissions in the industrial reheating furnace. (2022). Yongshun, Zhang ; Lipo, Yang ; Yunpeng, Liu ; Yingwu, Hou.
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10. Chinas industrial decarbonization in the context of carbon neutrality: A sub-sectoral analysis based on integrated modelling. (2022). Zhang, Shu ; Pan, Xunzhang ; Li, Xiang ; Chen, Wenying ; Shao, Tianming ; Zhou, Sheng.
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11. Recycling and utilization of calcium carbide slag - current status and new opportunities. (2022). Gong, Xuzhong ; Zhang, Tong ; Liu, Junhao ; Cao, Jianwei ; Wang, Chuan.
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12. Energy efficiency gains from distortion mitigation: A perspective on the metallurgical industry. (2022). Lin, Boqiang ; Xu, Mengmeng.
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13. An integrated analysis of China’s iron and steel industry towards carbon neutrality. (2022). Wang, Xiaoyang ; Xu, Shuo ; Sun, Feihu ; Yu, Biying.
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14. The study of heat-mass transfer characteristics and multi-objective optimization on electric arc furnace. (2022). He, Ya-Ling ; Zhang, Xuan-Kai ; Hu, Xin ; Li, Meng-Jie.
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15. Cost-benefit assessment of manufacturing system using comprehensive value flow analysis. (2022). Song, Yanli ; Fang, Xin ; Yan, Tianyi ; Du, Tao ; Sun, Jingchao ; Na, Hongming ; Qiu, Ziyang ; Che, Zichang ; Yuan, Yuxing ; Li, Yingnan.
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16. From efficiency to equity: Changing patterns of Chinas regional transportation systems from an in‐use steel stocks perspective. (2022). Tian, Xin ; Wang, Tao ; Xu, Shuntian ; Tanikawa, Hiroki.
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17. Technological development pathway for a low-carbon primary aluminum industry in China. (2021). YU, BIYING ; Zhang, Shuai ; Li, RU ; Chen, Jingming ; Zhao, Guangpu.
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18. A review of CO2 emissions reduction technologies and low-carbon development in the iron and steel industry focusing on China. (2021). Ou, Xunmin ; Peng, Tianduo ; Zhou, Sheng ; Ren, Lei.
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19. Optimal strategies for reverse logistics network construction: A multi-criteria decision method for Chinese iron and steel industry. (2021). Gu, Wei ; Dai, Shufen ; Chiang, Robert I ; Wei, Lirong ; Wang, Chen.
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20. A comprehensive assessment on material, exergy and emission networks for the integrated iron and steel industry. (2021). Li, Yingnan ; Yan, Tianyi ; Du, Tao ; Sun, Jingchao ; He, Jianfei ; Na, Hongming ; Qiu, Ziyang ; Yuan, Yuxing ; Wang, Yisong.
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21. New technology for producing high-quality combustible gas by high-temperature reaction of dust-removal coke powder in mixed atmosphere. (2021). Li, Yujie ; Song, Weiming ; Cheng, Rijin ; Yang, Jian ; Zhou, Jianan.
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22. The future of coal supply in China based on non-fossil energy development and carbon price strategies. (2021). Xu, Xiangyang ; Guo, Fei ; Jie, Dingfei.
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23. Many-objective optimization of energy conservation and emission reduction in China’s cement industry. (2021). Wen, Zongguo ; Dinga, Christian Doh.
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24. Pathways for decarbonizing China’s building sector under global warming thresholds. (2021). YU, BIYING ; Tang, Bao-Jun ; Guo, Yangyang ; Danny, L D.
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25. Decarbonizing China’s iron and steel industry from the supply and demand sides for carbon neutrality. (2021). Lu, Pantao ; Hossain, M S ; Ren, Ming ; Glynn, James ; Dai, Hancheng ; O'Gallachoir, Brian ; Fang, Yanru ; Liu, Xiaorui ; Hanaoka, Tatsuya.
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26. Does industrial agglomeration improve effective energy service: An empirical study of China’s iron and steel industry. (2021). Lin, Boqiang ; Wu, Rongxin.
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27. Impacts of regional industrial electricity savings on the development of future coal capacity per electricity grid and related air pollution emissions – A case study for China. (2021). Crijns-Graus, Wina ; Yue, Hui ; Worrell, Ernst.
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28. A CO2 emissions assessment of the green economy in Iran. (2020). Solaymani, Saeed.
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29. Dynamic evolution analysis of the factors driving the growth of energy-related CO2 emissions in China: An input-output analysis. (2020). Song, Zhe ; Ma, Yan ; Jiang, Tangyang ; Li, Shuangqi.
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30. Path Analysis of Beijing’s Dematerialization Development Based on System Dynamics. (2020). Dai, Tiejun ; Shan, Shuo.
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31. Multi-objective optimization of synergic energy conservation and CO2 emission reduction in Chinas iron and steel industry under uncertainty. (2020). Wen, Zongguo ; Wang, Yihan ; Yao, Jianguo ; Dinga, Christian Doh.
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32. Technology innovation system analysis of decarbonisation options in the EU steel industry. (2020). Verdolini, Elena ; Skoczkowski, Tadeusz ; Bielecki, Sawomir ; Kochaski, Max ; Korczak, Katarzyna ; Wglarz, Arkadiusz.
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33. Hybrid event-, mechanism- and data-driven prediction of blast furnace gas generation. (2020). Wang, Zihao ; Sun, Wenqiang.
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34. A multi-dimensional analysis on microeconomic factors of Chinas industrial energy intensity (2000–2017). (2020). Su, Bin ; Sun, Yuan ; Zhou, Kaile ; Zhang, Chi.
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35. Challenges for the European steel industry: Analysis, possible consequences and impacts on sustainable development. (2020). Vögele, Stefan ; Rübbelke, Dirk ; Vogele, Stefan ; Grajewski, Matthias ; Govorukha, Kristina ; Rubbelke, Dirk.
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36. Three-dimensional transient modelling of coal and coke co-combustion in the dynamic raceway of ironmaking blast furnaces. (2020). Zhuo, Yuting ; Shen, Yansong.
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37. Will land transport infrastructure affect the energy and carbon dioxide emissions performance of China’s manufacturing industry?. (2020). Lin, Boqiang ; Chen, YU.
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38. CO2 emissions accounting for the chemical industry: an empirical analysis for China. (2019). YU, BIYING ; Wei, Yi-Ming ; Chen, Jing-Ming.
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39. Framing the picture of energy consumption in China. (2019). YU, BIYING ; An, Runying ; Zhao, Guangpu.
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40. Health Effects of Energy Intensive Sectors and the Potential Health Co-Benefits of a Low Carbon Industrial Transition in China. (2019). Liu, Wenling ; Yang, Tingru.
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41. Material-energy-water-carbon nexus in China’s electricity generation system up to 2050. (2019). Elshkaki, Ayman.
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42. Comparative study on power efficiency of Chinas provincial steel industry and its influencing factors. (2019). Sun, Chuanwang ; Wu, YA ; Li, KE.
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43. Peaking CO2 emissions for Chinas urban passenger transport sector. (2019). YU, BIYING ; Li, XI.
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44. Good subsidies or bad subsidies? Evidence from low-carbon transition in Chinas metallurgical industry. (2019). Lin, Boqiang ; Xu, Mengmeng.
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45. Sustainable development pathway for intercity passenger transport: A case study of China. (2019). YU, BIYING ; Wei, Yi-Ming ; Tang, Bao-Jun ; Li, Xiao-Yi.
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46. Evaluation of pulverized coal utilization in a blast furnace by numerical simulation and grey relational analysis. (2019). Zhou, Ping ; Wu, Dongling.
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47. A many-objective optimization of industrial environmental management using NSGA-III: A case of China’s iron and steel industry. (2019). Wen, Zongguo ; Tao, Yuan ; Wang, Yihan ; Zhang, Hong ; Chen, Chen.
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48. Determinants of carbon emissions in ‘Belt and Road initiative’ countries: A production technology perspective. (2019). Da, Yabin ; Zhang, Xian ; Wan, Si-Lai ; Fan, Jing-Li ; Cao, Zhe ; Wang, YU.
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49. Modelling deep decarbonization of industrial energy consumption under 2-degree target: Comparing China, India and Western Europe. (2019). Chen, Wenying ; Wang, Huan.
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50. Intensive carbon dioxide emission of coal chemical industry in China. (2019). Zhang, You ; Liu, Xuewei ; Jiang, Songyan ; Margni, Manuele ; Hua, Hui ; Bulle, Cecile ; Yuan, Zengwei.
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