کد مقاله | کد نشریه | سال انتشار | مقاله انگلیسی | نسخه تمام متن |
---|---|---|---|---|
5118698 | 1485672 | 2017 | 13 صفحه PDF | دانلود رایگان |

- Investigating the potentials of resource and energy savings and emission reductions in the China's steel industry is an important and urgent task.
- Based on the subsystem input-output model, scenario analysis is applied to analyze the impacts of imported steel scrap in China's steel industry.
- The intensive scrap usage, especially imported steel scrap, is crucial for sustainable development of China's steel industry in the near future.
- The development obstacles of China's steel scrap industry are discussed in detail.
- Some suggestions are put forward to provide reference points for the policy makers.
China's steel production has increased rapidly since 2000, accounting for 49.4% of worldwide production in 2014. Steel production is energy- and resource-intensive, and is also a major source of pollution. The potential for resource and energy conservation and emissions mitigation in China's steel industry is investigated in this study for its worthwhile and realistic significance. This paper used the subsystem input-output model and scenario analysis to investigate the influence of imported steel scrap on the future energy and resource consumption and waste gas emissions (CO2, SO2 and PM) of China's steel industry. These results reveal that intensive use of steel scrap, especially imported steel scrap, is crucial for a sustainable steel industry. Compared to the baseline scenario (scenario 1), the potential for energy conservation, iron ore conservation and waste gas emissions mitigation in China's steel sector under the new policy scenario (scenario 3) is around 10082Â PJ, 8209Â Mt, and 2068Â Mt, respectively, between 2014 and 2030. Finally, the obstacles to the development of China's steel scrap industry are discussed in detail, and some suggestions are proposed, to provide a scientific basis for the government and steelmakers.
Journal: Resources, Conservation and Recycling - Volume 120, May 2017, Pages 186-198