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Natural Hazards

, Volume 95, Issue 1–2, pp 25–38 | Cite as

Climate change mitigation in the coal mining industry: low-carbon pathways and mine safety indicators

  • Bing WangEmail author
  • Chao-Qun Cui
  • Yi-Xin Zhao
  • Man Chen
  • Xiao-Chen Yuan
Original Paper

Abstract

As China’s major energy source, the coal sector contributes to a significant portion of China’s greenhouse gas emissions, and the industry faces huge pressure in relation to saving energy and reducing carbon emissions. Considering Chinese National Knowledge Infrastructure database as the basic retrieval source, this paper presents the status and hot spots reported in studies on the carbon emissions of the coal mining industry. The results reveal that the scientific outcomes of these studies in this field have increased sharply in the last 5 years. China University of Mining and Technology and the China Coal Research Institute are outstanding research institutes regarding this research topic. The subject distribution suggested the studies on the carbon emissions of the coal mining sector have developed into an interdisciplinary field, which includes the coal mining technology, industrial economy, management and environment. The related hot spots indicate that the energy consumed during the mining process, coal mine gas, sustainable plans for abandoned coal mines and utilization of coal gangue are the indexes for low-carbon development of the coal mining industry, which is also significant for mine disaster prevention. It should be highlighted that the coal spontaneous combustion during the coal mining process and the coal production structure represented by the number of coal mines and the minimum capacity requirement could be important factors for achieving future carbon emission reductions in the coal mining sector.

Keywords

Coal mining Carbon emissions Coal mine gas Bibliometric analysis Low-carbon development 

Notes

Acknowledgements

The research gratefully acknowledges the financial support of the National Natural Science Foundation of China (No. 71704178), Beijing Excellent Talent Program (No. 2017000020124G133), Yue Qi Distinguished Scholar Project of China University of Mining and Technology (Beijing), National Statistical Science Research Project by National Bureau of Statistics of China (No. 2017LY10), and Major Consulting Project of Chinese Academy of Engineering (Nos. 2016-ZD-07, 2017-ZD-03). The support from colleagues of the Center for Energy and Environmental Policy Research, Beijing Institute of Technology are also graciously acknowledged.

References

  1. Gao JX (2017) Low concentration coal gas utilization in Yangquan coal industry company. http://www.ccoalnews.com/news/201704/28/c11756.html. Accessed 28 April 2017
  2. IEA (2017) Coal 2017 analysis and forecasts to 2022. IEA, ParisGoogle Scholar
  3. Jing PD, Kang ZY (2000) On the mathematical models of the growth of scientific literature. J China Soc Sci Tech Inf 19(1):90–96Google Scholar
  4. Li XY, Tang BJ (2017) Incorporating the transport sector into carbon emission trading scheme: an overview and outlook. Nat Haz 88(2):683–698CrossRefGoogle Scholar
  5. Liang D (2015) Development opportunity of China coal industry under ‘one belt and one road’ strategy. Coal Econ Res 35(7):10–15Google Scholar
  6. Liang XJ, Wang B, Zhang H, Tang BJ (2016) The energy efficiency and carbon emissions researches of the iron and steel industry. J Beijing Inst Technol (Soc Sci Ed) 18(2):34–38Google Scholar
  7. Mao X, Fung OWM, Hu X, Loke AY (2018) Psychological impacts of disaster on rescue workers: a review of the literature. Int J Disaster Risk Reduc 27:602–617CrossRefGoogle Scholar
  8. Mi ZF, Meng J, Guan D et al (2017a) Chinese CO2 emission flows have reversed since the global financial crisis. Nat Commun 8:1712CrossRefGoogle Scholar
  9. Mi ZF, Meng J, Guan D et al (2017b) Pattern changes in determinants of Chinese emissions. Environ Res Lett 12:074003CrossRefGoogle Scholar
  10. Qian MG (2017) Efforts to be made to achieve the transition of Chinese coal industry from quantity to quality. China Coal 43(7):5–9Google Scholar
  11. Qian MG, Xu JL, Miao XX (2004) Study and application of the green mining technology. Energy Technol Manag 4:1–4Google Scholar
  12. Sauer PC, Seuring S (2017) Sustainable supply chain management for minerals. J Clean Prod 151:235–249CrossRefGoogle Scholar
  13. State Council of China (2014) Strategic action plan for energy development (2014–2020). http://www.gov.cn/zhengce/content/2014-11/19/content_9222.htm. Accessed 28 Sep 2017
  14. Sun X, Wang C, Hao Z (2015) Study on transformational development of China coal industry under background of “one belt and one road” strategy. Coal Econ Res 35(7):22–25Google Scholar
  15. Wang B, Pan SY, Ke RY, Wang K, Wei YM (2014) An overview of climate change vulnerability: a bibliometric analysis based on Web of Science database. Nat Haz 74:1649–1666CrossRefGoogle Scholar
  16. Wang J, Liu F, Wang L (2016) Sustainable coal mining and mining sciences. J China Coal Soc 41(11):2651–2660Google Scholar
  17. Wang B, Mi ZF, Nistor I, Yuan XC (2018a) How does hydrogen-based renewable energy change with economic development? Empirical evidence from 32 countries. Int J Hydrog Energy 43:11629–11638CrossRefGoogle Scholar
  18. Wang B, Wang Q, Wei YM, Li ZP (2018b) Role of renewable energy in China’s energy security and climate change mitigation: an index decomposition analysis. Renew Sust Energy Rev 90:187–194CrossRefGoogle Scholar
  19. Wei YM, Mi ZF, Zhang H (2013) Review on climate policy modeling: an analysis based on bibliometrics method. Adv Earth Sci 28(8):930–938Google Scholar
  20. Wei YM, Yuan XC, Wu G, Yang LX (2014) Climate change risk assessment: a bibliometric analysis based on web of science. Bull Nat Nat Sci Found China 28(5):347–356Google Scholar
  21. Wei YM, Mi ZF, Huang ZM (2015) Climate policy modeling: an online SCI-E and SSCI based literature review. OMEGA 57:70–84CrossRefGoogle Scholar
  22. Xiao C (2016) Opportunities and challenges faced by China’s coal enterprises under transition background. Businessman 30(2):5–6Google Scholar
  23. Xie HP, Liu H, Wu G (2012) Quantitative analysis on Coal contribution to national economic development. Energy China 34(4):5–9Google Scholar
  24. Xu J, Ma N, Xie H (2017) Ecological coal mining based dynamic equilibrium strategy to reduce pollution emissions and energy consumption. J Clean Prod 167:514–529CrossRefGoogle Scholar
  25. Yuan L (2016) Simultaneous extraction of coal and gas. China University of Mining and Technology Press, XuzhouGoogle Scholar
  26. Yuan L (2017a) Study on efficient recovery of coal resources and energy saving strategy in China. Science Press, BeijingGoogle Scholar
  27. Yuan L (2017b) Scientific conception of precision coal mining. J China Coal Soc 42(1):1–7Google Scholar
  28. Yuan XC, Wei YM, Wang B, Mi ZF (2017) Risk management of extreme events under climate change. J Clean Prod 166:1169–1174CrossRefGoogle Scholar
  29. Yuan L, Jiang Y, Wang K et al (2018) Precision exploitation and utilization of closed/abandoned mine resources in China. J China Coal Soc 43(1):14–20Google Scholar
  30. Zeng FW, Liu JJ (2017) Study of carbon footprint calculation scheme for coal products. Coal Eng 49:169–172Google Scholar
  31. Zhang K, Wang Q, Liang QM, Zhang H (2016) A bibliometric analysis of research on carbon tax from 1989 to 2014. Renew Sust Energy Rev 58:297–310CrossRefGoogle Scholar
  32. Zhang F, He X, Xiang W, Li SC (2017a) Assessment of the quality of pharmacoeconomic evaluation literature in China. J Med Econ 20(5):510–517CrossRefGoogle Scholar
  33. Zhang X, Liu J, Tang Y et al (2017b) China’s coal-fired power plants impose pressure on water resources. J Clean Prod 161:1171–1179CrossRefGoogle Scholar
  34. Zhao J (2011) Analysis and policy recommendation on coal industry clean-using from the perspective of low-carbon economy. J China Coal Soc 36(3):514–518Google Scholar
  35. Zhou L, Duan M, Yu Y (2018) Exergy and economic analyses of indirect coal-to-liquid technology coupling carbon capture and storage. J Clean Prod 174:87–95CrossRefGoogle Scholar

Copyright information

© Springer Nature B.V. 2018

Authors and Affiliations

  1. 1.Beijing Key Laboratory for Precise Mining of Intergrown Energy and ResourcesChina University of Mining and Technology (Beijing)BeijingChina
  2. 2.College of Resources and Safety EngineeringChina University of Mining and Technology (Beijing)BeijingChina
  3. 3.Center for Energy and Environmental Policy ResearchBeijing Institute of TechnologyBeijingChina
  4. 4.School of Management and EconomicsBeijing Institute of TechnologyBeijingChina

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