Study on Coal Mining and Utilization Model and Elastic Development in Post-Industry Age
International Journal of Oil, Gas and Coal Engineering
Volume 5, Issue 6, November 2017, Pages: 139-144
Received: Nov. 16, 2017;
Published: Nov. 21, 2017
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Ru Zhang, School of Environment Science and Spatial Information, China University of Mining and Technology, Xuzhou, China; Jiangsu Key Laboratory of Resources and Environmental Information Engineering, Xuzhou, China
Yixin Cui, School of Environment Science and Spatial Information, China University of Mining and Technology, Xuzhou, China
Jihong Dong, School of Environment Science and Spatial Information, China University of Mining and Technology, Xuzhou, China; Jiangsu Key Laboratory of Resources and Environmental Information Engineering, Xuzhou, China
Clean, efficient, green energy utilization demand put forward new requirements for the traditional mining. Based on the theory of elastic development, taking coal resources development and utilization as the leading factor, the paper explores the coal resources production mode, coal mining enterprise management and coal mining area elastic development in the background of post-industry age from the perspective of technological development, realistic requirements and field cooperation. Conclusion: (1) Changes in production methods, in the post-industrial age, the coal exploitation and utilization will achieve green precision mining for less consumption and less ecological disturbance, circular economy for clean and efficient utilization, zero emissions and harmless disposal of waste; (2) Management innovation of coal mining enterprise, the coal mining enterprises will realize the mine system intelligent management for the new technologies emergence of artificial intelligence, virtual simulation, internet sensing and all-round, visual real-time dynamic monitoring et al; (3) Elastic development of coal mining area, the coal mining area will realize the all-round development of engineering elasticity, economic elasticity, social elasticity and ecological elasticity for the more completed structure and functions, the more improved ability of self recovery and resist external risks, and more enhanced integrity and completeness of system.
Study on Coal Mining and Utilization Model and Elastic Development in Post-Industry Age, International Journal of Oil, Gas and Coal Engineering.
Vol. 5, No. 6,
2017, pp. 139-144.
Beii D. The coming of the post-industrial society [C]. The Educational Forum, 1973.
BP Amoco BP. Statistical review of world energy (2017) [C], Landon, 2017.
BP Amoco BP. Energy outlook 2030 [C]. Landon, 2012.
[America] B Daniel, X Gao et. Al (translation). The advent of post-industry age [M]. Beijing: Xinhua publishing house, 1997.
W Haijun, L Kemin, C Shuzhao, et al. Analysis of the conditions of resource adapt to transferring from underground into open pit mining [J]. Metal Mine, pp. 54-56, 2010.
Introduction of the US coal industry (I) -coal industry status and vision [J]. Journal of Coal Science & Technology, pp. 43-45, 1977.
Q Mininggao. Technological system and green mining concept [J]. Coal Science & Technology Magazine, pp. 1-3, 2003.
X Heping, W Jinhua, S Hongbao et al. New idea of coal mining scientific mining and sustainable mining capacity [J]. Journal of China coal society. vol. 37, pp. 1069-1079, 2012.
Z Dong. Development of clean production mechanism in coal resources exploitation and utilization [A]. Proceedings of conference in 2006 of environment and resources law society of China law society (II) [C]. Environment and Resources Law Society of China Law Society, pp. 4, 2006.
N Kehong. Study on Coal Cleaner Production Mode [A]. 2009 coal enterprise management modernization innovation achievement set [C], pp. 7, 2010.
P Weihua. Discussion based on the internet of Things technology “intelligent mines” building [J]. Shandong Coal Science and Technology, pp. 259-60, 2012.
W Pu, Z Jinsheng, W Chunfang et al. Development of mining city’s low-carbon economy and construction of green mine research [J]. China Population, Resources and Environment, vol. 24, pp. 16-18, 2014.
L Binbin. Analysis of continuous short-wall mining technology [J]. Energy and Energy Conservation, pp. 134-135, 2017.
X Zhiyuan. The review on combined open-underground mining technology in Pinghsuo mining area [J]. Coal Engineering, vol. 47, pp. 11-14, 2015.
Y Liang. Carry out accurate coal mining research based on artificial intelligence, and provide scientific and technological support for deep development [J]. Science & Technology Review, vol. 35, pp. 1, 2017.
Y Liang. Scientific conception of precision coal mining [J]. Journal of China Coal Society, vol. 42, pp. 1-7, 2017.
Q Mininggao. Construction and practice of green mining technology system in coal mine [A]. China Coal Society, China association for science and technology the 16th branch of 2004 annual conference [C]. China Coal Society, pp. 5, 2004.
L Gao. Discuss the construction of the wisdom mine [J]. Copper Engineering, pp. 43-46+76, 2013.
H Zhonggang, W Xianli. Development tendency of internet plus intelligent mine [J]. Coal Science and Technology, vol. 44, pp. 28-33+63, 2016.
W Li. Study on concept and key technologies of smart mine [J]. Industry and Mine Automation, vol. 40, pp. 37-41, 2014.
C Jianming, Guo Hua, Wang Degen. A review of studies on elastic cities in foreign countries [J] Process in Geography, vol. 31, pp. 1245-1255, 2012.