Study on Synergetic Optimization of Cross-section Size of Access in Intensive Mining of Complex Polymetallic Mine

Metal Mine ›› 2020, Vol. 50 ›› Issue (05): 82-88.

Previous Articles Next Articles

Study on Synergetic Optimization of Cross-section Size of Access in Intensive Mining of Complex Polymetallic Mine

Tian Xin，Zhong Wen，Luo Jianlin，Xiao Changbo，Zha Daohuan，Ouyang Jian，Zhu Wentao

1. School of Resources and Environmental Engineering，Jiangxi University of Science and Technology， Ganzhou 341000，China；2. State Key Laboratory of Geotechnical Mechanics and Engineering，Wuhan Institute of Rock and Soil Mechanics，Chinese Academy of Sciences，Wuhan 430071，China；3. Chongyi Zhangyuan Tungsten Co.， Ltd.，Ganzhou 341300，China；4. Jiangxi College of Applied Technology，Ganzhou 341000，China；5. Jiangxi Zhongliang Blasting Engineering Co.，Ltd.，Pingxiang 337000，China；6. China Ruilin Engineering Technology Co.，Ltd.， Nanchang 330031，China

Online:2020-05-15 Published:2020-06-12

Abstract

Abstract: With the continuous improvement of the mechanization level of underground mining in mines， more and more large-scale metal mines are inclined to adopt intensive mining mode for small and medium-sized scattered ore bodies in the mining area. However， for complex polymetallic deposits with variable ore body shapes and occurrences， the optimal stope structure parameters recommended by the intensive mining mode generally suffer from singleness and exclusivity. Based on the synergetic mining theory， this article takes the section size (width and height) of cross-section size of backstopping access for intensive mining of a complex polymetallic mine as the key parameter for detailed optimization research. For different ore bodies ranging from thin to medium thick， dip angle from gentle to steep， complex and diverse occurrences， and complex and diverse symbiosis of useful elements， the order degree model of synergetic mining system was established to calculate and compare the economic， safety and under the mutual influence of multiple technical indicators， the order parameter component order degree， subsystem order order degree and synergy degree of the three benchmark synergetic mining schemes 1，2，and 3 under the mutual influence of technology. Based on the above analysis， the synergy is compared and evaluated to obtain the degree of synergy of the sequence parameter components in the subsystem under the influence of multiple indicators. The results show that the recommended joint mining section size of 3 m × 4 m and 4 m × 3 m recommended by scheme 2 with the optimal mining degree， which is consistent with the prior order of the selected mining section size scheme， which is verified to a certain extent. The adaptability of the composite system coordination model to the intensive mining of complex polymetallic mines is provided， which provides a new idea for the optimization of the structural parameters of similar mines.

Key words: Synergetic optimization, Polymetallic mine, Intensive mining, Cross-section size of access, Synergy degree

TIAN Xin, ZHONG Wen, LUO Jian-Lin, XIAO Chang-Bo, CHA Dao-Huan, 欧Yang-Jian , ZHU Wen-Tao. Study on Synergetic Optimization of Cross-section Size of Access in Intensive Mining of Complex Polymetallic Mine[J]. Metal Mine, 2020, 50(05): 82-88.

[1]	LI Jielin, YANG Chengye, ZHOU Keping, LI Zhihong. Coupling Synergy Degree Evaluation of Mining Technology for Trackless and Rail Combined Mining in Underground Mines [J]. Metal Mine, 2021, 50(03): 74-79.
[2]	CHEN Qingfa, HU Huarui, JIANG Tenglong. Study on Measure Evaluation of Synergy Degree of Synergy Mining Methods [J]. Metal Mine, 2020, 49(09): 15-25.
[3]	REN Wei-Dong, Fan-Yu-Qian- . Study on Optimization of Mining Sequence in Intensive Mining with Sublevel Open Stope and Subsequent Filling [J]. Metal Mine, 2020, 49(06): 167-171.
[4]	ZHAO Jia-Zheng, LI Ning, YE Hai-Wang, WANG Li-Guan, WANG Qi-Zhou, LEI Tao. Synergetic Optimization Study of Open Pit Truck Shovel Based on Extended Summation Algorithm of Closed Queuing Network [J]. Metal Mine, 2020, 50(05): 151-157.
[5]	SHI Gui-Ming, ZHOU Yi-Chao, LIU Qin, LI Tao, TANG Shi-Yu. Mineralogy Research of a Lead-zinc Polymetallic Ore in Dajianshan of Guangdong [J]. Metal Mine, 2018, 47(02): 98-102.
[6]	CUI Xiao-Rong, LIN Mou-Jin, ZHANG Wei-Min, ZHENG Bing-Xu. Comprehensive Survey and Analysis of Underground Goafs in Open-pit Polymetallic Mine Cui Xiaorong1，Lin Moujin1，Zhang Weimin2，Zheng Bingxu1 [J]. Metal Mine, 2015, 44(01): 128-132.
[7]	CHANG Xin, WANG Quan-Feng, LI Cheng, ZHANG Xiao-Pan, PENG Tao. Study of Geochemical Characteristics and Prospecting Significance of Polymetallic Mine in Danba [J]. Metal Mine, 2014, 43(08): 83-86.
[8]	ZHAO Lei, ZHANG Guang-Bin, LI Yan, WANG Zhong-Feng. Mineral Processing Tests of Lead-Silver-Antimony Polymetallic Ore [J]. Metal Mine, 2012, 41(11): 84-86.
[9]	HUANG Jian-Guo, YANG Rui-Dong, ZENG Lei, ZHU Cun-Jin, WEI Yu-Yan. Discovery of Siliceous Rock Construction and its Metallogenic Characteristics in the Vicinity of Qiaerlong, Xinjiang [J]. Metal Mine, 2012, 41(02): 99-101.
[10]	FANG Wei-Xuan. The Geochemical Explorations of Mine and Comprehensive Assessments for Main-intergrowth-associated Minerals of the Ore-body [J]. Metal Mine, 2011, 40(08): 105-111.
[11]	ZHENG Xing-Guo, CHEN Fang-Qiang, GE Liang-Quan, ZHOU Si-Chun, WANG Zi-Yun, WANG Yong-Lei. Research on Multi-element In-situ XRF Technique on Drilling Cores and its Application [J]. Metal Mine, 2011, 40(04): 104-107+165.
[12]	GAN Feng-Wei, FANG Wei-Xuan, HU Rui-Zhong. Research on Major Elements and Mineral Composition of Tailings on Tin-Polymetallic Mine in Gejiu Yunnan province [J]. Metal Mine, 2011, 40(02): 157-160.

扫码分享

Study on Synergetic Optimization of Cross-section Size of Access in Intensive Mining of Complex Polymetallic Mine

Knowledge

Abstract

Cite this article

share this article

References

Related Articles 12

Recommended Articles

Metrics

Comments