---

Learning and working resume：  

B.S.in Mining Engineering, China University of Mining and Technology, 2007.9-2011.6

Ph.D.in Mining Engineering, China University of Mining and Technology, 2011.9-2016.6

Teacher, lecturer, Postdoctoral in School of Civil and Resource Engineering, University of Science and Technology Beijing, 2016.7-2018.12

Teacher, lecturer in School of Civil and Resource Engineering, University of Science and Technology Beijing,2019.1-present.

Research areas：

1.Coal and rock dynamic disaster, Monitoring and warning theory and technology

2.Big data analysis, remote monitoring

3.Mining geophysics

Undergraduate course：

1. Mine Safety Engineering

Social part - time job：

1.Member of China Coal Society

2.Member of Chinese Society of Rock Mechanics and Engineering

Representative papers and writings：

[1] Li Zhen-lei, He Xue-qiu, Dou Lin-ming, Song Da-zhao, Wang Gui-feng, Xu Xing-liang. Investigating the mechanism and prevention of coal mine dynamic disasters by using dynamic cyclic loading tests[J]. Safety Science, 2019,115: 215-228.

[2] He Shengquan, Song Dazhao, Li Zhenlei, He Xueqiu, Chen Jianqiang, Li Donghui, Tian Xianghui. Precursor of Spatio-temporal Evolution Law of MS and AE Activities for Rock Burst Warning in Steeply Inclined and Extremely Thick Coal Seams Under Caving Mining Conditions[J]. Rock Mechanics and Rock Engineering, 2019.

[3] Li Zhen Lei, He Xue Qiu, Dou Lin Ming, Song Da Zhao. Comparison of rockburst occurrence during the extraction of thick coal seams using top-coal caving versus slicing mining methods[J]. Canadian Geotechnical Journal, 2018,55(10): 1433-1450.

[4] Li Zhen Lei, He Xue Qiu, Dou Lin Ming, Wang Gui Feng. Rockburst occurrences and microseismicity in a longwall panel experiencing frequent rockbursts[J]. Geosciences Journal, 2018,22(4): 623-639.

[5] Li Zhen-lei, He Xue-qiu, Dou Lin-ming, Song Da-zhao, Wang Gui-feng. Numerical investigation of load shedding and rockburst reduction effects of top-coal caving mining in thick coal seams[J]. International Journal of Rock Mechanics and Mining Sciences, 2018,110: 266-278.

[6] Li Zhen-lei, He Xue Qiu, Dou Lin Ming. Control measures and practice for rock burst induced by overburden fracture in top-coal caving mining[J]. Journal of China University of Mining and Technology, 2018,47(1): 162-171.

[7] Dou Lin Ming, Li Zhen Lei, He Xue Qiu.  Principle of rockburst control by weakening static and dynamic loading using top-coal caving in the  in the mining of thick coal seams[J]. Journal of China University of Mining and Technology, 2018,47(2): 221-230.

[8] He Xue Qiu, Song Da Zhao, Liu Xian Feng, Wang Wei Xiang, Li Zhen Lei, Liu Hui Fang. Micro-electrical characteristics of coals with different metamorphic grade[J]. International journal of coal science & technology, 2018,43(9): 2367-2375.

[1] He Xue Qiu, Wang An Hu, Dou Lin Ming, Song Da Zhao, Zu Zi Yin, Li Zhen Lei.  Dynamic monitoring technology for micro-seismic areas in dangerous coal seams[J]. International journal of coal science & technology , 2018,43(11): 3122-3129.

[2] Li Zhen Lei, Dou Lin Ming, Cai Wu, Wang Gui Feng, Ding Yan Lu, Kong Yong. Roadway stagger layout for effective control of gob-side rock bursts in the longwall mining of a thick coal seam[J]. Rock Mechanics and Rock Engineering, 2016,49(2): 621-629.

[3] Li Zhen-lei, Dou Lin-ming, Cai Wu, Wang Gui-feng, Ding Yan-lu, Kong Yong. Mechanical analysis of static stress within fault-pillars based on a voussoir beam structure[J]. Rock Mechanics and Rock Engineering, 2016,49(3): 1097-1105.

[4] Li Zhen Lei, Dou Lin Ming, Wang Gui Feng, Cai Wu, He Jiang, Ding Yan Lu. Risk evaluation of rock burst through theory of static and dynamic stresses superposition[J]. Journal of Central South University, 2015,22(2): 676-683.

[5] Li Zhen Lei, Dou Lin Ming, Cai Wu, Wang Gui Feng, He Jiang, Gong Si Yuan, Ding Yan Lu. Investigation and analysis of the rock burst mechanism induced within fault-pillars[J]. International Journal of Rock Mechanics and Mining Sciences, 2014,70: 192-200.

[6] Li Zhen Lei, Dou linming, Wang Gui Feng, Cai Wu, He Jiang, Ding Yan Lu. Impact Characteristics and Mechanism Analysis of Working Face of Hard Roof and Isolated Coal Pillar[J].  Journal of Mining and Safety Engineering , 2014,31(4): 519-524.

[7] Li Zhen Lei, Dou linming, Cai Wu, He Jiang, Wang Gui Feng , Liu Jun, Han Rong Jun. Study on the impact mechanism of coal pillar type impact in deep thick coal seam [J]. Journal of Rock Mechanics and Engineering , 2013,32(2): 333-342.

Patents Awards Identification：

Patents：

[1] Li Zhenlei, He Xueqiu, Song Dazhao, He Shengquan, Li Donghui. An electromagnetic radiation and geophone monitoring and early warning method for coal mine dynamic hazard. 2019100139587

[2] Chen Jianqiang, He Xueqiu, Wang Jian, Li Zhenlei, Liu Xudong, He Shengquan, Li Kang, Li Donghui, Zhao Zhipeng, Cao Minyuan, Liu Yonghong. Microseismic monitoring and early warning method, device and system for rockburst danger. 2018113573531

[3] Song Dazhao, He Xueqiu, Wang Weixiang, Tian Xianghui, Li Zhenlei. An in-situ test method and device for micro-nano-scale force and electric properties of coal rock. 2018107651181

[4] Li Zhenlei, He Shengquan, Tian Xianghui, He Xueqiu, Song Daxuan. A method for controlling impact rock pressure by coupling decompression of blasthole and large diameter borehole. 2018104899791

[5] Li Zhenlei, He Shengquan, Tian Xianghui, He Xueqiu, Song Daxuan. A double-open standard coal specimen making mold. 2018104106639

[6] Li Zhenlei, He Shengquan, Tian Xianghui, He Xueqiu, Song Daxuan. A method for preventing and controlling the impact ground pressure of near vertical seam by deep and shallow hole pressure relief blasting. 2018103681065

[7] He Xueqiu, Song Dazhao, Li Zhenlei, Qi Quan, Wei Mengyu. A method for mobile electromagnetic radiation location detection and early warning of mine dynamic disasters. 2017114369621

[8] Song Dazhao, He Xueqiu, Li Zhenlei, Wei Mengyu, Qi Quan, Wang Anhu. A method for locating the main fracture of coal rock by precursory electromagnetic radiation of coal-rock dynamic disaster. 2017110522868

[9] Li Zhenlei, He Xueqiu, Song Dazhao, Wang Anhu. A method for judging the homologous electromagnetic signal of coal rock fracture. 2017109745600

[10] Li Zhenlei, He Xueqiu, Song Dazhao, Qi Quan, Wang Weixiang. A method for locating downhole coal rock fracture source based on combined monitoring of electromagnetic radiation and microseismic. 2017109743450

[11] Li Zhenlei, Dou Linming, He Jiang, et al. Sensor fixed test frame for coal uniaxial compression acoustic emission test and its use method. 2013103193961

Awards：

[12] Li Zhenlei (10/15), New technology and application of hydraulic outburst in coal mine outburst dangerous coal seam area, Zhongguancun Green Mine Industry Alliance, Science and Technology Progress, First Prize, 2018, certificate number LKJ-2017-03-1-10.

[13] Li Zhenlei (15/15), Research on time and space monitoring and early warning technology of coal mine impact mine pressure microseismic, Henan Coal Mine Safety Supervision Bureau, Safety Production Technology Progress Award, First Prize, 2014, certificate number MAKJ-2014-14-15.

[14] Li Zhenlei (11/13), Research on grading monitoring and early warning and anti-risk technology for impact mine pressure, China Coal Industry Association, Science and Technology Progress Award, Second Prize, 2012, certificate number 2012-241-R11.

[15] China University of Mining and Technology Excellent Doctoral Dissertation, 2016

[16] Journal of Rock Mechanics and Engineering 2016 Excellent Paper Nomination Award, 2016

[17] PhD Candidate National Scholarship, 2016

[18] School Outstanding Innovation Ph.D. Scholarship, 2014, 2015

[19] Undergraduate National Scholarship, 2008, 2009, 2010

Research projects：

[1] National key R&D plan key special task, 2018YFF0213106-1, research on automobile product risk early warning rules based on quality and safety information, 2018/07-2020/12, 150,000 yuan, under research, host

[2] Fundamental scientific research operation fee of the central college, 2017CXNL01, experimental study on micro-fracture evolution mechanism of coal dynamic damage 2017/09-2019/08, 50,000 yuan, under research, host

[3] China Postdoctoral Science Foundation Project, 2017M610048, Experimental study on the mechanism of coal shock damage and progressive failure micro-fracture evolution, 2017/07-2018/12, 80,000 yuan, completed, hosted

[4] The basic research business fee of the central colleges and universities, FRF-TP-16-072A1, the experimental study on the influence mechanism of micro-structure on the mechanical properties and damage of coal, 2017/01-2018/12, 100,000 yuan, has been completed, Host

[5] State Key Laboratory of Coal Resources and Safe Mining Open Fund Project, SKLCRSM16KF05, Correlation Test Study on Coal Impact Damage and Microstructure, 2017/01-2018/12, 30,000 yuan, completed, hosted

[6] National Natural Science Foundation of China, 51634001, principle and method of piezoelectric-seismic coupling monitoring and early warning, 2017/01-2021/12, 3.1 million yuan, under research, participation

[7] Key special project of national key R&D plan, 2016YFC0801408, integration and demonstration of typical power disaster monitoring and early warning technology for coal mines, 2016/07-2019/06, 2.9 million yuan, under research, participation

[8] National Natural Science Foundation of China, Science Fund Project, 51504248, Experimental study on dynamic characteristics of surrounding rock of roadway-energy-absorbing combined support roadway, 2016/01-2018/12, 250,000 yuan, completed, participated

[9] National Natural Science Foundation of China, Science Fund Project, 51404243, Experimental study on dynamic characteristics of coal under the action of coal mine dynamic and static load, 2015/01-2017/12, 250,000 yuan, completed, participated

[10] National Natural Science Foundation of China, 51174285, Research on the damage mechanism of mining dynamics on the anchorage structure of coal roadway, 2012/01-2014/12, 450,000 yuan, completed, participated

[11] National Key Basic Research Development Program (973), 2010CB226805, Precursor Information Characteristics and Monitoring and Early Warning Theory of Deep Coal and Rock Dynamic Disasters, 2010/01-2014/12, 4.26 million yuan, completed, participated