Professor Zhiqiang Wang is a Ph.D. advisor and vice dean at School of Energy and Mining Engineering at China University of Mining and Technology-Beijing (CUMTB). He is an academician of the Russian Academy of Natural Sciences (РАЕН). He used to work as an assistant chief engineer (temporary assigned job) for Shanxi Huozhou Coal and Electricity Jinbei Fenyuan Coal Industry Co., Ltd., and later a vice dean of the mining department of Xinjiang Institute of Engineering (aid for Xinjiang). He has been a visiting scholar of Russia National University of Science and Technology“MISiS”, and member in international academic committee of the Nobel Communication Center in Russia (NCCR). He is an academic member of the Beijing Crustal Stress-Strain Field Scientific Observation Station of the Ministry of Natural Resources (MNR), executive director of the Soft Rock Engineering and Deep Disaster Control Branch Council of the Chinese Society for Rock Mechanics&Engineering (CSRME), member of the Mining Rock Mechanics Branch Council of the CSRME, member of the Quality Management Branch Council of the China National Coal Association (CNCA). He is an editorial board member of theJournal of Coal Engineering (JCE), and youth editorial board member of theJournal of Coal Science and Technology (JCST).
His areas of expertise include green mining system on dislocation layers, non pillar final mining, residual coal remining, etc. His new concept of "continuous mining" following underground sequential time and space , and method of "mine complex geological dynamic system", have been awarded applied mathematics achievement certified by the Chinese Society of Industry and Applied Mathematics (CSIAM) (only 4 people awarded nationwide).
Professor Wang has been awarded the "Eighth Batch of Outstanding Cadre Talents of Central and State Organs and Central Enterprises in Xinjiang" and "One Time Merit Recording" by the CPC Xinjiang Committee/People's Government. He has also won an "Outstanding Contribution Award" for the 60th anniversary of the founding ofJCE (10 people awarded nationwide), and "Outstanding Reviewer" and "Outstanding Contribution Expert" ofJCST. He has been in charge of over 30 projects including three programs of National Natural Science Foundation of China (NSFC), one program of State Key Laboratory for Green and Safe Coal Development in Western China, and more than 30 programs for coal mining enterprises. His research achievements include one first place of the Ministry of Education for Science and Technology Progress Prize, one first place of Coal in China for Science and Technology Progress Prize, and many other provincial and ministerial level awards. He has won 24 authorized invention patents, published 6 monographs, and published over 100 academic papers.
Articles:
[1] 王志强, 武超, 罗健侨, 等. 特厚煤层巨厚顶板分层综采工作面区段煤柱失稳机理及控制[J]. 煤炭学报, 2021, 46(12): 3756-3770.
WANG, Zhiqiang; WU, Chao; LUO, Jianqiao; et al. Instability mechanism and control of section coal pillar in fully mechanized mining face with super thick roof and extra thick seam[J]. Journal of China Coal Society, 2021, 46(12): 3756-3770.
[2] 王志强, 王鹏, 石磊, 等. 基于沿空巷道围岩应力分析的防冲机理研究[J]. 中国矿业大学学报, 2020, 49(06): 1046-1056.
WANG, Zhiqiang; WANG, Peng; SHI, Lei; et al. Research on prevention of rock burst based on stress analysis of surrounding rock of gob-side entry[J]. Journal of China University of Mining&Technology, 2020, 49(6): 1046-1056.
[3] 王志强, 郭磊, 苏泽华, 等. 倾斜中厚煤层错层位外错式巷道布置及相邻巷道联合支护技术[J]. 煤炭学报, 2020, 45(02): 542-555.
WANG, Zhiqiang; GUO, Lei; SU, Zehua; et al. Layout and combined support technology of alternate exterior stagger arrangement roadway and adjacent roadways in inclined and medium-thick coal seam[J]. Journal of China Coal Society, 2020, 45(2): 542-555.
[4] 王志强, 武超, 石磊, 等. 基于复变理论的双向不等压圆形巷道围岩应力及塑性区分析[J]. 煤炭学报, 2019, 44(S2): 419-429.
WANG, Zhiqiang; WU, Chao; SHI, Lei; et al. Analysis of surrounding rock stress and plastic zone of two-way unequal pressure circular roadway based on complex variable theory[J]. Journal of China Coal Society, 2019, 44(S2): 419-429.
[5] Wang,Zhiqiang; Li,Jingkai;Lin,Lu; et al. Mesoscopic study on instability characteristics of residual coal pillars-roof system based upon domino effect in pillar goaf[J]. Geomechanics and Geophysics for Geo-Energy and Geo-Resources, 2023, 9(1): 109.
[6] Wang, Zhiqiang; Li,Jingkai;Qin,Zhongcheng; et al. Height identification of water-permeable fractured zone based on synchronous movement in overlying strata[J]. Scientific Reports, 2022, 12(1): 1-15.
[7] Ван Цжизян, Цяо Цзаньюн,Су Циехуа. Природоохранный эффект технологии разработки мощных угольных пластов со ступенчатым расположением штреков[J]. Горный информационно аналитический бюллетень, 2021 (2-1): 30-39.
[8] 王志强, 黄鑫, 武超, 等. 基于复变函数理论的巷道围岩稳定性分析[J]. 煤炭科学技术, 2022, 50(04): 58-66.
WANG,Zhiqiang; WU, Chao; SHI, Lei; et al. Analysis of surrounding rock stress and plastic zone of two-way unequal pressure circular roadway based on complex variable theory[J]. Journal of China Coal Society, 2019, 44(S2): 419-429
[9] 王志强, 石磊, 武超,等. 极近距煤层(群)共采类型划分及夹层稳定性分析[J]. 采矿与安全工程学报, 2021, 38(03): 458-468+478.
WANG, Zhiqiang; SHI, Lei; WU, Chao; et al.Classification of co-mining types and stability analysis of interlayer in extremely close coal seams[J]. Journal of Mining&Safety Engineering, 2021, 38(03): 458-468+478.
[10] 王志强, 王鹏, 吕文玉,等. 沿空巷道非对称底鼓机理及防控研究[J]. 采矿与安全工程学报, 2021, 38(02): 215-226.
WANG, Zhiqiang; WANG, Peng; LYU, Wenyu; et al. Mechanism and control of asymmetric floor heave in gob-side entry[J]. Journal of Mining&Safety Engineering, 2021, 38(02): 215-226.
[11] 王志强, 苏越, 苏泽华,等. 外错式区段间相邻巷道锚杆联合支护作用机理研究[J]. 采矿与安全工程学报, 2021,38(01):58-67.
WANG, Zhiqiang; SU, Yue; SU, Zehua; et al. Mechanism of combined support by bolts for adjacent roadways in the external-staggered split-level panel layout[J]. Journal of Mining&Safety Engineering, 2021,38(01):58-67.
Patents:
[1] 王志强, 乔建永, 张焦, 王鹏.一种减小末采煤柱的预充填方法[P].:CN113482711B,2022-04-12.
[2] 王志强, 乔建永, 王鹏, 张焦.一种随支架撤出进行充填加固实现减小保护煤柱的方法[P].北京市:CN113513345B, 2022-04-12.
[3] 王志强, 乔建永, 苏泽华.厚煤层放顶煤采空区残留煤体的往复式二次快速回采方法[P].北京市:CN110714762B, 2022-03-15.
[4] 王志强, 王鹏, 苏泽华.一种特厚煤层沿空留巷的巷道布置方法[P].北京市:CN110242322B, 2020-08-28.
[5] 王志强.实现厚煤层沿空掘巷相邻巷道联合支护的方法[P].北京市:CN106014413B,2018-04-06.
[6] 乔建永, 王志强, 范新民, 王树帅, 苏泽华, 王炳文.实现工作面末采无专用通道、煤柱与快速回撤设备的方法[P].北京市:CN111779514B,2022-05-17.
Monographs:
[1] 王志强, 张俊文,田柯.厚煤层错层位巷道布置全厚开采技术研究及应用[M].北京:煤炭工业出版社, 2018
[2] 王志强,姚善泳,王朋飞.孤岛煤柱对下伏人巷围岩稳定性的影响与支护技术研究[M].北京:煤炭工业出版社, 2018
[3] 王志强,张玉波,张俊文.错层位巷道布置矿山压力与与围岩控制[M].北京:煤炭工业出版社, 2015
[4] 王鹏,王志强,苏越,刘会景.特厚煤层窄煤柱沿空巷道变形机理与错层位布控研究[M].北京:应急管理出版社, 2024
[5] 乔建永,王志强.地下连续开采技术及科学问题[M].北京:科学出版社, 2023
Contact:Zhiqiang WANG, Professor
School of Energy and Mining Engineering
China University of Mining and Technology (Beijing)
Ding 11 Xueyuan Road, Beijing 100083, P. R. China
Email:wzhiqianglhm@126.com