Email:yiqingzhao@126.com
Resume of Study and Work:
1992-2002: University of Science & Technology Beijing, Bachelor Degree of Resource Engineering
2008-present: Successive Postgraduate and Doctoral program in Mining Engineering, stayed for teaching after graduation
Mainly engaged in the research and teaching of sustainable development of mining engineering and social responsibility; resource, environment and safety economy; system modeling, simulation and visualization; safety production and quality safety management; rocks mechanics
Teaching Fluid Mechanics in Engineering and other undergraduate courses.
First prize in Second National College Mining Engineering Young Teachers Teaching Competition(2018)
Third prize in Tenth University of Science & Technology Beijing Teaching Competition(2017)
Research Projects:
National Natural Science Foundation of China(NSFC): Hidden Danger Recognition and Research of Dynamic Evolution of Risks of Tailings Pond; Risk of Mine Water Inrush; Dynamic Visual Simulation Technology and Prototype of the System of Process and Emergency Response
The 13th Five-year National Key Research & Development Plan: Health Diagnosis and Risk Assessment Technology for High Tailings Reservoir during Its Life-cycle Service.
The 12th Five-year Science and Technology Support Project: Study on Performance Evaluation System of Product Quality and Safety Risk Monitoring System.
The 11th Five-year Science and Technology Support Project: Research on the Relevance between Social Responsibility and Socio-economic Development in China—Research on Corporate Social Responsibility Ability, Contrastive Analysis and Countermeasure Research on Important Technical Standards of Mine Safety.
Demonstration Project of Mineral Resources Guarantee Degree of Ministry of Land and Resources: Study on the Guarantee Degree of Chromium for National Economic Construction in 2020, 2025 and 2030.
Pre-exploration Project of Beijing Natural Science Foundation: Dynamics of Corporate Social Responsibility and Strategies for ISO26000;
National Energy Group “Protection and Utilization of Water Resources in Coal Mining” National Key Laboratory Open Fund: Web-End Groundwater Reservoir Capacity Computing Platform Based on CAD-GIS Technology; Safety Distance Calculation and Stability Analysis of Coal Mine Groundwater Reservoir.
Fundamental Research Funds for the Central Universities: Dynamic Characterization and Application of Tailings Reservoir Risk Evolution Based on Complex Network; Safety Case Method, Expansion and Application for Risk Management of Mine Tailings Reservoir.
Academic Monograph:
Undergraduate: 《Special Mining Technology》、《Metal Mineral Resources and Development Technology》
Graduate: 《Solution Mining》
Research Projects:
(1)Yiqing Zhao, Zhongxue Li, Xuan Tan, Liangyong Tang, Characterization Theory and Model of Hidden Danger and Risk of Tailings Reservoir, Metallurgical Industry Press, 2016
(2)Yiqing Zhao, Zhongxue Li, Binghui Zu, Cuiping Li, Dynamic Theory and Evaluation Technology of Corporate Social Responsibility, China Coal Industry Publishing House, 2015
(3)Yiqing Zhao, Zhongxue Li, Bo Wang, New Mechanism of Mine Closed Pit Operation, Metallurgical Industry Press, 2015
Representative Papers:
(1)Yiqing Zhao, Xiaoyun Hu, Zhongxue Li, Nan Qin, Qiming Gao, SEM of Performance Evaluation for Product Quality Risk Monitoring, Journal of Applied Statistics and Management, 2016,35(5):856 ~ 867
(2)Yiqing Zhao,Binghui Zu,Zhongxue Li,Cuiping Li,Corporate social responsibility assessment: amulti-dimensional and dynamic perspective,Mining Technology,2014,123(4):230 ~ 239
(3)Yiqing Zhao, Zhongxue Li, Yaodong Zhou, Zhiguo Cao, Xin Li, Integrated modeling and visual simulation of water inrush in an underground mine, Journal of University of Science and Technology Beijing, 2014,36(11):1436 ~ 1442
(4)Yiqing Zhao, Xuan Tan, Zhongxue Li, Liangyong Tang, Dynamic Modeling and Simulation of Hazard and Risk Evolution for Mine Tailing Ponds, Journal of University of Science and Technology Beijing, 2014,36(9):1158 ~ 1165
(5)Yiqing Zhao, Liangyong Tang, Zhongxue Li, Jiexuan Qin, Luyao Lin, Process-cause grid method based hazards identification for tailings facility, Journal of Safety Science and Technology, 2013,9(4):91 ~ 98
(6)Yiqing Zhao, Liangyong Tang, Zhongxue Li, Cuiping Li, Comparison and Analysis of Metal and Nonmetal Mine Safety and Health Standards Between China and the United States, Metal Mine, 2011,(9):141 ~ 144
(7)Xuan Tan, Zhongxue Li, Yiqing Zhao*, A Complex Network Model for Analyzing Risks and Major Hazards of Tailing Impoundments, System Engineering-Theory & Practice, 2017,37(6):1648 ~ 1653
(8)Cong Zhang,Yixin Wei,Zhongxue Li,Yiqing Zhao*,Hazard-Based Design of the Bow-Tie Method to Prevent and Mitigate Mine Accidents,Journal of Failure Analysis & Prevention,2017(1):1 ~ 12
(9)Zhongxue Li,Antonio Nieto,Yiqing Zhao*,Zhiguo Cao,Haiyun Zhao,Assessment tools, prevailing issues and policyimplications of mining community sustainability in China,International Journal of Mining, Reclamation and Environment,2012,26(2):148 ~ 162
(10)Zhongxue Li, Zhiguo Cao, Yiqing Zhao*, Tailing Ponds Safety Guarantee System and System Engineering Theory and Practice based on Safety Case and PDCA, 2010,30(5):936 ~ 944
(Note: * Represents the Correspondent Author)
Others
As Secretary-General of the Secretariat of the Eighth International Conference on Sustainable Development in the Minerals Industry (SDIMI 2017).
1. Yin Shenghua, Wang Leiming, Wu Aixiang, et al. Copper recycle from sulfide tailings using combined leaching of ammonia solution and alkaline bacteria[J]. Journal of Cleaner Production, 2018, 189: 746-753.
2. Yin Shenghua, Wang Leiming, Wu Aixiang, et al. Enhancement of copper recovery by acid leaching of high-mud copper oxides: A case study at Yangla Copper Mine, China[J]. Journal of Cleaner Production, 2018, 202: 321-331.
3. Yin Shenghua, Shao Yajian, Wu Aixiang, et al. Expansion and strength properties of cemented backfill using sulphidic mill tailings[J]. Construction and Building Materials, 2018, 165: 138-148.
4. Yin Shenghua, Wang Leiming, Kabwe E, et al. Copper Bioleaching in China: Review and Prospect[J]. Minerals, 2018, 8(2): 32.
5. Yin Shenghua, Shao Yajian, Wu Aixiang, et al. Texture features analysis on micro-structure of paste backfill based on image analysis technology[J]. Journal of Central South University, 2018, 25(10): 2360-2372.
6. Yin Shenghua, Wang Leiming, Chen Xun, et al. Effect of ore size and heap porosity on capillary process inside leaching heap[J]. Transactions of Nonferrous Metals Society of China, 2016, 26(3):835-841.
7. Yin Shenghua, Chen Xun, Ma Chi, et al. A coupled model for solution flow and bioleaching reaction based on the evolution of heap pore structure[J]. Mathematical Problems in Engineering, 2014, 342537.
8. Yin Shenghua, Wu Aixiang, Hu Kaijian, et al. Visualization of flow behavior during bioleaching of waste rock dumps under saturated and unsaturated conditions [J]. Hydrometallurgy, 2013, 133:1-6.
9. Yin Shenghua, Wu Aixiang, Hu Kaijian, et al. The effect of solid components on the rheological and mechanical properties of cemented paste backfill[J]. Minerals Engineering, 2012, 35: 61-66.
10. Yin Shenghua, Wu Aixiang, Wang Shaoyong, et al. Effects of bioleaching on the mechanical and chemical properties of waste rocks[J]. International Journal of Minerals Metallurgy & Materials, 2012, 19(19):1-8.