Name |
Zongqing ZHOU |
Gender |
Male |
Position |
Associate Professor |
Address |
No.17923 Jingshi Road, Jinan City, Shandong Province, China 250061 |
Tel |
+86-531-88399080 |
E-mail |
Zongqing.Zhou@sdu.edu.cn |
Education
Joint PhD Student, 11/2014-04/2016, Geotechnical Engineering, Monash University.
PhD, 09/2010-06/2016, Geotechnical Engineering, Shandong University.
BSc, 09/2006-06/2010, Civil Engineering, Shandong University.
Working Experience
09/2018-12/2019, Associate Professor, Shandong University, China/Ji’nan.
06/2016-09/2018, Lecturer, Shandong University, China/Ji’nan.
Research Interests
Mechanism, Process Simulation, Prediction and Mutual Feed-Back Control Method of Water Inrush Disasters in Tunnels and Underground Engineering.
Research interest lies in the computational granular mechanics with the application in Geotechnical Engineering. Multiphase modelling methods such as Peridynamics (PD), Discrete Element Method (DEM) and Computational Fluid Dynamics (CFD) have been developed to simulate the groundwater inflows and granular flow.
Selected Projects
1. Disaster prevention engineering, The Fourth Youth Talents Promotion Project of China Association for Science and Technology, 2018.01--2020.12.
2. Multi scale fluid-solid coupling simulation method of geotechnical engineering geological disaster, Future plan for young scholars of Shandong University, 2019.08-2024.07.
3. Mechanical Mechanism and Evolutionary Overall Process Simulation of Water Inrush from Filling-type Geological Structures in Deep and Long Tunnels, National Natural Science Foundation of China, 2017.07-2019.06, Principal investigator.
4. Multiphase Modelling of Granular Flow in Seepage Failure Using a DEM-CFD Coupling Framework, National Natural Science Foundation of China, 2019.04-2021.03.
5. Fluid-Solid Coupling Analysis Method of Rock and Soil and its Application in Simulation of Water Inrush, Shandong Provincial Key Research and Development Project, 2019.01-2021.12.
6. Formation Mechanism and Evolutionary Process Simulation Analysis Method of Water Inrush Channel in Deep and Long Tunnels, Postdoctoral Science Foundation of China, 2017.07-2019.06.
7. Mechanical Mechanism and Simulation Analysis Method of Water Inrush from Jointed Rock Masses in Tunnels under Dynamic Disturbance, Postdoctoral Science Foundation of China, 2017.07-2019.06.
8. Mechanical Mechanism and Evolutionary Process Simulation of Water Inrush from Fault Fracture Zone in Tunnels, Special Foundation of Postdoctoral Innovation Project of Shandong Province, 2017.07-2019.06.
9. Meso-scale evolutionary mechanism and simulation method of seepage failure of filling structures in tunnels, State Key Laboratory for GeoMechanics and Deep Underground Engineering, China University of Mining & Technology, 2017.01-2018.12.
10. Coupling Seepage-Erosion-Stress Mechanism of Water Inrush from Filling Structures in Diversion Tunnels, State Key Laboratory of Hydrology-Water Resources and Hydraulic Engineering, Hohai University, 2017.01-2018.12.
11. Mechanism and Process Simulation Analysis of Water Inrush from Fractured Rock Mass under High Stress, Strong Unloading and Dynamic Disturbance, State Key Laboratory of Mining Disaster Prevention and Control Co-founded by Shandong Province and the Ministry of Science and Technology, Shandong University of Science and Technology, 2018.01-2019.12.
12. Hydraulic Fracturing of Rock mass and Simulation Analysis of Water Inrush under High Stress, Changjiang River Scientific Research Institute of Changjiang Water Resources Commission, 2018.01-2019.12.
Professional Affiliations
1. Editorial Board Member, Journal:《Earth Sciences》.
2. Member, International Society for Rock Mechanics and Rock Engineering.
3. Member, Chinese Society for Rock Mechanics and Engineering.
4. Council Member, Underground Engineering Branch of Chinese Society for Rock Mechanics and Engineering.
5. Council Member, Young Working Committee of Chinese Society for Rock Mechanics and Engineering.
6. Council Member, Professional Committee for Mathematical and Physical Simulation of Rock Mass of Chinese Society for Rock Mechanics and Engineering.
Honors and Awards
1. The Second Prize of S&TPA of Hubei Province 2019.
2. The First Prize of TIA(Technological Invention Award) of Chinese Society for Rock Mechanics and Engineering 2019.
3. The First Prize of S&TPA(Science and Technology Progress Award) of China Highway & Transportation Society 2019.
4. The Second Prize of S&TPA of Chinese Society for Rock Mechanics and Engineering 2017.
5. The Second Prize of S&TPA of Qingdao City 2017.
6. The Second Prize of S&TPA of China Highway and Transportation Society 2014.
7. The Second Prize of S&TPA of Hubei Province 2013.
8. The First Prize of S&TPA of Ministry of Education of China 2013.
Selected Publications
1. Z.Q. Zhou*, J. Kong, W.M. Yang*, et al. Improved attribute interval recognition theory and its application in risk assessment of water inrush in tunnels. Journal of Central South University (Science and Technology). 2020. (in Chinese).
2. Z.Q. Zhou*, P.G. Ranjith, W.M. Yang*, et al. A new set of scaling relationships for DEM-CFD simulations of fluid–solid coupling problems in saturated and cohesiveless granular soils. Computational Particle Mechanics, 2019, 6: 657-669.
3. Z.Q. Zhou*, P.G. Ranjith, S.C. Li. An experimental testing apparatus for study of suffusion of granular soils in geological structures. Tunnelling and Underground Space Technology. 2018, 78: 222-230.
4. Z.Q. Zhou*, P.G. Ranjith, S.C. Li. Criteria for internal stability of granular soil. Proceeding of the Institution Civil Engineers-Geotechnical Engineering. 2017, 170(1): 73-83.
5. Z.Q. Zhou*, S.C. Li, L.P. Li, et al. Classification method of rock mass quality and its engineering application. Journal of Central South University (Science and Technology). 2017, 48(4): 1049-1056. (in Chinese).
6. Z.Q. Zhou*, P.G. Ranjith, S.C. Li. Optimal model for particle size distribution of granular soil. Proceeding of the Institution Civil Engineers-Geotechnical Engineering. 2016, 169(1): 73-82.
7. Z.Q. Zhou*, S.C. Li, L.P. Li, et al. An optimal classification method for risk assessment of water inrush in karst tunnels based on grey system theory. Geomechanics and Engineering. 2015, 8(5): 631-647.
8. Z.Q. Zhou, S.C. Li, L.P. Li, et al. Analysis of Spatial Effects of Construction Behavior on Pilot Tunnel Excavation. Chinese Journal of Rock Mechanics and Engineering. 2014, 33(s1):2611-2619. (in Chinese).
9. Z.Q. Zhou, S.C. Li, L.P. Li, et al. Causes of geological hazards and risk control of collapse in shallow tunnels. Rock and Soil Mechanics, 2013, 34(5): 1375-1382. (in Chinese).
10. Z.Q. Zhou, S.C. Li, L.P. Li, et al. Attribute recognition model of surrounding rock optimized classification and its engineering application. Journal of Central South University (Science and Technology), 2013, 44(4): 1611–1619. (in Chinese).
11. Z.Q. Zhou, S.C. Li, L.P. Li, et al. Attribute Recognition Model of Fatalness Assessment of Water Inrush in Karst Tunnels and its Application. Rock and Soil Mechanics. 2013, 34(3): 818-826. (in Chinese).
12. C.L. Gao, Z.Q. Zhou*, W.M. Yang*, et al. Model test and numerical simulation research of water leakage in operating tunnels passing through intersecting faults. Tunnelling and Underground Space Technology, 2019, 94: 103134.
13. L.P. Li, Z.Q. Zhou*, S.C. Li, et al. An attribute synthetic evaluation system for risk assessment of floor water inrush in coal mines. Mine Water and the Environment. 2015, 34(3): 288-294.
14. W.M. Yang, M.X. Wang, Z.Q. Zhou*, et al. A true triaxial geomechanical model test apparatus for studying the precursory information of water inrush from impermeable rock mass failure. Tunnelling and Underground Space Technology, 2019, 93: 103078.
15. C.J. Lin, M. Zhang, Z.Q. Zhou*, et al. A new quantitative method for risk assessment of water inrush in karst tunnels based on variable weight function and improved cloud model. Tunnelling and Underground Space Technology, 2020, 95: 103136.
16. C. Liu, S.C. Li, Z.Q. Zhou*, et al. Model test study on surrounding rock spatial deformation law of super-large section and shallow buried tunnels. Geotechnical Testing Journal. 2018. https://doi.org/10.1520/GTJ20170243.
17. C. Liu, S.C. Li, Z.Q. Zhou*, et al. Model test study on mechanical characteristics of surrounding rock during construction process of super-large section tunnel under complex strata. Rock and Soil Mechanics. 2018, 39(9). (in Chinese).
18. S.C. Li, Z.Q. Zhou, L.P. Li, et al. A new quantitative method for risk assessment of geological disasters in underground engineering: Attribute Interval Evaluation Theory (AIET). Tunnelling and Underground Space Technology. 2016, 53: 128-139.
19. S.C. Li, Z.Q. Zhou, Z.H. Ye, et al. Comprehensive geophysical prospection and treatment measures of karst caves in deep buried tunnel. Journal of Applied Geophysics. 2015, 116: 247-257.
20. S.C. Li, Z.Q. Zhou, L.P. Li et al. Risk assessment of water inrush in karst tunnels based on attribute synthetic evaluation system. Tunnelling and Underground Space Technology. 2013, 38: 50-58.
21. S.C. Li, Z.Q. Zhou, L.P. Li, et al. Risk Evaluation Theory and Method of Water Inrush Karst Tunnels and Applications. Chinese Journal of Rock Mechanics and Engineering. 2013, 32(9):1858-1867 (in Chinese).
22. S.C. Li, C.L. Gao, Z.Q. Zhou, et al. Analysis on the precursor information of water inrush in karst tunnels: a true triaxial model test study. Rock Mechanics and Rock Engineering, 2018. DOI: 10.1007/s00603-018-1582-2.
Books
1. W. Lu, X.L. Zhang, Z.Q. Zhou, B.Z. Zhang, W. Jia. Mechanism and Treatment Method of Water Inrush in Karst Tunnels and its Engineering Application. China Communications Press Co., Ltd. ISBN 978-7-114-14639-8. (2019).
