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The State Key Laboratory of Deep Geomechanics and Underground Engineering

Pingye Guo
发布时间:2024-09-19   作者:   来源:   点击数:

1. Introduction

Pingye Guo, Professor, State Key Laboratory for Tunnel Engineering.

His research focus on the theory and practice of multi-field coupling of rock mass. He serves Secretary of ISRM Commission on Soft Rock and the Chinese Sub-Society for Rock & Deep Disaster Control.

E-mail address: guopingye@foxmail.com, guopingye@cumtb.edu.cn

2. Education Background and Experience

1 Visiting scholar, Lawrence Berkeley National, Laboratory, USA, 2016.02-2017.02

2 Ph.D., China University of Mining and Technology (Beijing), China, 2010

3 M.Eng., North China University of Water Resources and Electric Power, China, 2007

4 B.Eng., North China University of Water Resources and Electric Power, China, 2002

3. Research Area

1. Multi-field coupling theory of rock mass

2. Disaster prevention and control of underground engineering

3. Utilization of mine geothermal and waste heat

4. Academic Achievement

² Mohua Bu#, Pingye Guo*, Xin Jin#, Meng Wang#, Peng Zhang, Jiamin Wang, Temperature-dependent acoustic emission characteristics and statistical constitutive model of granite under uniaxial compression. Journal of Rock Mechanics and Geotechnical Engineering, 2024.

² Mohua Bu#, Peng Zhang#, Pingye Guo*, Jiamin Wang, Zhaolong Luan, Xin Jin, Deterioration of equivalent thermal conductivity of granite subjected to heating-cooling treatment. Journal of Rock Mechanics and Geotechnical Engineering, 2024.

² Meng Wang#, Pingye Guo*, Mohua Bu#, Cheng Fang#, Yanwei Wang, Experimental investigation on nonlinear flow and solute transport behavior in interlayer expansion fractures. Environmental Earth Sciences, 2024, 83: 291.

² Pingye Guo*, Mohua Bu#, Peng Zhang#, Jiamin Wang, Zhaolong Luan, Manchao He. Mechanical Properties and Crack Propagation Behavior of Granite After High Temperature Treatment Based on a Thermo-Mechanical Grain-Based Model. Rock Mechanics and Rock Engineering, 2023, 56(9): 6411-6435.

² Pingye Guo*, Peng Zhang#, Mohua Bu#, Jiamin Wang, Xu Zheng#, Manchao He. Microcracking behavior and damage mechanism of granite subjected to high temperature based on CT-GBM numerical simulation. Computers and Geotechnics, 2023, 159: 105385.

² Pingye Guo*, Peng Zheng#, Mohua Bu#, Hang Xing, Manchao He. Impact of cooling rate on mechanical properties and failure mechanism of sandstone under thermalmechanical coupling effect. International Journal of Coal Science and Technology. 2023, 10(1): 26.

² Pingye Guo*, Zhibo Ma#, Lei Zhang. An Innovative Method of Gob-Side Entry Retaining to Control the Non-collapse Behaviors of Hard Roofs: Case Study. Mining, Metallurgy and Exploration, 2023.

² Pingye Guo*, Meng Wang#, Guanjie Dang, Tianci Zhu, Jie Wang, Manchao He. Evaluation method of underground water storage space and thermal reservoir model in abandoned mine. Rock Mechanics Bulletin, 2023, 2(2): 100044.

² Pingye Guo*, Mohua Bu#, Peng Zheng#, Qingbo Li#, Manchao He, Review on catastrophe mechanism and disaster countermeasure of high geotemperature tunnels, Chinese Journal of Rock Mechanics and Engineering, 2023,42(07):1561-1581. (in Chinese)

² Mohua Bu#, Pingye Guo*, Meng Wang#, Manchao He, Yanwei Wang. Effect on the thermal conductivity inhomogeneity of clay-bearing sandstone subjected to dryingwetting process. Environmental Earth Sciences, 2023, 82(13): 328.

² Pingye Guo*, Mohua Bu#, Peng Zheng#, Manchao He, Research progress on the prevention and utilization of mine geothermal energy. Chinese Journal of Engineering. 2022, 44(10): 1632-1651. (in Chinese)

² Pingye Guo*, Kai Gao#, Meng Wang#, Yanwei Wang, Manchao He. Numerical investigation on the influence of contact characteristics on nonlinear flow in 3D fracture. Computers and Geotechnics, 2022, 149:104863.

² Pingye Guo*, Meng Wang#, Xiaoming Sun, Manchao He. Study on off-season cyclic energy storage in underground space of abandoned mine. Journal of China coal society. 2022,47(06):2193-2206. (in Chinese)

² Pingye Guo*, Juan Gu#, Yi Su#, Jiong Wang, Zhanwen Ding. Effect of cyclic wettingdrying on tensile mechanical behavior and microstructure of clay-bearing sandstone. International Journal of Coal Science and Technology, 2021:1-13.

² Pingye Guo*, Meng Wang#, Shitong Liu, Kai Gao#. Teaching methodology study on visualization experiment of local flow field in rough fracture. 2021, 40(05): 170-173+201. (in Chinese)

² Pingye Guo*, Meng Wang#, Kai Gao#, Manchao He, Yanwei Wang. Influence of fracture surface roughness on local flow pattern: visualization using a microfluidic field experiment. Hydrogeology Journal, 2020(4):1-13.

² Pingye Guo*, Meng Wang#, Manchao He, Yanwei Wang, Kai Gao#, Weili Gong. Experimental investigation on macroscopic behavior and microfluidic field of nonlinear flow in rough-walled artificial fracture models. Advances in Water Resources,2020,142.

² Pingye Guo*, Mohua Bu#, Manchao He, Yanwei Wang. Experimental investigation on thermal conductivity of clay-bearing sandstone subjected to different treatment processes: Drying, wetting and drying II. Geothermics,2020,88.

² Pingye Guo*, Mohua Bu#, Qingbo Li#, Manchao He. Research progress of accurate measurement and characterization model of effective thermal conductivity of rock. Chinese Journal of Rock Mechanics and Engineering. 2020, 39(10): 1983-2013. (in Chinese)

² Pingye Guo*, Liange Zheng*, Xiaoming Sun*, Manchao He, Yanwei Wang, Jingshi Shang, Sustainability evaluation model of geothermal resources in abandoned coal mine, Applied Thermal Engineering2018,144,804-811

² Pingye Guo*, Na Zhang, Manchao He, Baohong Bai#, Effect of water saturation and temperature in the range of 193 to 373 K on the thermal conductivity of sandstone, Tectonophysics, 2017,699:121-128

² Pingye Guo*, Manchao He, Liange Zheng, Na Zhang, A geothermal recycling system for cooling and heating in deep mines, Applied Thermal Engineering, 2017,116,833-839

² Manchao He, Pingye Guo. Thermodynamics and thermal control technology of deep rocks, China Science Publishing Company, 2017. (in Chinese)

² Pingye Guo*, Yanwei Wang, Mengmeng Duan#, Research and application of methods for effectiveness evaluation of mine cooling system, International Journal of Mining Science and Technology, 2015.07

² Manchao He, Pingye Guo. Field experimental study on heat disaster control in xuzhou mining area, Coal Engineering, 2015, 47(04): 1-4. (in chinese)

² Pingye Guo*, Guolong Zhu#, Yuqing Liu, Field experiment on coalmine heat disaster governance using cold source from surface water,International Journal of Mining Science and Technology, 2014, 246, 865-869

² Pingye Guo*, Guolong Zhu#, Manchao He, HEMS technique for heat-harm control and geo-thermal utilization in deep mines, International Journal of Coal Science and Technology, 2014, 13, 289-296

² Pingye Guo*, Chen Chen, Field experimental study on the cooling effect of mine cooling system acquiring cold source from return air Field experimental study on the cooling effect of mine cooling system acquiring cold source from return air, International Journal of Mining Science and Technology, 2013,233, 453-456

² Manchao He, Pingye Guo. Deep rock mass thermodynamic effect and temperature control measures. Chinese Journal of Rock Mechanics and Engineering, 2013, 32(12): 2377-2393. (in Chinese)

² Pingye Guo*, Fei Qin. Preventive measures against heat hazard and its utilization in zhangshuanglou coal mine, Journal of China Coal Society, 2013, 38(S2): 393-398. (in Chinese)

² Pingye Guo*, Manchao He, Qin Yang, Chen Chen, Wellhead antifrost technology using deep mine geothermal energy, Mining Science and Technology, 2011,214, 519-524

² Pingye Guo*, Yanyan Zhu, Back-analysis algorithm of cooling load in deep mines, Journal of Mining & Safety Engineering, 2011, 28(03): 483-487. (in Chinese)

² Manchao He*, Pingye Guo, Xueqian Chen, Li Meng, Yanyan Zhu, Research on characteristics of high-temperature and control of heat-harm of sanhejian coal mine, Chinese Journal of Rock Mechanics and Engineering, 2010, 29(S1): 2593-2597. (in Chinese)


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