9999js金沙老品牌

师资队伍

教授

郭平业
发布时间:2023-11-28   作者:   来源:   点击数:

一、个人简介

郭平业,教授、博士生导师,主要从事岩土体多物理耦合理论及实践方面的研究,承担国家自然科学基金、北京市自然科学基金等多项基础研究和现场技术服务项目。在ROCK MECH ROCK ENGAPPL THERM ENGCOMPUT GEOTECHINT J MIN SCI TECHNO、岩石力学与工程学报、煤炭学报等行业主流学术期刊发表论文40余篇,出版专著1部、参编教材1部,授权发明专利10余件,获省部级科技奖励6项。兼任ISRM Commission on Soft Rock 和中国岩石力学与工程学会-软岩工程与深部灾害控制分会秘书长。

招生专业:土木工程(岩土、暖通)、力学。

欢迎力学、岩土、地质、采矿、隧道、建环等相关专业的同学报考硕/博士研究生,课题组将提供优质的科研条件和悉心指导,已指导多位研究生获校级/北京市优秀毕业生。

电子邮件:guopingye@foxmail.comguopingye@cumtb.edu.cn

二、教育背景(含访问学者经历等)

1. 2016.02-2017.02:美国劳伦斯伯克利国家实验室,访问学者

2. 2007.03-2010.03:9999js金沙老品牌(北京),岩土工程,博士

3. 2004.09-2007.03:华北水利水电大学,地质工程,硕士

4. 1998.09-2002.06:华北水利水电大学,水文地质与工程地质,本科

三、研究领域

1. 岩土体多场耦合理论

2. 地下工程灾害防控

3. 矿山地热及余热利用

四、代表性科研/教学成果

1. 项目

² 国家自然科学基金月球与深空探测专项项目(42241145):极端温度变化对月岩风化过程影响机制探索研究(项目负责人)

² 深部国重创新基金重点项目(SKLGDUEK202221):废弃矿井反季节循环储能关键技术研究(项目负责人)

² 北京市自然科学基金委面上项目(8212033):穿层裂隙流场结构特征及对污染物运移影响机理研究(项目负责人)

² 重点领域交叉创新项目(2021JCCXLJ05):废弃矿井反季节循环储能关键科学问题探索研究(项目负责人)

² 国家自然科学基金川藏铁路重大专项项目(41941018):川藏铁路深埋超长隧道工程灾变机制及防控方法(课题负责人)

² 国家重点实验室设备研发项目:温度-压力耦合过程模拟实验系统

² 国家自然科学基金青年项目(41402273):温度-压力-湿度耦合作用下膨胀性泥质页岩导热特性实验研究(项目负责人)

² 教育部博士点基金:基于格子Boltzmann法的煤层多孔介质传热规律研究(项目负责人)

² 国家自然科学基金重点项目(41702381):深井热害防治与矿井热能利用(课题负责人)

2.论著(*通讯作者,#指导学生)

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 Zhang#, 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 郭平业, 卜墨华#, 张鹏#, 李清波#,何满潮*.高地温隧道灾变机制与灾害防控研究进展.岩石力学与工程学报,2023,42(07):1561-1581.

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 郭平业, 卜墨华#, 张鹏#, 何满潮*.矿山地热防控与利用研究进展.工程科学学报,2022,44(10):1632-1651.

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 郭平业, 王蒙#, 孙晓明, 何满潮*. 废弃矿井地下空间反季节循环储能研究.煤炭学报,2022,47(06):2193-2206.

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 郭平业*, 王蒙#, 刘世童, 高恺#.粗糙裂隙局部流场可视化实验教学探索.实验室研究与探索,2021,40(05):170-173+201.

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 郭平业*, 卜墨华#, 李清波#, 何满潮. 岩石有效热导率精准测量及表征模型研究进展.岩石力学与工程学报, 2020, 39(10): 1983-2013.

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 何满潮, 郭平业, 深部岩石热力学及热控技术,科学出版社,2017(专著)

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 何满潮*, 郭平业. 徐州矿区深部开采热害治理现场试验研究.煤炭工程,2015,47(04):1-4.

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 何满潮*, 郭平业. 深部岩体热力学效应及温控对策.岩石力学与工程学报, 2013, 32(12): 2377-2393.

² 郭平业*, 秦飞. 张双楼煤矿深井热害控制及其资源化利用技术应用. 煤炭学报, 2013, 38(S2): 393-398.

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 郭平业*, 朱艳艳. 深井降温冷负荷反分析计算方法.采矿与安全工程学报, 2011, 28(03): 483-487.

² 何满潮*, 郭平业, 陈学谦等. 三河尖矿深井高温体特征及其热害控制方法.岩石力学与工程学报,2010,29(S1):2593-2597.

3. 专利

² 高地温隧道热害防控及其施工方法,中国发明专利, ZL 2023 1 0205558.2,何满潮, 郭平业, 金鑫, 卜墨华,2023

² 多源耦合的废弃矿井反季节循环储能系统,中国发明专利, ZL 2022 1 0237418.9,郭平业, 王蒙, 何满潮,发明专利,2022

² 岩体导热率测试设备及测试系统, 中国发明专利, ZL202210159746.1, 郭平业, 卜墨华, 王蒙, 何满潮, 2022

² 裂隙岩体渗流传热装置及系统, 中国发明专利, ZL202210139882.4, 郭平业, 卜墨华, 王蒙, 何满潮, 2022

² 裂隙岩体渗流换热可视化教学系统, 中国发明专利, ZL202210256227.7, 郭平业, 王蒙, 何满潮, 2022

² 一种煤矿洗浴系统, 中国发明专利, ZL201910738902.8, 郭平业, 何满潮, 2021

² 一种矿井工作面降温系统, 中国发明专利, ZL201910735238.1, 郭平业, 何满潮, 2021

² 一种矿井工作面降温系统, 中国发明专利, ZL201910735261.0, 何满潮, 郭平业, 2021

² 一种矿井工作面降温系统, 中国发明专利, ZL201910735274.8, 何满潮, 郭平业, 2021

² 多能源互补的矿区供热系统, 中国发明专利, ZL201810571987.0, 郭平业, 王妍炜, 祝遵强, 2021

² 一种用于矿井的除尘降温智能设备, 中国发明专利, ZL201810373353.4, 郭平业, 王妍炜, 杜宏勇, 孙卓, 2020

² 一种矿井回风余热回收系统, 中国发明专利, ZL201810374016.7, 郭平业, 祝遵强, 王妍炜, 李康文, 2020

² 一种岩体热导率测试装置及测试系统, 中国发明专利, ZL201410559847.3, 郭平业, 何满潮, 朱国龙, 2016

² 一种深层矿井降温系统, 中国发明专利, ZL201410559375.1, 郭平业, 何满潮, 朱国龙, 2016

² 一种矿井涌水冷热量利用系统, 中国发明专利, ZL201410559858.1, 何满潮, 郭平业, 杨晓杰, 2016



上一条:宫伟力

下一条:杨永明