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周佳庆

职称:副教授

邮箱:jqzhou@whu.edu.cn

ResearchGate: https://www.researchgate.net/profile/Jia_Qing_Zhou

Google Scholar: https://scholar.google.com/citations?user=t2lokDkAAAAJ&hl=en

研究领域及招生方向:

研究方向:渗流灾变机理与防控

研究兴趣:岩土介质多场多相多尺度渗流与传输特性、地质体渗流灾变机制与前兆判识、复杂运行工况下库坝渗流灾变防控、气候变化下高寒高海拔地质灾害响应规律

招生专业:水工结构工程

教育背景:

2009.09-2013.06 武汉大学 水利水电工程专业 本科

2013.09-2018.06 武汉大学 水工结构工程专业 博士

2016.09-2017.09 美国德州大学奥斯汀分校 地球科学 联合培养博士

工作经历:

2018.09-2022.03 中国地质大学(武汉) 副教授

2022.04-2024.05 中国地质大学(武汉) 特任教授

2021.02-2023.07 香港大学 博士后

2024.06-至今 武汉大学 副教授

开设课程:

《工程地质》《海洋工程概论》(本科生)

《水利工程渗流分析与控制》《水工岩石力学》(研究生)

代表性科研项目:

[1]国家自然科学基金面上项目:温升环境下川藏线冰碛土滑坡渗流灾变机理与启滑力学模型研究,No. 42277177,2023.1-2026.12,主持

[2]国家自然科学基金青年基金:非达西流态下岩石裂隙非费克传输机理与分布式MIM模型研究,No. 51909247,2020.1-2022.12,主持

[3]中国科协第五届“青年人才托举工程”项目:裂隙岩体非线性渗流特性与工程应用,No. YSXH 2019-QT001,2019.01-2021.12,主持

[4]全国博士后博管会“香江学者计划”项目:地下水-地表水相互作用,No. XJ2020039,2021.02-2023.07,主持

[5]香港研究资助局合作研究项目Collaborative Research Fund (CRF):The Poshan drainage tunnel system as an intensively instrumented hillslope critical zone observatory to explore groundwater dynamics and its engineering and ecological implications,No. C7082-22GF,2023.06-2024.05,Co-PI

[6]国家自然科学基金重大项目:重大滑坡预测预报基础研究,No. 42090050,2021.01-2025.12,子课题负责人

奖励与荣誉:

湖北省科技进步一等奖(2022年,排名第7)

教育部科技进步一等奖(2016年,排名第13)

中国科学技术协会青托人才(2020年,第五届)

全国博士后管理委员会-香港学者协会“香江学者奖”(2020年)

全国首届高等学校水利类专业优秀博士学位论文(2019年)

代表性学术成果:

(1) 第一或通讯作者论文

[1]Zhou Jia-Qing, Chen Yi-Feng*, Wang Lichun, Cardenas Bayani. Universal relationship between viscous and inertial permeability of geologic media. Geophysical Research Letters, 2019, 46(3): 1441-1448. (Nature Index)

[2]Zhou Jia-Qing, Chen Yi-Feng*, Tang Huiming*, Wang Lichun, Cardenas Bayani. Disentangling the simultaneous effects of inertial losses and fracture dilation on permeability of pressurized fractured rocks. Geophysical Research Letters, 2019, 46(15): 8862-8871. (Nature Index)

[3]Zhou Jia-Qing, Guo Li-Guo, Jiao Jiu Jimmy*, Jiang Xin-Yu, Luo Xin. Can Geometric Parameters Enable Direct Prediction of Non-Fickian Transport in Rock Fractures Across Diverse Flow Regimes? Journal of Geophysical Research: Solid Earth, 2024, 129: e2023JB027695. (Nature Index)

[4]Zhou Jia-Qing, Guo Li-Guo, Jiao Jiu Jimmy*, Luo Xin. Geometry‐based prediction of solute transport process in single 3D rock fractures under laminar flow regime. Journal of Geophysical Research: Solid Earth, 2023, 128(3): e2022JB025542. (Nature Index)

[5]Zhou Jia-Qing, Zhu Wen-Yu, Li Qi-Long, Wang Rui, Li Changdong*, Gu Dongming, Wang Jiao. Characterization of thermal-hydraulic coupling behavior for moraine soil with ice inclusions in a warming environment. Water Resources Research, 2023, 59(12): e2022WR033852.

[6]Zhou Jia-Qing, Wang Lichun*, Chen Yi-Feng*, Cardenas Bayani. Mass transfer between recirculation and main flow zones: Is physically-based parameterization possible? Water Resources Research, 2019, 55(1): 345-362.

[7]Zhou Jia-Qing, Li Changdong*, Wang Lichun, Tang Huiming, Zhang Min. Effect of slippery boundary on solute transport in rough-walled rock fractures under different flow regimes. Journal of Hydrology, 2021, 598: 126456.

[8]Zhou Jia-Qing*, Liu Hong-Bin, Li Changdong, He Xiang-Lan, Tang Huiming. A semi-empirical model for water inflow into a tunnel in fractured-rock aquifers considering non-Darcian flow. Journal of Hydrology, 2021, 597: 126149.

[9]Zhou Jia-Qing, Wang Lichun*, Li Changdong*, Tang Huiming. Effect of fluid slippage on eddy growth and non-Darcian flow in rock fractures. Journal of Hydrology, 2020, 581: 124440.

[10]Zhou Jia-Qing*, Gan Fu-Shuo, Li Changdong, Tang Huiming. A Global Inertial Permeability for Fluid Flow in Rock Fractures: Criterion and Significance. Engineering Geology, 2023, 322: 107167.

[11]Zhou Jia-Qing, Wang Min, Wang Lichun, Chen Yi-Feng*, Zhou Chuang-Bing. Emergence of nonlinear laminar flow in fractures during shear. Rock Mechanics and Rock Engineering, 2018, 51: 3635-3643.

[12]Zhou Jia-Qing, Hu Shao-Hua, Chen Yi-Feng*, Wang Min, Zhou Chuang-Bing. The friction factor in the Forchheimer equation for rock fractures. Rock Mechanics and Rock Engineering, 2016, 49(8): 3055-3068.

[13]Zhou Jia-Qing, Hu Shao-Hua, Chen Yi-Feng*, Fang Shu, Zhou Chuang-Bing. Nonlinear flow behavior at low Reynolds numbers through rough-walled fractures subjected to normal compressive loading. International Journal of Rock Mechanics and Mining Sciences, 2015, 80: 202-218.

[14]Liu Hong-Bin, Zhou Jia-Qing*, Li Changdong, Tan Jie, Hou Di. Semi-empirical models for predicting stable water inflow and influence radius of a tunnel considering non-Darcian effect. Journal of Hydrology, 2023, 621: 129574.

[15]Li Changdong, Zhu Yinbin, Zhou Jia-Qing*, Xiang Linyu, Jiang Xihui, Zhu Wenyu. Pore-scale insight into the effect of porous walls on fluid flow in rough-walled fractures. Journal of Hydrology, 2024, 628: 130534.

[16]Jiang Xihui, Li Changdong*, Zhou Jia-Qing*, Zhang Zihan, Yao Wenmin, Chen Wenqiang, Liu Hong-Bin. Salt-induced structure damage and permeability enhancement of Three Gorges Reservoir sandstone under wetting-drying cycles. International Journal of Rock Mechanics and Mining Sciences, 2022, 153, 105100.

[17]李奇龙, 周佳庆*, 李长冬, 刘洪斌, 王雪萦, 吕豪. 气候变化环境下青藏高原冰碛土斜坡水热力耦合特性与长期稳定性. 地质科技通报, 2024.

(2) 合作论文

[1]Tan Jie, Li Changdong*, Zhou Jia-Qing, Tang Huiming. Quantifying flow regime impacts on hydrodynamic heat transfer in rough-walled rock fractures. Journal of Hydrology, 2024, 636, 131313.

[2]Yu Haibing, Tang Huiming, Zhou Jia-Qing, Li Changdong*, Zhang Huawei, Zhu Wen-Yu. An Analytical Model for Assessing Dynamic Stability of Bedding Rock Slope with Soil Interlayer Under Different Rain Patterns. Rock Mechanics and Rock Engineering, 2024, 57, 807-826.

[3]Sun Zihao, Wang Liangqing*, Zhou Jia-Qing, Wang Changshuo, Yao Xunwan, Gan Fushuo, Dong Manman, Tian Jianlin. Prediction of the inertial permeability of a 2D single rough fracture based on geometric information. Acta Geotechnica, 19(4), 2105-2124.

[4]Tan Jie, Rong Guan*, Li Changdong*, Zhou Jia-Qing, Tang Huiming. Thermal Effect Promotes Non-Darcian Flow in Heated Rock Fractures. Rock Mechanics and Rock Engineering, 2023, 56, 7599-7617.

[5]Tan Jie, Li Changdong*, Zhou Jia-Qing, Tang Huiming. On non-Darcian flow behavior in a rough-walled fracture filled with a porous medium. Journal of Hydrology, 2023, 616, 128778.

[6]Wang Yan, Li Changdong*, Cai Zhilan, Zhu Guoqiang, Zhou Jia-Qing, Yao Wenmin. Mechanical Behaviors of Anchorage Interfaces in Layered Rocks with Fractures under Axial Loads. Journal of Earth Science, 2023, 34, 354-368.

[7]Tan Jie, Rong Guan, Li Changdong*, Zhou Jia-Qing, Tang Huiming. Response to Discussion on “Thermal Effect Promotes Non-Darcian Flow in Heated Rock Fractures”. Rock Mechanics and Rock Engineering, 2023. https://doi.org/10.1007/s00603-023-03666-9

[8]Meng Jie, Li Changdong*, Zhou Jia-Qing, Zhang Zihan, Yan Shengyi, Zhang Yahui, Huang Dewei, Wang Guihua. Multiscale evolution mechanism of sandstone under wet-dry cycles of deionized water: From molecular scale to macroscopic scale. Journal of Rock Mechanics and Geotechnical Engineering, 2022, 15(5), 1171-1185.

[9]Yu Haibing, Li Changdong*, Zhou Jia-Qing, Chen Wenqiang, Zhu Yinbin. A semi-analytical model for transient infiltration into inclined soil interlayer considering varying water head and stratified water content. Journal of Hydrology, 2022, 614, 128627.

[10]Li Changdong*, Wang Rui, Gu Dongming, Wang Jiao, Chen Xiaoqing, Zhou Jia-Qing, Liu Zhenxing. Temperature and ice form effects on mechanical behaviors of ice-rich moraine soil of Tianmo valley nearby the Sichuan-Tibet Railway. Engineering Geology, 2022, 305, 106713.

[11]Wang Lichun*, Cardenas Bayani, Wang Tiejun, Zhou Jia-Qing, Zheng Lizhi, Chen Yi-Feng, Chen Xi. The effect of permeability on Darcy-to-Forchheimer flow transition. Journal of Hydrology, 2022, 127836.

[12]Yu Haibing, Li Changdong*, Zhou Jia-Qing, Gu Xiaoping, Duan Ying, Liao Liufeng, Chen Wenqiang, Long Jingjing. A large-scale obliquely inclined bedding rockslide triggered by heavy rainstorm on the 8th of July 2020 in Shiban Village, Guizhou, China. Landslides, 2022, 1-12.

[13]Zheng Lizhi, Wang Lichun*, Wang Tiejun, Singh Kuldeep, Zhou Jia-Qing, Shuai, Pin, Wang Zhong-Liang, Chen Xi. Characterizing shear-thinning fluids transitioning from rheology- to inertia-dominated flow regimes in porous media. Journal of Hydrology, 2021, 601: 126498.

[14]Wang Lichun*, Cardenas Bayani, Zhou Jia-Qing, Ketcham Richard. The Complexity of Nonlinear Flow and non‐Fickian Transport in Fractures Driven by Three‐Dimensional Recirculation Zones. Journal of Geophysical Research: Solid Earth, 2020, 125(9): e2020JB020028. (Nature Index)

[15]Yu Haibing, Li Changdong*, Zhou Jia-Qing, Chen Wenqiang, Long Jingjing, Wang Xutao, Peng Tao. Recent rainfall- and excavation-induced bedding rockslide occurring on 22 October 2018 along the Jian-En expressway, Hubei, China. Landslides, 2020, 17: 2619–2629.

[16]Yao Wenmin, Li Changdong*, Zhan Hongbin, Zhou Jia-Qing, Criss Robert. Estimation of geological strength index through a Bayesian sequential updating approach integrating multi-source information. Tunnelling and Underground Space Technology, 2020, 102: 103426.

[17]Chen Yi-Feng*, Liao Zhen, Zhou Jia-Qing, Hu Ran, Yang Zhibing, Zhao Xian-Jin, Wu Xing-Liang, Yang Xu-Lie. Non-Darcian flow effect on discharge into a tunnel in karst aquifers. International Journal of Rock Mechanics and Mining Sciences, 2020, 130: 104319.

[18]Sun Zihao, Wang Liangqing*, Zhou Jia-Qing, Wang Changshuo. A new method for determining the hydraulic aperture of rough rock fractures using the support vector regression. Engineering Geology, 2020, 271: 105618.

[19]Yao Wenmin, Li Changdong*, Zhan Hongbin, Zhou Jia-Qing, Criss Robert, Xiong Shuang, Jiang Xihui. Multiscale study of physical and mechanical properties of sandstone in Three Gorges Reservoir region subjected to cyclic wetting–drying of Yangtze river water. Rock Mechanics and Rock Engineering, 2020, 53: 2215-2231. (ESI高被引论文)

[20]Wang Min, Chen Yi-Feng*, Ma Guo-Wei, Zhou Jia-Qing, Zhou Chuang-Bing. Influence of surface roughness on nonlinear flow behaviors in 3D self-affine rough fractures: Lattice Boltzmann simulations. Advances in Water Resources, 2016, 96: 373-388. (ESI高被引论文)

[21]Chen Yi-Feng*, Zhou Jia-Qing, Hu Shao-Hua, Hu Ran, Zhou Chuang-Bing. Evaluation of Forchheimer equation coefficients for non-Darcy flow in deformable rough-walled fractures. Journal of Hydrology, 2015, 529: 993-1006. (ESI高被引论文)

[22]朱寅斌, 李长冬*, 周佳庆, 项林语, 姜茜慧, 朱文宇. 考虑基质渗透性的粗糙单裂隙非达西流动特性研究. 岩土力学, 2024, 45(2): 601-11.

[23]朱寅斌, 李长冬*, 周佳庆, 项林语, 余海兵,陈文强. 粗糙岩石单裂隙非达西流动的试验和数值模拟研究. 岩土工程学报, 2023, 45(6), 1278-1284.

[24]李文亮, 周佳庆, 贺香兰, 陈益峰*, 周创兵. 不同围压下破碎花岗岩非线性渗流特性试验研究. 岩土力学, 2017, 38(s1): 140-150.

[25]赵亚永, 魏凯, 周佳庆, 李星, 陈益峰*. 三类岩石热损伤力学特性的试验研究与细观力学分析. 岩石力学与工程学报, 2017, 36(1): 142-151.

(3) 发明专利

[1]温度-降雨-库水联合下冻土滑坡模型试验系统及方法. 周佳庆, 吕豪, 李长冬, 刘洪斌, 李奇龙. ZL202310111089.8, 国家发明专利(授权公告日:2024.5.14)

[2]一种岩土体温度-渗流-沉降可视化观测试验系统和方法. 周佳庆, 王雪萦, 李长冬, 顾东明, 刘洪斌, 陈恒卓, 张佳俊, 余海兵. ZL 202211568879.0, 国家发明专利(授权公告日:2024.4.26)

[3]一种渗流作用下岩体锚杆拉拔耦合试验装置及试验方法. 周佳庆, 张佳俊, 李长冬, 王亮清, 唐辉明, 张永权. ZL202110071614.9, 国家发明专利(授权公告日:2021.12.14)

[4]一种可定量调整岩石粗糙裂隙开度的装置及其使用方法. 朱寅斌, 李长冬, 周佳庆, 张永权. ZL201911396537.3, 国家发明专利(授权公告日:2021.3.30)

[5]基于岩石节理透明复制品的溶质迁移过程光学测量装置. 陈益峰, 方舒, 胡少华, 周佳庆, 胡冉. ZL201710112833.0, 国家发明专利(授权公告日:2023.10.31)

学术兼职与交流:

中国大坝工程学会库坝渗流专业委员会委员

中国岩石力学与工程学会深地空间探测与开发分会理事

中国岩石力学与工程学会红层工程分会理事

《地质科技通报》期刊青年编委

第十四届国际工程地质与环境大会XIV IAEG Congress 2023分会场Theme12-Session2“Multiphysics Coupling in Fractured Rocks and Its Engineering Application”召集人,四川成都,2023.09

第四届巴东国际地质灾害学术论坛BIGS 2023分会场“Evolutionary Mechanisms and Early Identification of Geohazards in Reservoirs”召集人,湖北巴东,2023.08

第八届青年地学论坛组织委员会委员、“地质灾害与工程地质”主题联系人、分会场Theme3-Session13“裂隙岩体渗流与灾变”召集人,湖北武汉,2023.05

第三届巴东国际地质灾害学术论坛BIGS 2021分会场“Engineering Geological Characteristics of Geological Body and Catastrophic Mechanism”召集人,湖北武汉,2021.11

第七届青年地学论坛地质灾害与工程地质主题学术委员会委员,贵州贵阳,2021.07

地址:武汉市武昌区东湖南路8号电话:027-68772215学院邮箱:sdxy@whu.edu.cn

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