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} 个人信息

熊清蓉                        

                              籍贯湖北

政治面貌:中共党员

电子邮箱qingrong.xiong@sdu.edu.cn      

 

}研究方向

 

1 深部能源多尺度多场耦合理论与数值模拟
·盐穴储气库群储气机理与防护
·高放废物处置库核素迁移研究
·页岩气多组分多相运移机理研究
·二氧化碳地质储存
2 深埋地下洞室围岩应力场和渗流场耦合仿真模拟
·深埋地下洞室在开挖工况下破坏形式和破坏机理研究,以及仿真平台搭建 ·深埋地下洞室支护方案优化
·深埋地下洞室运行工况下及地震作用下,地下结构破坏机理研究及仿真模拟开发的仿真软件被广泛应用于水电站地下厂房如乌东德、小湾、如美、坪头水电站
3 多尺度核电材料高温失效破坏机理及热力耦合行为仿真模拟
·核电材料高温条件下结构完整性研究 ·核电材料高温失效破坏机理探究及仿真模拟

 

}工作经历


2021

教授博导,山东大学, 土建与水利学院

2020 2021

教授级高级工程师,法国EDF Energy,研发部门

2015 – 2020

博士后研究员,曼彻斯特大学

2014 – 2015

研究助理,英国钻石光源中心(Diamond Light Source

}教育经历

2012 – 2015

曼彻斯特大学机械、航空与土木工程学院,土木工程(博士)

英国,曼城

2010 – 2012

武汉大学水利水电学院,工学硕士,推荐免试

中国,武汉

2006 – 2010

武汉大学水利水电学院,工学学士

中国,武汉

}近五年主持或参加的国家自然科学基金项目/课题

(1) 多尺度应力-渗流-温度-化学多场耦合理论与计算方法,山东大学齐鲁青年,2021-12-012025-12-01120万元,主持

(2) 温度、化学和应力作用下高放废物处置库缓冲/回填材料渗透性演化机理研究,国家自然科学基金委员会,青年基金,2023-01-012025-12-3030万元,主持

(3) 高放废物处置缓冲材料多场耦合机理研究及数值模拟,山东省自然科学基金,青年基金,2023-01-012025-12-3015万元,主持

(4)     深部能源工程多场耦合理论和计算方法,中组部,海外高层次人才青年项目,2023-01-012025-12-30200万元,主持

(6)     深部能源岩土工程多尺度渗流机理及控制研究,国家自然科学基金委员会,联合基金项目,2023-01-012026-12-30251万元,第二负责人

 

}其他项目/课题

(1) 新型核电材料高温条件下结构完整性,2020-06 2021-09, 90万元,结题,主持

(2) Network on Neutron Techniques     Standardization for Structural Integrity Task Group 8, 2018-092020-06, 75万元, 结题, 主持

(3) 新核电制造,英国工程与自然科学研究委员会项目,2015-10-042018-10-014亿英镑,参加

(4) 核电材料微观结构模拟及其对材料属性性能影响,英国工程与自然科学研究委员会项目,2015-09-012018-09-011百万英镑,第二负责人

(5) QUBE:准脆性材料破坏-三维的实验验证数值模型,英国工程与自然科学研究委员会项目,2012-09-01 2015-09-0150万磅,项目参与人

(6) 多孔介质微观结构演化对材料属性和性能影响,曼彻斯特大学科研项目,2012-09-01 2015-09-0189970磅,主持

(7) 地下洞室围岩稳定与渗流场数值模拟,2010-2012,参与

 

} 论文清单

期刊论文

(1) Xiong Qingrong*, Wang X, Jivkov A P, A 3D multi-phase meso-scale model for modelling coupling of damage and transport properties in concrete. Cement & Concrete Composites. 2020 (IF=5.172, JCR Q1)

(2) Wang X, Xiong Qingrong, Zhou H, Chen J, Xiao M. Three-dimensional (3D) dynamic finite element modeling of the effects of a geological fault on the seismic response of underground caverns, Tunnelling and Underground Space Technology. Volume 96, February 2020. (IF=3.942, JCR Q1)

(3) Xu Ke, Mehmani Yashar, Shang L, Xiong Qingrong. Gravity-Induced Bubble Ripening in Porous Media and Its Impact on Capillary Trapping Stability, Geophysical Research Letters, 46, 13804– 13813.2019. (IF=4.578, JCR Q1)

(4) Yang, D., Zhou, Y., Xia, X., Gu, S., Xiong, Qingrong, Chen, W. Extended finite element modeling nonlinear hydro-mechanical process in saturated porous media containing crossing fractures. Computers and Geotechniques. Volume 111, 2019, Pages 209 -221. (IF=3.138, JCR Q1)

(5) Flint T, Sun Y, Xiong Qingrong, Francis J, Smith M, Phase-Field Simulation of Grain Boundary Evolution In Microstructures Containing Second-Phase Particles with Heterogeneous Thermal Properties, Scientific Report 9, 18426, 2019. (IF=4.011, JCR Q1)

(6) Yang D, Zhou Y, Xia X, Gu S, Xiong Qingrong, Chen W. Extended finite element modeling nonlinear hydro-mechanical process in saturated porous media containing crossing fractures. Computers and Geotechnics, Volume 111, 2019, Pages 209-221. (IF=3.345, JCR Q1)

(7) Baychev T, Jivkov A, Rabbani A, Raeini Ali, Xiong Qingrong, Lowe T, Withers J P. Reliability of algorithms interpreting topological and geometric properties of porous media for pore network modelling. Transport in Porous Media. Volume 128, 2019, Pages 271-301. (IF=2.211, JCR Q2)

(8) Xiong Qingrong, Yang D., Chen . W. Multi-scale modelling gas flow in nanoscale pore space with fractures. Journal of Rock Mechanics and Geotechnical Engineering. 2019 (IF=2.111)

(9) Xiong Qingrong, Smith M C, Muransky O, Mathew J. Validated prediction of weld residual stresses in austenitic steel pipe girth welds before and after thermal ageing, Part 2: modelling and validation. International Journal of Pressure Vessels and Piping. Volume 172, 2019, Pages 430-448. (IF=1.543, JCR Q2)

(10) Smith M C, Muransky O, Xiong Qingrong, Mathew J, Austin C. Validated prediction of weld residual stresses in austenitic steel pipe girth welds before and after thermal ageing, Part 1: mock-up manufacture, residual stress measurements, and materials characterisation. International Journal of Pressure Vessels and Piping. Volume 172, 2019, Pages 233-250. (IF=1.543, JCR Q2)

(11) Xiong Qingrong*, Robson J D, Smith M C, Chang Li, Fellowes J. Numerical simulation of grain boundary carbides evolution in 316H stainless steel. Journal of nuclear materials. Volume 508, 2018, Pages 299-309. (IF=2.447, JCR Q1)

(12) Smith C M, Muransky O, Austin C, Bendeich P, Xiong Qingrong. Optimized modelling of AISI 316L(N) material behaviour in the NeT TG4 international weld simulation and measurement benchmark. International Journal of Pressure Vessels and Piping, Volume 164, 2018, Pages 93-108. (IF=1.543, JCR Q2)

(13) Xiong Qingrong*, Jivkov A P. Anion diffusion in clay-rich sedimentary rocks – a pore network modelling. Applied Clay Science, Volume 161, September 2018, Pages 374–384 (IF=3.641, JCR Q1)

(14) Xiong Qingrong*, Todor G. Baychev, Jivkov A P Review of pore network modelling of porous media: experimental characterisations, network constructions and applications to reactive transport [J]. Journal of Contaminant Hydrology, Volume 192, September 2016, Pages 101–117. (IF=2.650, JCR Q2)

(15) Xiong Qingrong*, Jivkov A P, Syed M A. Modelling reactive diffusion in clays with two-phase-informed pore networks. Applied Clay Science ,2016,119,222-228. (IF=3.641, JCR Q1)

(16) Xiong Qingrong*, Jivkov A P. Analysis of pore structure effects on diffusive transport in Opalinus clay via pore network models. Mineralogical Magazine. 2015.1-9. (IF=1.553, JCR Q2)

(17) Xiong Qingrong*, Joseph C, Schmeide K, Jivkov A P. Measurement and modelling of reactive transport in geological barriers for nuclear waste containment. Physical Chemistry Chemical Physics, 2015, 17, 30577--30589. (IF=3.906, JCR Q1)

(18) Xiong Qingrong*, Jivkov A P, Yates J R. Discrete modelling of contaminant diffusion in porous media with sorption. Microporous and Mesoporous Materials, 2014,185: 51-60. (IF=3.649, JCR Q1)

(19) Jivkov, A.P. and Xiong, Qingrong. A network model for diffusion in media with partially resolvable pore space characteristics. Transport in porous media, 2014,105, 83-104. (IF=2.211, JCR Q2)

(20) Xiong Qingrong*, Jivkov A P. Effective properties of pore network elements derived from reactive transport in individual pores. Defect and Diffusion Forum. Volume 369, 2016, Pages 125-130. (IF=0.99)

(21)熊清蓉, 肖明, 胡田清. 砂化岩体在开挖干扰下弹塑性损伤数值模拟[J]. 四川大学学报 (自然科学版)2013, 1: 019.

(22) 胡田清, 肖明, 熊清蓉. 水电工程地下厂房数据库系统的开发及应用[J]. 岩石力学与工程学报, 2011, 1.

(23) 李玉婕, 肖明, 熊清蓉. 隧洞掘进机开挖的围岩-支护系统联合承载数值分析[J]. 武汉大学学报: 工学版, 2011, 44(3): 339-344.

专利:

1.基于不确定性算法的混凝土骨料孔隙模拟系统,2022SR0459638

2.一种反映矿物组成的多尺度孔隙网络模型构建及求解方法,202211078619.5

 

 

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