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秦朝中
作者: 佚名 发布时间: 2021年05月17日 09:17 浏览次数:

秦朝中

职称职务

研究员、博导


 

 

 

联系电话

13996265157

Email

chaozhong.qin@cqu.edu.cn

联系地址

重庆市沙坪坝区沙正街174

重庆大学A区资源与安全学院121

研究内容主要包括:数字岩心分析,多尺度渗流力学和基于微纳米芯片的多孔介质反应流动与传输,相关应用背景涉及非常规油气开发、燃料电池、二氧化碳地质封存和地下储能。目前与乌特列支大学,埃因霍温理工大学,苏黎世联邦理工学院,亚利桑那大学等海外研究机构保持紧密交流与合作,欢迎计算力学,渗流力学,油气工程等相关背景的研究生、博士和博士后加入我们。

个人简历

教育经历:

2009-032012-10, 荷兰乌特列支大学/通用汽车欧洲研究院, 地球科学, 博士

2005-092008-07, 中国科学技术大学, 流体力学, 硕士

2001-092005-06, 西安交通大学, 工程力学, 学士

工作与研究经历:

2019-82019-9,同济大学,土木工程系,访问学者

2017-12019-11,荷兰埃因霍温理工大学,达西研究中心,执行主管

2016-112019-9,荷兰埃因霍温理工大学,机械工程系,研究员

2016-32016-5,美国普林斯顿大学,环境与土木工程学院,访问学者

2015-82015-9 德国斯图加特大学,水力学系,访问学者

2014-12014-3 德国弗劳恩霍夫应用研究促进协会,访问学者

2012-112016-10,荷兰乌特列支大学,地球科学,博士后

代表性研究项目

(1) 自发渗吸微观动力学特性及其在两相达西模型中的量化,国家自然科学基金面上项目, 127072053,主持,2021-2024

(2) 煤岩多尺度渗流力学基础理论与物理模型研究,煤矿灾害动力学与控制国家重点实验室,主任基金,主持,2021-2022

(3) 重庆市留创计划创新类项目,主持,2020

(4) Analysing spatial scaling   effects in mineral reaction rates in porous media with a hybrid numerical   model,瑞士国家自然科学基金,SNF-175673,参与,2018-012020-07

(5) A new paradigm in modeling flow   and transport in porous media: revisiting foundations of porous media science,欧盟研究委员会,ERC-341225,,参与,2013-092019-08

代表性论文

[1] C. Qin, H. van Brummelen, M.   Hefny, J. Zhao, Image-based modeling of spontaneous imbibition in porous   media by a dynamic pore network model, Advances   in Water Resources, 152, 103932, 2021.

[2] S. Chen, C. Qin,   B. Guo, Fully implicit dynamic pore-network modeling of two-phase flow and   phase change in porous media, Water   Resources Research, 56, e2020WR028510, 2020.

[3] M. Hefny, C. Qin,   M.O. Saar, and A. Ebigbo, Synchrotron-based pro-network modeling of two-phase   flow in Nubian Sandstone and implications for capillary trapping of carbon   dioxide, International Journal of   Greenhouse Gas Control, 103164, 2020.

[4] Y. Liu, J. Cai, M. Sahimi, C. Qin, A study of the role of microfractures in   counter-current spontaneous imbibition by lattice Boltzmann simulation, Transport in Porous Media, 133,   313-332, 2020.

[5] C. Qin, and E.H. van Brummelen, A   dynamic pore-network model for spontaneous imbibition in porous media, Advances in Water Resources, 133,   103402, 2019.

[6] C. Qin, B. Guo, M. Celia, and R.   Wu, Dynamic pore-network modeling of air water flow through thin porous   layers, Chemical Engineering Science,   202, 194-207, 2019.

[7] A.H. Tavangarrad, B. Mohebbi, C. Qin, S.M. Hassanizadeh, R. Rosati, J. Claussen, and B.   Blümich, Continuum-scale modeling of water infiltration in a stack of two   thin fibrous layers and their interface, Chemical   Engineering Science, 207, 769-779, 2019.

[8] T. Hoang, C.V. Verhoosel, C.   Qin, F. Auricchio, A. Reali, E.H. van Brummelen, Skeleton-stabilized   immersogeometric analysis for incompressible viscous flow problems, Computer Methods in Applied Mechanics and   Engineering. 344, 421–450, 2019.

[9] L. Zhuang, S.M. Hassanizadeh, C. Qin, and A. De Waal, Experimental Investigation of   Hysteretic Dynamic Capillarity Effect in Unsaturated Flow, Water resources research, 53, doi.org/10.1002/2017WR020895,   2017.

[10] C. Qin, S.M. Hassanizadeh, and A.   Ebigbo, Pore-scale network modeling of microbially-induced calcium carbonate   precipitation (MICP): insights into scale dependence of biogeochemical   reaction rates, Water Resources   Research, 52, doi.org/10.1002/2016WR019128, 2016.

[11] C. Qin, Water transport in the   gas diffusion layer of a polymer electrolyte fuel cell: dynamic pore-network   modeling, Journal of the   Electrochemical Society, 162, F1036-F1046, 2015.

[12] C. Qin, S.M. Hassanizadeh,   Multiphase flow through multilayers of thin porous media: general balance   equations and constitutive relationships for a solid-gas-liquid three-phase   system, International Journal of Heat   and Mass Transfer, 70, 693-708, 2014.


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