邓文

发布者:张洁琪发布时间:2021-03-08浏览次数:12974


(教授、博士)


桥隧与地下工程系,土木工程学院

东南大学

电子邮件:wendeng@seu.edu.cn

个人网页(English)https://sites.google.com/a/utexas.edu/wen-deng/




个人简介:

   邓文,男,2004年本科毕业于华中科技大学数学系,2007年硕士毕业于同济大学土木工程学院桥梁工程系2010年博士毕业于美国爱荷华州立大学(Iowa State University)地质与大气科学系(Department of Geological & Atmospheric Sciences),于20102014于美国德克萨斯州大学(The University of Texas at Austin)地质科学系(Department of Geological Sciences)及美国能源部地下能源安全前沿研究中心(Center for Frontiers of Subsurface Energy Security)从事地质固碳的博士后研究工作。于20142020作为助理教授(tenure-track assistant professor)任职于美国密苏里科技大学 (Missouri University of Science and Technology)土木建筑环境工程系 (Department of Civil, Architectural, and Environmental Engineering)从事地质工程相关研究及教学工作目前任职于东南大学土木工程学院桥隧与地下工程系从事岩土工程相关研究及教学工作。


研究方向:深海深地岩土工程、环境岩土工程、多孔介质中多相流、地震波与多孔介质流体耦合响应、多孔介质中微生物生长及化学反应、裂隙的溶质输运、地球物理方法应用。


教育经历:

2000.09-2004.06  华中科技大学数学系,信息与计算科学专业,学士学位

2004.09-2007.05  同济大学土木工程学院桥梁工程系,桥梁与隧道工程专业,硕士学位

2007.01-2010.05  美国爱荷华州立大学地质与大气科学系,地质专业,博士学位


工作经历:

2010.07-2014.08  美国德克萨斯大学奥斯汀分校地质科学系与石油工程系,博士后 (Postdoctoral Fellow)

2014.09-2020.09 美国密苏里科技大学土木建筑环境工程系助理教授(Assistant Professor)

2015.5-2015.8   美国哈佛教授应用物理系,访问教授 (Visiting Scholar)

  

学术活动:

期刊编辑:Marine and Petroleum Geology副主编JCR一区、中科院SCI二区期刊影响因子:3.538)、Results in Geophysical Sciences副主编(Elsevier期刊)Sustainable Marine Structure编委

基金审评:美国自然科学基金(National Science Foundation)、以色列自然科学基金(Israel Science Foundation)美国化学协会石油研究基金(ACS Petroleum Research Fund)研究项目审评

会议组织:美国地球物理联盟(American Geophysical Union)会议分会主席,美国工程科学协会(Society of Engineering Science)会议分会主席

论文评审多家国际知名学术期刊 (Canadian Geotechnical Journal; Journal of Geotechnical and Geoenvironmental Engineering; Computers and Geotechnics; Environmental Science & Technology; Geophysical Research Letters; Water Resources Research; Marine and Petroleum Geology; Advances in Water Resources; Journal of Hydrology; Hydrological Processes; Applied Physics Letter; SPE Journal; Journal of Petroleum Science and Engineering等) 审稿人。


教授课程:

《初等土力学本科生

《高等土力学研究生

《岩土工程数值模拟研究生


主要学术论文:

*通讯作者

  1. Wenyu Liao, Chao Zeng, Yiyang Zhuang, Honyan Ma, Wen Deng*, Jie Huang, Mitigation of Thermal Curling of Concrete Slab using Phase Change Material: A Feasibility Study, Cement and Concrete Composites, (已接受). 影响因子:6.257

  2. Chao Zeng, Wen Deng* and Lichun Wang, Unsteady contact angle hysteresis during blob oscillation in capillary tube: Theoretical model and VOF simulation, Water Resources Research, (已接受). 影响因子: 4.361

  3. Chao Zeng, Wen Deng*, Jing Fan and Kelly H Liu, Reply to comments on “Investigation of the resonance of nonwetting droplets in constricted capillary tubes” (Chao Zeng, Wen Deng, Jing Fan, and Kelly H. Liu, 2020, Geophysics, 85, no. 2, 1D1–ID17), Geophysics, 85(6), (2020). 影响因子: 2.793

  4. Yunsen Wang, Jingping Qiu and Wen Deng*, Brittleness of Steel Fiber Reinforced Lightweight Aggregate Concrete with Coal-Gangue Ceramsite, Frontiers in Materials, 7, 554718, (2020). 影响因子: 2.705

  5. Chao Zeng, Wen Deng* and M. Bayani Cardenas, Resonance of droplets in constricted capillary tubes: Critical factors and nonlinearity, Physical Review Fluids, 5(8), 083604, (2020). 影响因子: 2.512

  6. Ruoyu Zhong and Wen Deng*, Influence of aggregates in concrete on fiber-optic based thermal integrity profiling analysis of concrete structures, Frontiers in Materials, 7, 00227, (2020). 影响因子: 2.705

  7. Wenyu Liao, Yiyang Zhuang, Chao Zeng, Wen Deng, Jie Huang and Hongyan Ma, Fiber Optic Sensors-Enhanced Detection and Prediction of Thermal Curling of Rigid Pavement Slab: Temperature, Strain and Inclination Sensors, Measurement, 165, 108203, (2020). 影响因子: 3.364

  8. Lan Li, Xinchang Zhang, Wenyuan Cui, Frank Liou, Wen Deng and Wei Li, Temperature and residual stress distribution of FGM parts by DED process: modeling and experimental validation, TheInternational Journal of Advanced Manufacturing Technology, 109, 451-462, (2020). 影响因子:  2.633

  9. Chao Zeng, Wen Deng*, Chenglin Wu and Matt Insall, Thermal effect of cold fluid injection on fracture integrity of hot dry rock and its implication of heat production efficiency of enhanced geothermal systems, Geothermics, 87, 101872, (2020). 影响因子: 3.682

  10. Chao Zeng and Wen Deng*, Effect of Subsurface microseisms on the motion of dispersed droplets in pores, Journal of Geophysical Research: Solid Earth, 125(4), e2019JB018783, (2020). 影响因子: 3.638

  11. Shuaijun Li, Honghui Yu, Tai-De Li, Zi Chen, Wen Deng*, Alimohammad Anbari and Jing Fan, Understanding transport of an elastic, spherical particle through a confining channel, Applied Physics Letter, 116, 103705, (2020). 影响因子: 3.597

  12. Chao Zeng, Wen Deng*, Jing Fan and Kelly Liu, Investigation of the resonance of nonwetting droplet in constricted capillary tubes, Geophysics, 85(2), ID1-ID17, (2020). 影响因子: 2.609

  13. Chao Zeng and Wen Deng*, Jing Fan and Yandong Zhang, Effect of flow profiles on the flow subjected to oscillation forcing: An example of droplet mobilization in constricted tubes, Journal of Hydrology, 583, 124295, (2020). 影响因子: 4.500

  14. Yandong Zhang, Chao Zeng, Baojun Bai and Wen Deng*, Experimental investigation of the seismic dynamics of trapped non-wetting droplets at pore constrictions, Journal of Geophysical Research: Solid Earth, 124(12), 12722-12735, (2019). 影响因子: 3.638

  15. Chao Zeng, Chenglin Wu and Wen Deng, Thermal mechanical analysis of porous granite asperities in contact using probabilistic damage model, International Journal of Rock Mechanics and Mining Sciences, 124, 104130, (2019). 影响因子: 4.151

  16. Junnan Cao, Bate Bate, Abdelmalek Bouazza and Wen Deng, Measuring retardation factors of 133-cesium and 88-strontium cations using column test, Journal of Geotechnical and Geoenvironmental Engineering, 145(9), 06019009, (2019). 影响因子: 2.714

  17. Lizhi Zheng, Lichun Wang and Wen Deng, Seismicity enhances macrodispersion in finite porous and fractured domains: A pore-scale perspective, Journal of Geophysical Research - Solid Earth, 124(3), 2844-2857, (2019). 影响因子: 3.638

  18. Donglu Shi, Julian Wang and Wen Deng, Smart building and construction materials, Advances in Materials Science and Engineering, 2432915, (2019). 影响因子: 1.372

  19. Ruoyu Zhong, Ruichang Guo and Wen Deng*, Optical-fiber based smart concrete thermal integrity profiling: an example of concrete shaft, Advances in Materials Science and Engineering, 9290306, (2018). 影响因子: 1.372

  20. Alimohammad Anbari, Hung-Ta Chien, Sujit S. Datta, Wen Deng, David A. Weitz and Jing Fan, Microfluidic model porous media: fabrication and applications, Small, 14(18), 1703575 (2018). 影响因子: 11.459

  21. Wen Deng*, Matthew T. Balhoff and M. Bayani Cardenas, Influence of dynamic factors on nonwetting fluid snap-off in pores, Water Resources Research, 51 (11), 9182-9189, (2015). 影响因子: 4.309

  22. Chanseok Jeong, Loukas F. Kallivokas, Sezgin Kucukcoban, Wen Deng and Arash Fathi, Maximization of wave motion within a hydrocarbon reservoir for wave-based enhanced oil recovery, Journal of Petroleum Science and Engineering, 129, 205-220 (2015). 影响因子: 3.706

  23. Susan J. Altman, Philip C. Bennett, Steven L. Bryant, Matthew T. Balhoff, M. Bayani Cardenas, Kuldeep Chaudhary, Randall T. Cygan, Wen Deng, Thomas Dewers, Marc A. Hesse, Edward N. Matteo, Yashar Mehmani, Craig M. Tenney, Hongkyu Yoon (共同第一作者), Chemical and hydrodynamic mechanisms for long-term geologic carbon storage, Journal of Physical Chemistry C, 118 (28), 15103–15113 (2014). 影响因子: 4.189

  24. Wen Deng*, M. Bayani Cardenas and Philip C. Bennett, Extended Roof snap-off for a continuous nonwetting fluid and an example case for supercritical CO2, Advances in Water Resources, 64, 34-46 (2014). 影响因子: 4.016

  25. Wen Deng*, M. Bayani Cardenas, Matthew F. Kirk, Susan J. Altman and Philip C. Bennett, Effect of permeable biofilm on micro- and macro-scale flow and transport in bioclogged pores, Environmental Science & Technology, 47 (19), 11092–11098 (2013). 影响因子: 7.864

  26. Wen Deng* and M. Bayani Cardenas, Dynamics and dislodgment from pore constrictions of a trapped nonwetting droplet stimulated by seismic waves, Water Resources Research, 49 (7),4206-4218 (2013). 影响因子: 4.309

  27. Kuldeep Chaudhary, M. Bayani Cardenas, Wen Deng and Philip C. Bennett, Pore geometry effects on intra-pore viscous to inertial flows and effective hydraulic parameters, Water Resources Research, 49 (2),1149-1162 (2013). 影响因子: 4.309

  28. Lichun Wang, M. Bayani Cardenas, Wen Deng and Philip C. Bennett, Theory for dynamic longitudinal dispersion in fractures and rivers with Poiseuille flow, Geophysical Research Letters, 39, L05401 (2012). 影响因子: 4.497

  29. Kuldeep Chaudhary, M. Bayani Cardenas, Wen Deng and Philip C. Bennett, The role of eddies inside pores in the transition from Darcy to Forcheimer flows, Geophysical Research Letters, 38, L24405 (2011). 影响因子: 4.497

  30. Igor A. Beresnev and Wen Deng, Theory of breakup of core fluids surrounded by a wetting annulus in sinusoidally constricted capillary channels, Physics of Fluids, 22, 012105 (2010). 影响因子: 3.514

  31. Igor A. Beresnev and Wen Deng, Viscosity effects in vibratory mobilization of residual oil, Geophysics, 75, N79-N85 (2010). 影响因子: 2.609