HU Xiewen

Vice Dean of Faculty of Geosciences and Environmental Engineering (FGEE)

Professor for Geological Engineering

Research Interests:

Post-fire Debris Flow, Debris Flow in Meizoseismal Area, Causes and prevention of Geo-hazards

Connect:

SWJTU XIPU Campus Building 4 Room 4526

Phone: 028-66367605

Email:huxiewen@163.com

Personal Homepage:http://userweb.swjtu.edu.cn/Userweb/huxiewen/index.htm

Education:

B.S. Hydrogeology, Chengdu University of Technology (formerly Chengdu College of Geology), China 1985

M.S. Engineering Geology, Chengdu University of Technology, China 1988

Ph.D. Engineering Geology, Chengdu University of Technology, China 1996

Experience:

1988-1998, Chengdu University of Technology

Professor for Geological Engineering, School of Civil Engineering, Southwest Jiaotong University, 1998-2010

Professor for Geological Engineering and Vice Dean of the Faculty of Geosciences and Environmental Engineering, Southwest Jiaotong University since 2010

Research Interests:

My research has focused on the mechanisms and countermeasures of geo-hazards involving landslides, debris flows, and rockfall, etc. My group has studied numerous geological hazards in China. Recently I have focused on the Temporal and Spatial Evolution Mechanism, Prevention and Control Technology of the Post-fire debris flows in burned areas, and Comprehensive Prevention and Control Technology for the Extra-large debris flows in Meizoseismal areas. These researches involve several key problems, for instance, the generation, transportation, prevention of the debris flows in both Burned areas and Meizoseismal areas.

Publications:

Journal:

Luo G,Xiewen H, Yingjin D, et al. 2018. A collision fragmentation model for predicting the distal reach of brittle fragmentable rock initiated from a cliff.Bulletin of Engineering Geology and the Environment, (4):1-14. (SCI)

Ma Guotao,Hu X, Yin Y, et al. 2018. Failure mechanisms and development of catastrophic rockslides triggered by precipitation and open-pit mining in Emei, Sichuan, China.Landslides. 15(7), 1401–1414. (SCI)

Hu Xiewen, Wang Yan, Yang Ying. 2018. Research Actuality and Evolution Mechanism of Post-fire Debris Flow.Journal of Engineering Geology, 26(6): 1562-1573. (CSCD)

Luo G,Hu X, Bowman E T, et al. 2017. Stability evaluation and prediction of the Dongla reactivated ancient landslide as well as emergency mitigation for the Dongla Bridge.Landslides. 14(4), 1403–1418. (SCI)

Hu X W, Han M, Liang J X, et al. 2016. Some key problems on debris flow in Wenchuan earthquake area.Journal of Southwest Jiaotong University. 51(2). 331-340 (EI)

Hu Xiewen, Luo Gang, Lv Xiaoping, et al. 2011. Analysis on the dam-breaking mode of Tangjiashan barrier dam in Beichuan County.Journal of Mountain Science, 8(2):354-362. (SCI)

Book:

Hu Xiewen, Luo Gang. Study on the mechanism of blocking river and dam break of Tangjiashan high-speed and short-runout landslide. Beijing: Intellectual Property Right Press. 2014.

Xu Qiang,Hu Xiewenet al.Research on Wenchuan earthquake-induced large-scale landslides.Beijing: Science Press. 2010.

Huang Runqiu,Hu Xiewenet al. Research on Wenchuan earthquake geological hazards. Beijing: Science Press. 2009.

Huang Runqiu, Wang Shitian,Hu Xiewen, et al. Study on high arch dam engineering geology of Xiaowan hydropower station in Lancang River. Chengdu: Southwest Jiaotong University Press, 1996.

Conference:

X.W. Hu*, G. Luo, J. L. Lv, Y.Y. Hu, J.X. Liang & L. Fang. Seepage stability and dam-breaking mode of Tangjiashan barrier dam induced by the Wenchuan earthquake, Proceedings of IAEG XII Congress on Engineering Geology for Society and Territory, Torino, Italy,2014.09.15-19.

Luo Gang,Hu Xiewen, Gu Chengzhuang, et al. Seismic Dynamic Response Analysis of Plane Sliding Rock Slopes. Proceedings of the 11th International and 2nd North American Symposium on Landslides and Engineered Slopes, 1813-1818, Banff, Canada, 2012.06.3-8.

Hu Xiewen, Luo Gang, et al. Developmental Features and Evaluation of Blocking Dangers of Dashui Ditch Debris Flow of Tangjiashan Dammed Lake. Environmental Geosciences and Engineering Survey for Territory Protection and Population Safety International Conference EngeoPro-2011 (ISTP), 2011

Xiewen Hu, Gang Luo, Xiaoping Lv, et al. Research on earthquake-induced slope failure in Tang Jiashan dammed lake. Aucklang, New Zealand, Proceedings of the 11th IAEG Congress, A Balkema Book (ISTP), 2010:3019-3026.

Projects:

2018-2021, National Key Research and Development Plan, Comprehensive prevention and control technology and demonstration application of extra-large debris flow in meizoseismal areas. (2018YFC1505401), Project leader;

2018-2021, Key Project of National Natural Science Foundation of China, Research on spatial-temporal evolution mechanism and control methods of post-fire debris flows. (41731285), Project leader;

2017-2020, Project of National Natural Science Foundation of China, Research on the disaster-causing mechanism and kinetic characteristics of post-fire debris flows. (41672283), Project leader;

2017-2018, Scientific Research Plan Project of Sichuan Provincial Department of Land and Resources, Research and demonstration of key issues on measurements of rockfall. (KJ-2017-10), Project leader;

2017-2018, Sichuan Transportation Construction Technology Project, Research on the structure characteristics and slope disaster control technology of platy-phyllite rock mass. (2015A1-3-01), Project leader;

2014-2017, Project of National Natural Science Foundation of China, Research on deformation and failure mechanism of large ancient landslides under strong earthquakes. (41372293), Project leader

2010-2012, Project of National Natural Science Foundation of China, Research on the mechanism of river damming, breaking and barrier lake availability of Tangjiashan high-speed landslide. (40972175), Project leader.