1975年11月出生,研究员、博导,2006年博士毕业于北京大学力学系。主要从事山地灾害动力学、防灾减灾理论与技术等研究。承担科技部重点研发计划项目、国家自然科学基金、中国科学院重点部署等重要项目30余项。已发表论文200余篇(SCI76、EI29),专著5部,专利12项、软著6项。获得国家科技进步二等奖、中国科学院杰出科技成就奖、四川省科技进步一等奖等奖励。获得享受国务院特殊津贴专家、四川省学术和技术带头人、四川省有突出贡献的优秀专家等荣誉。现任四川省第十四届人大代表、四川省人大社会建设委员会委员。
山地灾害动力学、风险评估和监测预警
获得国家科技进步二等奖、中国科学院杰出科技成就奖、四川省科技进步一等奖等奖励。获得享受国务院特殊津贴专家、四川省学术和技术带头人、四川省有突出贡献的优秀专家等荣誉。
[1] Hu, K.*, Li, H., Liu, S., Wei, L., Zhang, X., Zhang, L., Zhang, B., & Gouli, M. R. (2025). Variation of sediment supply by periglacial debris flows at Zelunglung in the eastern syntaxis of Himalayas since the 1950 Assam Earthquake. Earth Surface Dynamics, 13(6), 1281–1305. DOI: 10.5194/esurf-13-1281-2025.
[2] Zhang, X., Hu, K.*, Li, H., Liu, S., & Liu, J. (2025). Efficient local neighborhood search scheme for three-dimensional MPM modeling of large-scale landslides on complex terrain. Computers and Geotechnics, 180, 107071. DOI: 10.1016/j.compgeo.2025.107071.
[3] Zhang, X., Hu, K.*, Li, H., Liu, S., & Wei, L. (2025). Investigation on collapse dynamics of ice-sand bi-frictional mixtures using material point method. Physics of Fluids, 37(9), 096611. DOI: 10.1063/5.0286937.
[4] Li, H., Hu, K.*, Ma, C., Liu, S., Cheng, H., Zhou, B., ... & Rahim, M. A. (2025). Tree-ring records reveal the positive feedback between debris flow and climate warming in a periglacial watershed, Eastern Himalaya Syntaxis. Geological Society of America Bulletin. DOI: 10.1130/B38736.1.
[5] Li, P., Hu, K.*, & Wang, J. (2025). Pore pressure evolution and entrainment mechanism of convex unsaturated colluvial beds with divergent compositions under debris flow overriding. Journal of Rock Mechanics and Geotechnical Engineering. DOI: 10.1016/j.jrmge.2025.03.040.
[6] Liu, S., Hu, K.*, Li, H., Schöffl, T., Cheng, H., & Zhang, X. (2025). Radar‐based deep learning for debris flow identification amid the environmental disturbances. Geophysical Research Letters, 52(2), e2024GL112351. DOI: 10.1029/2024GL112351.
[7] Cheng, H., Hu, K.*, Liu, S., Zhang, X., Li, H., Zhang, Q., ... & Wei, L. (2025). A worldwide event-based debris flow barrier dam dataset from 1800 to 2023. Earth System Science Data, 17(4), 1573-1593. DOI: 10.5194/essd-17-1573-2025.
[8] Wei, L., Hu, K.*, Liu, S., Ning, L., Zhang, X., Zhang, Q., & Rahim, M. A. (2024). The vulnerability of buildings to a large-scale debris flow and outburst flood hazard cascade that occurred on 30 August 2020 in Ganluo, southwest China. Natural Hazards and Earth System Sciences, 24(11), 4179-4197. DOI: 10.5194/nhess-24-4179-2024.
[9] Yang, H., Hu, K.*, Zhang, S., & Liu, S. (2023). Feasibility of satellite-based rainfall and soil moisture data in determining the triggering conditions of debris flow: The Jiangjia Gully (China) case study. Engineering Geology, 315, 107041. DOI: 10.1016/j.enggeo.2023.107041.
[10] Wang, Z., Hu, K.*, & Liu, S. (2022). Classification and sediment estimation for debris flow-prone catchments in the Parlung Zangbo Basin on the southeastern Tibet. Geomorphology, 413, 108348. DOI: 10.1016/j.geomorph.2022.108348.
[11] Pu Li, Kaiheng Hu & Xiekang Wang. Debris flow entrainment rates in non-uniform channels with convex and concave slopes. 2017, Journal of hydraulic research, 10.1080/00221686.2017.1313321.
[12] Chen HY, Hu KH, Cui P, Chen XQ.Investigation of vertical velocity distribution in debris flows by PIV measurement., Geomatics, Natural Hazards and Risk, 2017, 8(2):1631–1642.
[13] Su Li-jun, Hu Kai-heng, Zhang Wei-feng,Wang Jiao,Lei Yu, Zhang Chong-lei, Cui Peng, Pasuto Alessandro,Zheng Quan-hong.Characteristics and triggering mechanism of Xinmo landslide on 24 June 2017 in Sichuan, China. Journal of Mountain Science, 2017, 14(10):2134-2135.
[14] Hu Kai-heng, Pu Li, Wang Xie-kang. Experimental study of entrainment behavior of debris flow over channel inflexion points. Journal of mountain science, 2016, 13(6):971-984.
[15] Mi Tian, Kai-heng Hu, Chao Ma,and Fa-hong Lei. Effect of Bed Sediment Entrainment on Debris-Flow Resistance, Journal of Hydraulic Engineering,2014,140(1):115-120.
[16] Mingtao Ding, Kaiheng Hu. Susceptibility mapping of landslides in Beichuan County using cluster and MLC methods. Natural Hazards, 2014, 70(1):755-766.
[17] Chao Ma, Kaiheng Hu, Mi Tian. Comparison of debris-flow volume and activity under different formation conditions. Natural Hazards, 2013, 67(2): 261-273.
[18] Kaiheng Hu, Mi Tian, Yong Li. The Influence of Flow Width on Mean Velocity of Debris Flows in Wide Open Channel. Journal of Hydraulic Engineering, 2013, 139(1):65-69.
[19] Mi Tian, Kai-heng Hu, Chuan-chang Wang, Ma Chao, Fa-hong Lei. Study of viscous debris-flow surges moving on a residual layer in a flume. Erosion and Sediments Yields in the Changing Environment (Proceedings of a symposium held at the Institute of Mountain Hazards and Environment, CAS-Chengdu, China, 11–15 October 2012) (IAHS Publ. 356, 2012): 311-316.
[20] Kaiheng Hu, Cui P, Zhang J. Characteristics of Building Damage by August 7, 2010 Debris Flows In Zhouqu, Western China. Natural hazards and earth system sciences, 2012, (5):2209-2217.
[21] Peng Cui, Kaiheng Hu, Jianqi Zhuang, Yu Yang and Jianqiang Zhang. Prediction of debris-flow danger area by combining hydrological and inundation simulation methods. Journal of Mountain Science , 2011, 8(1):1-9.
[22] Kaiheng Hu, Fangqiang Wei, Yong Li. Real-time measurement and preliminary analysis of debris-flow impact force at Jiangjia Ravine, China. Earth Surface Processes and Landforms, 2011, 36(9): 1268-1278.
[23] Hu Kai-Heng, Cui Peng, Wang Chuan-Chang, Li Yong, Lu Xiao-Bing. Characteristic rainfall for warning of debris flows. Journal of Mountain Science, 2010, 7(3):207-214.
[24] Kaiheng Hu, Yong Li, Fangqiang Wei. Annual risk assessment on high-frequency debris-flow fans. Natural Hazards, 2009, 49(3):469-477.
[25] Fangqiang Wei, Kaiheng Hu, Peng Cui and Qun Guan. A decision support system for debris-flow hazard mitigation in towns based on numerical simulation: a case study at Dongchuan, Yunnan Province. Int. J. Risk Assessment and Management, 2008, 8(4):373-383.
[26] Fangqiang Wei, Kechang Gao, Kaiheng Hu, Yong Li and James Smith Gardner. Relationships between debris flows and earth surface factors in Southwest China. Environmental Geology, DOI: 10.1007/s00254-007-1012-3.
[27] Hu Kaiheng, Chen Kai, She Zhensu. Numerical studies of scaling exponents in compressible wall-bounded turbulence. Acta Scientiarum Naturalium Universitatis Pekinensis, 2007, 43(3):307-311. (Chinese)
[28] Hu Kaiheng, Wei Fangqiang, Hong Yong and Li Xiaoyu. Field measurement of impact force of debris flow. Journal of Rock Mechanics and Engineering, 2006, 25(SUPPL.1):2813-2819. (Chinese)
[29] Guan Qun, Wei Fang-qiang, Hu Kai-heng. Study of risk zoning system of debris-flow based on real-time numerical simulation. Application Research of Computers, 2006, 23(12): 54-55. (Chinese)
[30] Wei Fangqiang, Zhang Yu, Hu Kaiheng, Gao Kechang. Model and method of debris flow risk zoning based on momentum analysis. Wuhan University Journal of Natural Sciences, 2006, 11(4):835-839.
[31] LI Yong, HU Kaiheng, CHEN Xiaoqing and WEI Fangqiang. Characteristic curves and debris flow activity of a valley. Journal of Mountain Science, 2006, 24(3):320-326. (Chinese)
[32] WEI Fangqiang, HU Kaiheng, CHENG Zunlan. Research on numerical simulation of debris flow in Guxiang valley. Journal of Mountain Science, 2006, 24(2):167-171. (Chinese)
[33] Li Yong, Hu Ping-Hua, Hu Kai-Heng. Distribution of thickness of debris flow deposition. World Water Congress 2005, DOI:10.1061/40792(173)113.
[34] HU Kaiheng, CHEN Kai. Relative Scaling Exponents and Intermittency in Compressible Turbulent Channel Flows. Chinese Physics Letters, 2005, 22(12): 3115-3118.
[35] HU Kaiheng, WEI Fangqiang, LI Yong. Relationship between first-order stream number and area threshold for debris flow basin. Scientia Geographica Sinica, 2005, 25(4):473-477. (Chinese)
[36] WEI Fangqiang, HU Kaiheng, CHEN Jie. Determination of effective antecedent rainfall for debris flow forecast. Journal of Mountain Science, 2005, 23(4):453-457. (Chinese)
[37] LI Yong, CHEN Xiaoqing, HU Kaiheng and HE Shufen. Fractality of grain compostion of debris flows. Acta Geographica Sinica, 2005, 60(3):495-502. (Chinese)
[38] Peng Cui, Xiaoqing Chen, Yuyi Waqng, Kaiheng Hu and Yong Li. (2005). Jiangjia Ravine debris flows in south-western China. In: Debris-flow Hazards and Related Phenomena, M. Jakob and O. Hungr (eds.), Springer-Praxis, Berlin Heidelberg, 565-594.
[39] HU Kaiheng, WEI Fangqiang. Numerical-simulation-based debris flow risk zoning. Journal of Natural Disasters, 2005, 14(1):10-14. (Chinese)
[40] Li Y., Hu K.H., Yue Z.Q. and Tham L.G.. Termination and deposition of debris-flow surge. In: Landslides: Evaluation and Stability, Proceedings of the 9th International Symposium on Landslides, Lacerda, Ehrlich, Fontoura & Sayao (eds), 2004, 2: 1451-1456.
[41] LI Fa-bin, Hu Kai-heng, WEI Fang-qiang and CUI Peng. Decision support system of hazard mitigation for sichuan-tibet road. Application Research of Computers, 2004, 21(2):132-134. (Chinese)
[42] HU Kaiheng, WEI Fangqiang, LI Yong, CUI Peng. Characteristics of debris-flow surge. Journal of Mountain Science, 2004, 22(6):707-712. (Chinese)
[43] LI Fabin, TU Jianjun, HU Kaiheng. Optimized design model for sediment-trapped dam by GIS techniques. Science in China Ser.E, 2003, 46(Supp.):175-187.
[44] LI Yong, HU Kaiheng, HE Yiping. Parameter evaluation of deposition in terms of debris-flow surges. Journal of Natural Disasters, 2003, 12(2), 71-78. (Chinese)
[45] WEI Fangqiang, HU Kaiheng, J. L. Lopez, CUI Peng. Method and its application of the momentum model for debris flow risk zoning. Chinese Science Bulletin, 2003, 48(6):594-598.
[46] HU Kaiheng, WEI Fangqiang, HE Yiping, LI Yong, CUI Peng. Application of particle model in risk zoning of debris flow. Journal of Mountain Science, 2003, 21(6): 726-730. (Chinese)
承担科技部重点研发计划项目、国家自然科学基金、中国科学院重点部署等重要项目30余项。