兰恒星 博士生导师

地质工程与测绘学院

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学位: 博士

毕业院校: 中国科学院地质与地球物理研究所

邮件: Lanhx@igsnrr.ac.cn

电话:

出生年月:

办公地点: 长安大学地质工程与测绘学院

个人资料

  • 学院: 地质工程与测绘学院
  • 性别:
  • 出生年月:
  • 职称: 博士生导师
  • 学位: 博士
  • 学历: 博士研究生
  • 毕业院校: 中国科学院地质与地球物理研究所
  • 联系电话:
  • 电子邮箱: Lanhx@igsnrr.ac.cn
  • 通讯地址: 西安市雁塔路126号长安大学地质工程系
  • 邮编: 710054
  • 传真:
  • 办公地址: 长安大学地质工程与测绘学院
  • 教育经历:

    1998-2001   中国科学院地质与地球物理研究所 博士

    1991-1998 山东科技大学 学士,硕士

个人简介

兰恒星,长江学者特聘教授,国家杰出青年基金获得者,入选国家“万人计划”科技创新领军人才,博士生导师。

2001获中国科学院地质与地球物理研究所博士学位。2015年获“国家杰出青年基金”资助,2016年入选“长江学者奖励计划”特聘教授,2018年入选第四批国家“万人计划”科技创新领军人才。

主要从事岩土体变形破坏机理、地质灾害动力学与风险分析的理论和应用基础研究。主持了国家自然科学基金国家杰出青年基金等多个科研项目。已发表学术论文190余篇,其中SCI/EI检索论文100余篇,出版专著4部,专利30余项,完成国家级规划4项。近年来主要学术成绩包括:提出了多尺度岩土体变形破坏的微观各向异性控制理论,代表性成果在Web of Science引用率国际排名领先;创建了集成GIS系统的三维分布式地质灾害动力学过程模型,在全球40个国家的学术界和工程界得到成功应用,成为国际主流模型;面向国家减灾和重大工程实际问题,完成了一系列获得国家领导人批示的科学咨询研究。目前任国际工程地质与环境协会(IAEG)滑坡命名方法专委会主席、国际SCI期刊《 Engineering Geology》《Bulletin of Engineering Geology and the Environment》、《Journal of Mountain Science》编委以及《Geoenvironmental Disaster》副主编等职,并任Nature Geoscience等杂志审稿人。曾获第七届黄汲清青年地质科学技术奖(2014年)等奖项。


招生专业:

硕士:地质资源与地质工程、岩土工程

博士:地质资源与地质工程、岩土工程、测绘科学与技术


欢迎具有较好的工程地质和数理力学基础的学生报考!

联系方式: E-mail: Lanhx@igsnrr.ac.cn



社会职务

国际工程地质与环境协会(IAEG)滑坡术语专委会(C37) 主席

国际期刊《Engineering Geology》 编委

国际期刊《Bulletin of Engineering Geology and the Environment》 编委

国际期刊Journal of Mountain Science 编委

国际期刊《Geoenvironmental Disaster》 副主编

国际工程地质与环境协会(IAEG) 会员

美国岩石力学协会(ARMA)会员

国际地质灾害减灾协会 (ICGdR) 委员

国际岩石力学协会 (ISRM) 会员

加拿大岩土工程协会 会员

国际滑坡风险评估与减灾国际学校(LARAM)授课教授

《工程地质学报》 编委

《地理研究》 编委

中国水土保持学会滑坡、泥石流专委会 委员

中国地质学会工程地质专委会 委员

国土资源部丘陵山地地质灾害重点实验室 学术委员会委员

中国科学院页岩气与地质工程重点实验室学术委员会委员

三峡工程国家验收第三方独立评估专家

中国地质调查局项目监审专家

民政部国家减灾中心 专家

中国工程院海西重大咨询项目 咨询专家

中国地理学会 会员

国家测绘局PCGIAP国际培训班 授课教授

Nature 期刊审稿人


研究领域

近期主要研究方向如下:

(1)多尺度岩土体变形破坏机理

(2)环境地质灾害动力学过程模型与风险分析

(3)遥感GIS在工程地质中的应用


开授课程

科研项目

国家自然科学基金专项项目(项目批准号:42041006):黄河流域地质地表过程与重大地质灾害效应,2021年01月-2024年12月(主持)

国家自然科学基金国家重大科研仪器研制项目(项目批准号:41927806):复杂结构黄土边坡工程地质自适应原位协同探测系统,2020年1月-2024年12月(主持)

国家自然科学基金专项项目“川藏铁路重大灾害风险识别与预测(项目批准号:41941019)课题:川藏铁路重大灾害风险评估与预测,2021年01月-2024年12月(主持)

国家自然科学基金重大项目黄土高原重大工程灾变机理与防控课题(项目批准号:41790443):黄土边坡滑移机理与治沟造地工程灾变效应,201801月至 2022 12月(主持)

国家自然科学基金国家杰出青年基金项目(批准号:41525010),工程地质动力学与地质灾害,201601- 2020 12月(主持)

国家自然科学基金面上项目(批准号:41272354),基于 LIDAR 和频率分布的岩崩规模与关键过程研究、20131-201612月(主持)

国家自然科学基金面上项目 (批准号:41472282),分布式滑坡形变PSI(永久散射体干涉雷达)监测模型及技术、20151-  201812月(主持)

中国科学院百人计划项目,A1055、地质灾害过程模型与风险评估、2010-2014年(主持)

国家自然科学基金创新群体项目“地理时空数据分析”(批准号:41421001),2015 1-20 20 12(参加)

中科院战略性先导科技专项(B类),(XDB10030300)、“页岩气勘探开发基础理论与关键技术,20141月—201812月(参加)

中国科学院STS项目课题,鲁甸地震灾后重建的地质灾害综合评估. 20151月至201612月 (参加)

中国工程院重大咨询项目、海西经济区(闽江、九龙江)等流域地质灾害危险度区划、2011-2013年(参加)

国家科技支撑计划项目,2008BAK50B05,中国重大自然灾害风险评估、2009-2011(参加)

2010年负责完成国务院《国家玉树地震灾后恢复重建资源环境承载力评价》专项评价-玉树地震次生地质灾害危险性评价-获国务院批准(国发〔201017号)

2010年参与完成国务院《国家舟曲灾后重建资源环境承载能力评价》专项评价

2013年负责完成国务院《国家雅安芦山地震灾后重建规划》专项评价—雅安芦山地震次生地质灾害危险性评价,获国务院批准(国发〔201326号)

2013年负责完成国务院《国家雅安芦山地震灾后重建规划》专项评价—雅安芦山地震地质适宜性评价,获国务院批准(国发〔201326号)

20131-201712月:参与国家自然科学基金重点项目:多场耦合作用下深埋长大隧道岩爆灾害的机理及预测.

20141-201412月负责国家电网公司委托“川藏联网工程线路地质灾害风险防控关键技术研究。

20141-201412月:负责中国地质科学院地质力学研究所委托:川藏铁路潜在地震作用下的山区地质灾害危险性评估

2009-2011年负责天津滨海新区委托:“滨海新区塘沽区地面沉降高精度PSI监测”


论文

主要论文:

[1]Lan, H. X.*, Zhou, C. H., Lee, C. F., Wang, S. J., Wu, F. Q., 2003. Rainfall-induced landslide stability analysis in response to transient pore pressure - A case study of natural terrain landslide in Hong Kong. SCIENCE CHINA Technological Sciences, 46(s1), 52–68.

[2]Lan, H. X.*, Wu, F. Q., Zhou C. H., Wang, L. J., 2003. Spatial hazard analysis and prediction on rainfall-induced landslide using GIS. Chinese Science Bulletin, 48(7), 703–708.

[3]Lan, H. X.*, Hu, R. L., Yue, Z. Q., Lee, C. F., Wang, S. J. 2003. Engineering and geological characteristics of granite weathering profiles in South China. Journal of Asian Earth Sciences, 21(4), 353–364.

[4]Lan, H. X.*, Zhou, C. H., Wang, L. J., Zhang, H. Y., Li, R. H. 2004. Landslide hazard spatial analysis and prediction using GIS in the Xiaojiang watershed, Yunnan, China. Engineering Geology, 76(1-2), 109–128.

[5]Qi, S. W.*, Wu, F. Q., Yan, F. Z., Lan, H. X., 2004. Mechanism of deep cracks in the left bank slope of Jinping first stage hydropower station. Engineering Geology, 73(1-2), 129–144.

[6]Wu, F. Q., Qi, S. W.*, Lan, H. X., 2005. Mechanism of uplift deformation of the dam foundation of Jiangya Water Power Station, Hunan Province, P.R. China. Hydrogeology Journal, 13(3), 451–466.

[7]Lan, H. X.*, Lee, C. F., Zhou, C. H., Martin, C. D. 2005. Dynamic characteristics analysis of shallow landslides in response to rainfall event using GIS. Environmental Geology, 47(2), 254–267.

[8]Martin C.D.*, Lan, H. X., Lim C.H., et al. Evaluating rock fall hazard along railway corridors using GIS technology. FELSBAU, 2006, 30(4), 38–41.

[9]Lan, H. X., Martin C. D.*, Lim C. H. 2007. RockFall analyst: A GIS extension for three-dimensional and spatially distributed rockfall hazard modeling. Computers & Geosciences, 33(2), 262–279.

[10]Lan, H. X., Martin C. D.  2007. A digital approach for integrating geotechnical data and stability analyses. In: Eberhardt E; Stead D; Morrison T (eds), Rock Mechanics: Meeting Society's Challenges and Demands, Two Volume Set, Proceedings of the 1st Canada-US Rock Mechanics Symposium, 27–31 May, 2007, Vancouver, Canada, CRC Press, pp: 45–52.EI

[11]Martin C. Derek, Tarmant D. D., Lan, H. X., 2007. Comparison of terrestrial-based, high resolution, LiDAR and digital photogrammetry surveys of a rock slope. In: Eberhardt E; Stead D; Morrison T (eds), Rock Mechanics: Meeting Society's Challenges and Demands, Two Volume Set, Proceedings of the 1st Canada-US Rock Mechanics Symposium, 27–31 May, 2007, Vancouver, Canada, CRC Press, pp: 37–44.EI

[12]Lan, H. X. and Martin C. Derek. 2007. Model calibration for rockfall hazard assessment using LiDAR technology. In: the First North American Landslide Conference, Landslides and Society: Integrated Science, Engineering, Management, and Mitigation, 3-8 June, 2007, Vail, Colorado, USA, AEG Special Publication -CD-ROM Edition-, 23.

[13]Lan, H. X., Martin C. D. 2007. Estimating the size and travel distance of Klapperhorn Mountain Debris flows for risk analysis along railway, Canada. In: Chen, C.L., Major, J.J. (Eds), Proceedings of the 4th International conference on debris-flow hazards mitigation: mechanics, prediction, and assessment, 10-13 September, 2007, Chengdu, China.

[14]Lan, H. X.*, Martin C. D., Zhou C. H. 2008. Estimating the size and travel distance of Klapperhorn Mountain debris flows for risk analysis along railway, Canada. International Journal of Sediment Research, 23(3), 275–282.

[15]Martin C. D. , Lan, H. X., Hutchinson, J., Quinn, P. 2008. Applications of GIS tools to ground hazard assessment for railway infrastructure. In: Proceedings of the GeoEdmonton’08: 61st Canadian Geotechnical Conference and 9th Joint CGS/IAH-CNC Groundwater Conference, 21-24 September, 2008, Edmonton, Alberta, Canada, pp: 1064–1066.

[16]Lan, H. X., Martin C. D., Zhou C. H., 2008. Numerical modeling of debris flow kinematics using discrete element method combined with GIS. In: Chen, Z; Zhang, JM; Li, ZK; Wu, FQ; Ho, K (eds), Landslides and Engineered Slopes. From the Past to the Future, Two Volumes + CD-ROM, Proceedings of the 10th International Symposium on Landslides and Engineered Slopes, 30 Jun - 4 July, 2008, Xi'an, China, CRC Press, pp: 769–775.

[17]Lan, H. X., Martin C. D., Froese C. R., Chao, D., Chowdhury, S. 2008. A Web-Based GIS Tool for Managing Urban Geological Hazard Data. In: Eurengeo 2008, the city and its subterranean environment, the 2nd Eur. Conf. IAEG, 15-20 September, 2008, Madrid, Spain.

[18]Lan, H. X.*, Martin C. D., Froese, C. R., Kim, T. H., Morgan, A. J., Chao D., Chowdhury S., 2009. A web-based GIS for managing and assessing landslide data for the town of Peace River, Canada. Natural Hazards and Earth System Sciences, 9(4), 1433–1443.

[19]Liu, H.J., Lan, H. X., 2009. Debris flow sediment intensity transportation zoning based on GIS in main downstream of Jinsha River. In: Proceedings of the 6th International Symposium on Digital Earth (ISDE6), 9-12 September, 2009, Beijing, China. (EI)

[20]Lan, H. X.*, Martin C. D. 2009. Evaluating the effect of topography on the rock fall process using LiDAR. In: Hudson, J. A., Tham, L. G., Feng, X.-T., and Kwong, A. K. L. (Eds), Proceedings of the ISRM-Sponsored International Symposium on Rock Mechanics: Rock Characterization, Modelling, and Engineering Design Methods, SINOROCK 2009, 19-22 May, 2009, The University of Hong Kong, China, page 69.

[21]Lan, H. X.*, Martin C. D., Zhou, C.H., Lim, C.H. 2010. Rockfall hazard analysis using LiDAR and spatial modeling. Geomorphology, 118(1-2), 213–223.

[22]Lan, H. X.*, Martin C. D.,  Hu B. 2010. Effect of heterogeneity of brittle rock on micromechanical extensile behavior during compression loading. Journal of Geophysical Research, 115(B1), B01202.

[23]Qi, S. W., *, Xu, Q., Lan, H. X., Zhang, B., Liu, J. Y. 2010. Spatial distribution analysis of landslides triggered by 2008.5.12 Wenchuan Earthquake, China. Engineering Geology, 116(1-2), 95–108.

[24]Liu, H.J., Lan, H. X.*, Liu, Y., Zhou, Y. 2011. Characteristics of spatial distribution of debris flow and the effect of their sediment yield in main downstream of Jinsha River, China. Environmental Earth Sciences, 64(6), 1653–1666.

[25]Qi, S.W., Xu, Q., Zhang, B., Zhou, Y.D., Lan, H. X., Li,L.H. 2011. Source characteristics of long runout rock avalanches triggered by the 2008 Wenchuan earthquake, China. Journal of Asian Earth Sciences, 40(4), 896–906. SCI

[26]Zhang, Y.S.*, Zhao, X.T., Lan, H. X., Xiong Tanyu, 2011. A Pleistocene landslide-dammed lake, Jinsha River, Yunnan, China. Quaternary International, 233(1), 72–80.

[27]Martin C. D., Lu, Y., Lan, H. X., 2011. Scale effects in a Synthetic Rock Mass. In: Qihu Qian and Yingxin Zhou (Eds), Harmonising Rock Engineering and the Environment, Proceedings of the 12th ISRM International Congress on Rock Mechanics, 18–21 October, 2011, Beijing, China, CRC press, pp: 257–258. EI

[28]Li, L.P., Lan, H. X.*, Wu, Y.M., 2012. Comment on Statistical physics of landslides: New paradigm by Chen C.-c. et al.. EPL (Europhysics Letters), 100, 29001.

[29]Lan, H. X.*, Li, L.P., Liu, H.J., Yang, Z.H. 2012. Complex urban infrastructure deformation monitoring using high resolution TerraSAR-X PSI. IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing, 5(2), 643–651.

[30]Qi, S.W., Xu, Q., Lan, H. X., Zhang, B., Liu, J.Y. 2012. Resonance effect existence or not for landslides triggered by 2008 Wenchuan earthquake: A reply to the comment by Drs. Xu Chong and Xu Xiwei. Engineering Geology, 151(29), 128–130.

[31]Lan, H. X.*, Li, L.P., Zhang, Y.S., Gao, X., Liu, H.J., 2013. Risk assessment of debris flow in Yushu seismic area in China: a perspective for the reconstruction. Natural Hazards and Earth System Sciences, 13(11), 2957–2968.

[32]Lan, H. X.*, Gao, X., Liu, H.J., Yang, Z.H., Li, L.P., 2013. Integration of TerraSAR-X and PALSAR PSI for detecting ground deformation. International Journal of Remote Sensing, 34(15), 5393–5408.

[33]Lan, H. X.*, Martin C.D., Andersson J.C., 2013. Evolution of in-situ rock mass damage induced by mechanical-thermal loading. Rock Mechanics and Rock Engineering, 46(1), 153–168.

[34]Yang, Z.H. Lan, H. X.*, Zhang, Y.S., Gao, X., Li, L.P., 2013. Nonlinear dynamic failure process of tunnel-fault system in response to strong seismic event. Journal of Asian Earth Sciences, 64, 125–135.

[35]Lan, H. X.*,Li, L.P., Wu, Y. M.  2013. The role of rockfall intensity on its risk assessment. In: Faquan Wu & Shengwen Qi (Eds), Global View of Engineering Geology and the Environment, Proceedings of the international symposium and 9th Asian regional conference of IAEG, 23-25 September, 2013, Beijing, China, CRC Press/Balkema, The Netherlands, pp: 51–58. (EI &Invited paper)

[36]Lan, H. X.*, Martin C. D., Qi, S. W., 2013. A 3D grain based model for characterizing the geometric heterogeneity of brittle rock. In: Proceedings of the 47th US Rock Mechanics/Geomechanics Symposium, 23-26 June, 2013, San Francisco, California, USA. Technical Editors: Laura J. Pyrak-Nolte, Alvin Chan, William Dershowitz, Joseph Morris and Jamal Rostami. ISBN: 978-0-9894844-0-4

[37]Lu, Y., Martin C. D., Lan, H. X., 2013. Strength of intact rock containing flaws. In: Proceedings of the 47th US Rock Mechanics/Geomechanics Symposium, 23-26 June, 2013, San Francisco, California, USA. Technical Editors: Laura J. Pyrak-Nolte, Alvin Chan, William Dershowitz, Joseph Morris and Jamal Rostami. ISBN: 978-0-9894844-0-4

[38]Ma, P.F., Lin, H., Lan, H. X., Chen, F.L. (2014) On the Performance of Reweighted L1 Minimization for Tomographic SAR Imaging. IEEE Geoscience and Remote Sensing Letters. 12 (4): 895 – 899. DOI:10.1109/LGRS.2014.2365613.

[39]Qi, S., Lan, H. X.., Dong, J. An analytical solution to slip buckling slope failure triggered by earthquake, Eng. Geol. (2014), http://dx.doi.org/10.1016/j.enggeo.2014.06.004 .

[40]Zhang, Y.S.,Cheng, Y.L, Yin, Y.P., Lan, H. X., Wang, J., Fu, X.X. High-position debris flow: A long-term active geohazard after the Wenchuan earthquake. (2014) Engineering Geology. Vol (180): 45-54. DOI: 10.1016/j.enggeo.2014.05.014.

[41]Li, L.P., Lan, H. X.* and Wu, Y.M.. The volume-to-surface-area ratio constrains the rollover of the power law distribution for landslide size. The European Physical Journal Plus, Volume 129, Issue 5. EUROPEAN PHYSICAL JOURNAL PLUS (2014) 1295: 89 DOI 10.1140/epjp/i2014-14089-y

[42]Cruden, D. M. and Lan, H. X.. Using the Working Classification of Landslides to Assess the Danger from a Natural Slope. G. Lollino et al. (eds.), Engineering Geology for Society and Territory – Volume 2, DOI: 10.1007/978-3-319-09057-3_1, © Springer International Publishing Switzerland 2014 (EI&Keynote)

[43]Lan, H. X.*, Li, L.P., and Wu, Y.M.. Stochasticity of Rockfall Tracjectory Revealed by a Field Experiment Repeated on a Single Sample. G. Lollino et al. (eds.), Engineering Geology for Society and Territory – Volume 2, pp3-12.DOI: 10.1007/978-3-319-09057-3_304, © Springer International Publishing Switzerland 2014 (EI)

[44]Meng, Y. S., Lan, H. X.*, Ping, B. Landslide deformation monitoring and location identification with polarimetric SAR in Three Gorges regions. Geoscience and Remote Sensing Symposium (IGARSS), 2014 IEEE InternationalIGARSS, 2014418 - 421, Quebec city, Canada. 10.1109/IGARSS.2014.6946447

[45]Yang, Z.H., Lan, H. X.*, Gao,X., Li, L.P., Meng, Y.S., Wu, Y.M. Urgent Landslide Susceptibility Assessment in the 2013 Lushan Earthquake-impacted  Area, Sichuan province, China.(2015) Natural hazards (2015) 75:2467–2487.DOI 10.1007/s11069-014-1441-8.

[46]Ma, P.F., Lin, H., Lan, H. X., Chen, F.L.(2015) Multi-dimensional SAR tomography for monitoring the deformation of newly built concrete buildings. ISPRS Journal of Photogrammetry and Remote Sensing 106 (2015) 118128.

[47]Zhang, Y.S., Guo, C.B., Lan, H. X., Zhou, N.J., Yao, X. (2015). Reactivation mechanism of ancient giant landslides in the tectonically active zone: a case study in Southwest China. Environ Earth Sci (2015) 74:1719–1729, DOI 10.1007/s12665-015-4180-6.

[48]YANG, Z.H., Lan, H. X.*, Liu, H.J., Li, L.P., Wu, Y.M., Meng, Y.S.(2015)Post-earthquake Rainfall-triggered Slope Stability Analysis In The Lushan Area[J].Journal Of Mountain Science,2015,12(1):232-242.

[49]Li, L.P., Lan, H. X.*, 2015. Probabilistic modeling of rockfall trajectory-a review. Bulletin of Engineering Geology and the Environment, 74, 1163–1176. DOI 10.1007/s10064-015-0718-9.

[50]Meng, Y.S., Lan, H. X.*, Li, L.P., Wu, Y.M. and Li, Q.W. (2015). Characteristics of Surface Deformation Detected by X-band SAR Interferometry over Sichuan-Tibet Grid Connection Project Area, China. Remote Sensing, 2015, 7, 12265-12281; doi:10.3390/rs70912265.

[51]Wu, Y.M., Lan, H. X. *, Gao,X., Li, L.P., Yang, Z.H. (2015). A simplified physically based coupled rainfall threshold model for triggering landslides. Engineering geology. Engineering Geology, 195, 63–69.

[52]Langping Li, Lan,H.X.*, Changbao Guo, Yongshuang Zhang,  Quanwen Li, Yuming Wu, 2016. A modified frequency ratio method for landslide susceptibility assessment. Landslides. DOI 10.1007/s10346-016-0771-x

[53]Langping Li, Lan, H.X.*, and Yuming Wu.2016. How sample size can effect landslide size distribution. Geoenvironmental Disasters  (2016) 3:18 DOI 10.1186/s40677-016-0052-y.

[54]Wu YM, Lan, H.X., Gao X, et al., 2016. The relationship between the volume density of cracks and acoustic properties of the shale core samples from Fulin. Chinese Journal of Geophysics , 59(10): 3891-3900, DOI: 10.6038/cjg20161032.

[55]Li Langping, Lan H.X*, Guo Changbao, Zhang Yongshuang, Li Quanwen, Wu Yuming, 2017. A modified frequency ratio method for landslide susceptibility assessment. Landslides, 14, 727-741. DOI 10.1007/s10346-016-0771-xIF: 3.05).

[56] Lan, H.X., Chen, J.H., Macciotta, R., 2019. Universal confined tensile strength of intact rock. Scientific Reports 6170(9).   


[1] 樊杰、兰恒星、周侃,2016,鲁甸地震灾后恢复重建:资源环境承载能力评价与可持续发展研究,科学出版社(副主编)ISBN 978-7-03-046588-7. 字数:60

[2] 兰恒星,2014, 地震地质条件评价、次生地质灾害危险性评价(第四、五章). 见樊杰主编《芦山地震灾后恢复重建:资源环境承载能力评价》,科学出版社,ISBN978-7-03-039960-1.字数:140

[3] 兰恒星、杨崇俊、李宝林, 2014. 地理信息建模与分析进展研究. 见中国科学技术协会主编《地图学与地理信息系统学科发展报告》,中国科学技术出版社, ISBN987-7-5046-6542-3

[4] 兰恒星2011,次生地质灾害危险性评价(第四章). 见樊杰主编《玉树地震灾后恢复重建:资源环境承载能力评价》科学出版社, ISBN: 978-7-03-028060-2

[5] 青藏高原东部地震地质灾害成灾背景,2014. 科学出版社. ISBN9787030422507

[6] 参编国际会议集:Global View of Engineering Geology and the Environment. .Proceedings of the international symposium and 9th Aisan regional conference of IAEG, Beijing, China, 23-25 September,2013, CRCPress/Balkema, The Netherlands. ISBN:978-1-138-00078-0.

[7] 参编玉树地震区域生态环境图集. 科学出版社.2010. ISBN:978-7-03-028216-3

[8] 2010负责完成国务院《国家玉树地震灾后恢复重建资源环境承载力评价》专项评价报告-玉树地震次生地质灾害危险性评价-获国务院批准(国发〔201017号)

[9] 2010参与完成国务院《国家舟曲灾后重建资源环境承载能力评价》专项评价报告

[10] 2013负责完成国务院《国家雅安芦山地震灾后重建规划》专项评价报告—雅安芦山地震次生地质灾害危险性评价,获国务院批准(国发〔201326号)

[11] 2013负责完成国务院《国家雅安芦山地震灾后重建规划》专项评价报告—雅安芦山地震地质适宜性评价,获国务院批准(国发〔201326号)

[12] 2014负责完成国务院《国家云南鲁甸地震灾后重建规划》专项评价报告—地震地质适宜性评价和次生地质灾害评价,获国务院批准(国发〔201456号)

[13] 中国工程院重大咨询研究报告:海西经济区(闽江、九龙江等流域)生态环境安全与可持续发展研究之海西经济区地质灾害危险度划分与防治对策研究

[14] 参编玉树地震区域生态环境图集. 科学出版社.2010. ISBN:978-7-03-028216-3




科技成果

近年来主要的学术成绩包括:

    (1)理论研究:在大量实验和长期现场观测的基础上,发展完善了多尺度岩体变形破坏基础研究,提出多尺度岩体变形破坏的微观各向异性控制理论,揭示了矿物尺度微观各向异性对岩体变形破坏的作用机理。其中2010年以来的代表性成果在汤森路透的Web of Science引用率国际排名领先。

    (2)模型研究:创建了首个集成GIS系统的三维分布式岩体崩塌动力学过程模型-RA模型(Rockfall Analyst),在全球40个国家的学术界和工程界得到成功应用,并被美国科学院研究报告引用,成为国际主流模型。

    (3)应用研究:面向国家需求和重大工程实际问题,完成了一系列应用研究,10余项科学咨询研究报告被国务院和中共中央办公厅等部门实质采用,并获得包括总书记等国家领导人批示,成功应用于我国玉树、芦山、鲁甸等地震灾区的恢复重建规划及川藏联网等重大工程,更好地服务于国家需求。


荣誉奖励

2016 中国电力创新奖二等奖

2016 国家电网科技进步奖 特等奖

2014 第七届黄汲清青年地质科学技术奖-地质科技研究者奖

2010 中国岩石力学与工程学会青年科技奖

2009 水利部大禹奖二等奖

2005 长江水利委员会科技进步一等奖

2001 中国科学院院长奖学金优秀奖



工作经历