简介
陈剑平、现任永利集团304am官方入口,工程地质、岩土工程教授、博士生导师; 2000-现今,永利集团304am官方入口,教授、博士生导师; 1998-2000,长春科技大学环境与永利集团304am官方入口,教授、博士生导师; 1996-1998,长春科技大学环境永利集团304am官方入口,教授; 1994-1996,长春地质学院水文地质与工程地质系,副教授; 1982-1994.长春地质学院水文地质与工程地质系,助教、讲师; 主要学习经历: 1993.09—1996.09 长春地质学院水文地质与工程地质学博士后流动站 博士后; 1990.09—1993.07 成都理工学院 工程地质研究生,获博士学位; 1984.09—1987.07 长春地质学院 工程地质研究生,获硕士学位; 1978.09—1982.07 长春地质学院 工程地质本科,获学士学位; 国外学习经历: 2007.04--2008.02 赴日本千叶工业大学做访问学者; 1998.04—1999.04 赴美国亚历桑那大学采矿与地质工程系,高级访问学者; 1993.12--1994.10 赴美国亚利桑那大学采矿与地质工程系,访问学者; 主要从事的课程教学: 主讲本科生课程 《工程动力地质学》、 《岩体力学》、 《工程地质问题复杂性初的初探》新生研讨课、 《工程地质专题》; 主讲硕士研究生课程: 《地下工程》、 《岩土工程近代计算理论》; 主讲博士研究生课程: 《非线性工程地质》、 《环境地质与工程》; 多年来已经培养了40名博士研究生获得博士学位,45名硕士研究生获得硕士学位。主持国家自然科学基金重点项目2项、面上项目4项、优秀青年教师基金1项、高等学校博士学科点专项基金2项、省部委项目多项,企业委托项目多项,已经发表论文200余篇,其中SCI收录论文近50篇,EI收录论文80余篇。专著2部,主编全国统编教材1部,获省部级科技进步二等奖4项,省部科技进步三等奖1项,省级自然科学学术成果一、二等奖各1项。 主要完成的纵向科研项目如下: [1] 金沙江上游典型河段复杂结构岸坡致灾机理与防控(U1702441),国家自然科学基金-云南联合基金重点支持项目,2018-2021; [2] 快速隆升典型河段复杂结构岩体灾变与水库工程活动互馈机理研究(41330636),国家自然科学基金重点支持项目,2014-2018; [3] 裂隙岩质边坡稳定性随机动力学-非线性耦合分析(40872170),国家自然科学基金面上项目,2009-2011; [4] 三维网络结构岩体水力学研究(40472136),国家自然科学基金面上项目,2005-2007; [5] 裂隙岩体隧道施工地质灾害三维信息化超前预报研究(40272117), 国家自然科学基金面上项目,2003-2005; [6] 三维网络结构岩体力学模型研究(49872089),国家自然科学基金面上项目,1999-2001; [7] 基于Dijkstra算法的裂隙岩体三维渗流最短路径搜索与块体定性研究(20090061110054), 高等学校博士学科点专项科研基金,2010-2012 ; [8] 复杂岩体三维裂隙流网状渗径数值模型研究(20020183061),高等学校博士学科点专项科研基金,2003-2005
研究领域
主要从事工程地质研究领域岩体稳定性评价与研究工作,涉及的主要研究方向与岩土工程、岩体力学、地质灾害有着密切的相关,可归结为三个主要研究方向: 三维网络结构岩体力学: 三维网络结构岩体力学是一个创新的研究方向,本方向秉承岩体结构控制理论的精髓,通过现场地质调查、三维激光扫描、数字近景摄影测量等技术手段,以概率统计、现代算法、非线性系统理论分形几何为基本理论,通过对随机不连续面样本就产状、迹长、密度等的取样偏差的校正,构建岩体随机不连续面三维网络数值模型,在三维网络数值模型的基础上,进行岩体结构统计均质区,不连续面三维连通率,岩体表征单元,不同域值的三维RQD等岩体结构特征参数的,综合评价岩体的质量;搜索随机不连续面三维空间的有效最短渗透途径,搜索空间指定临空面的结构面不利组合,与块体理论相结合获取有限块体-关键块体,评价岩体结构稳定性特征。在我国著名工程地质学家张倬元教授、肖树芳教授的指导下完成的博士学位论文《松动岩体工程地质研究》是三维网络结构岩体力学研究的开始,曾于1993、1998年两度与美国亚历桑那大学Kulatilake教授合作,以三峡永久船闸岩质高边坡为研究基地构建了国内首个岩体结构面三维网络数值模型。近年来,在国家自然科学基金重点项目与国家自然科学基金云南联合基金重点支持项目的支持下,研究团队正在致力于多以尺度地质力学结构岩体等效模型的成灾机理的研究。 滑坡灾害评价与治理: 滑坡是在内外动力地质作用下的一种地壳浅表层斜坡或人造边坡在重力场长期作用下坡体各部应力不断调整以适应新的平衡过程中,而产生的水平位移大于铅直位移的岩土体破坏类型。由于在距今40Ma前的喜马拉雅运动开始以来青藏高原不断隆升,在距今大约80万年前的早更新世晚期高原面达到了3500m以上的高度,逐渐形成我国地理上的三大台阶,致使我国山地丘陵海拔高度大于1500m的土地面积占国土面积的2/3。滑坡成为了我国一种常见的自然地质现象,从水土流失至突发的地质灾害,给山地城镇的生存条件带来巨大的隐患。由于滑坡的突发性,预报难度极大,滑坡灾害的治理的稳定性评价与治理是工程地质与岩土工程领域中重要的研究方向之一。多年来在国家自然科学基金项目以及企业委托项目的支持下持续开展了以西南地区为主要研究基地的相关研究,在金沙江上游河段以晚更新世以来大规模滑坡,特别是一些堵江滑坡复杂成因机理的研究,主要是考虑了与青藏高原隆升相伴生的新构造活动、高地应力、地震影响,蛇绿岩套复杂结构岩体,早更新世以来4次大冰期与相应的海平面大幅度下降,以及气候变化对岸灾变机理的探索研究。已就吉林省公路史上最复杂的汪延一级公路新岩滑坡难题与吉林省公路史上规模最大的鹤大高速公路二密滑坡以及延吉梦都美滑坡提出了科学的治理方案,经工程验证方案安全可靠。此外,对辽宁省辽源石门岭人工开采边坡引发的矿山岩质滑坡以及弃渣边坡进行了稳定性评价与治理设计,使实际工程滑坡治理方案得以优化。 泥石流灾害评价与早期预警: 与上述的滑坡灾害有着密切相关的是泥石流,泥石流灾害也是一个评价与预测都有相当难度的科学问题,虽然传统地认为地形、固体物源与降水(冰雪融化等)这其三项基本要素,但,实际上影响泥石流的因素亦十分复杂,对泥石流的敏感性、危害范围的预测以及风险评价是研究泥石流基础研究。近年来泥石流的早期预警成了倍受关注的研究方向。从西南地区的金沙江,到华北的河北、北京、天津、内蒙等地研究不同环境背景条件的泥石流基本特征并开展了预警模型的关键技术研究,提出了基于临界雨量线可调试递进式泥石流灾害分级预警系统,并且进一步提出了一个降雨过程的概念与界定方法。并给出了泥石流预警解除的基本模型。正在试图将这一系统投入到实际的运营过程之中。
主要论文
1. 代表性论著清单 [1] Jiewei Zhan,Jianping Chen,Peihua Xu*,Xudong Han,Yu Chen,Yun Kai Ruan, Xin Zhou, Computational framework for obtaining volumetric fracture intensity from 3D fracture network models using Delaunay triangulations, Computers and Geotechnics, 89 (2017) 179–194, SCI收录, WOS:000407405000016; [2] Jiewei Zhan,Jianping Chen,Peihua Xu*,Wen Zhang,Xudong Han,Xin Zhou,Automatic Identification of Rock Fracture Sets Using Finite Mixture Models,Mathematical Geosciences, Online, DOI 10.1007/s11004-017-9702-1,SCI收录; [3] Xudon g Han, Jianping Chen* Peihua Xu, Jiewei Zhan, A well-balanced numerical scheme for debris flow run-out prediction in Xiaojia Gully considering different hydrological designs,Landslides, 2017,V(14) 2105-2114,DOI 10.1007/s10346-017-0850-7, SCI收录; [4] Xudong Han, Jianping Chen, Peihua Xu* Cencen Niu, Jiewei Zhan, Runout analysis of a potential debris flow in the Dongwopu gully based on a well-balanced numerical model over complex topography, Bull Eng Geol Environ, DOI 10.1007/s10064-017-1079-3, 2017,SCI收录; [5] Jiewei Zhan, Peihua Xu, Jianping Chen⁎, Qing Wang, Wen Zhang, Xudong Han, Comprehensive characterization and clustering of orientation data: A case study from the Songta dam site, China, Engineering Geology, 2017,SCI收录,WOS:000408183100002; [6] Shengyuan Song,Fengyue Sun, Jianping Chen*, Wen Zhang, Xudong Han, Xudong Zhang,Determination of RVE size based on the 3D fracture persistence,Quarterly Journal of Engineering Geology and Hydrogeology,2017,SCI收录,WOS:000395808700006; [7] Qi Zhang,Qing Wang,Jianping Chen*,Yanyan Li,Yunkai Ruan,Estimation of mean trace length by setting scanlines in rectangular sampling window,International Journal of Rock Mechanics and Mining Sciences,2016.4.01,84:74~79 ,SCI收录, WOS:000371895200008; [8] Xin Zhou, Jianping Chen*, Yu Chen,Shengyuan Song, Mingyuan Shi & Jiewei Zhan ,Bayesian-based probabilistic kinematic analysis of discontinuity controlled rock slope instabilities,Bull Eng Geol Environ,2016..11, SCI收录; [9] Chen Cao, Qing Wang, Jianping Chen *, Yunkai Ruan, Lianjing Zheng, Shengyuan Song and Cencen Niu,Landslide Susceptibility Mapping in Vertical Distribution Law of Precipitation Area: Case of the Xulong Hydropower Station Reservoir, Southwestern China,Water,2016.6.28,8:270~291, SCI收录,WOS:000380764800003; [10] Xin Qian, Jian-Ping Chen*, Liang-Jun Xiang, Wen Zhang, Cen-cen Niu,A novel hybrid KPCA and SVM with PSO model for identifying debris ow hazard degree: a case study in Southwest China,Environ Earth Sci,2016.6.9,75:1~16,SCI收录,,WOS:000378864300054; [11] Xudong Han, Jianping Chen*, Qing Wang, Yanyan Li,A 3D Fracture Network Model for the Undisturbed Rock Massat the Songta Dam Site Based on Small Samples,Rock Mech Rock Eng,2016.02.10,49:611~619,SCI收录,WOS:000370053600018; [12] Jiewei Zhan,Peihua Xu, Jianping Chen*,Wen Zhang,Cencen Niu,Xudong Han,A stepwise approach for 3D fracture intersection analysis and application to a hydropower station in Southwest China,International Journal of Rock Mechanics and Mining Sciences,2016.11.01,89:116~128, SCI收录, WOS:000387519300011; [13] Cencen Niu, Qing Wang, Jianping Chen, Wen Zhang,*, Liming Xu and Ke Wang, Hazard Assessment of Debris Flows in the Reservoir Region of Wudongde Hydropower Station in China, sustainability, 2015, 7, 15099-15118, ; doi:10.3390/su71115099 ,SCI收录,WOS:000369088600035; [14] Shengyuan Song,Qing Wang, Jianping Chen*,Chen Cao,Yanyan Li,Xin Zhou,Demarcation of homogeneous structural domains within a rock mass based on joint orientation and trace length,Journal of Structural Geology,2015.11.01,80:16~24, SCI收录,WOS:000364245100003; [15] Wen Zhang, Qing Wang, Jianping Chen*, Huizhong Li, Jinsheng Que and Yuanyuan Kong ,Grain-Size Analysis of Debris Flow Alluvial Fans in Panxi Area along Jinsha River, China,Sustainability 2015, 7, 15219-15242,SCI收录,WOS:000369088600041; [16] Yanyan Li, Jianping Chen*, Yanjun Shang, Connectivity of Three-Dimensional Fracture Networks: A Case Study from a Dam Site in Southwest China,Rock Mech Rock Eng,2016.7.23,50:241~249, SCI收录,WOS:000392293300018; [17] Chen Cao, Peihua Xu, Jianping Chen*, Lianjing Zheng, and Cencen Niu, Hazard Assessment of Debris-Flow along the Baicha River in Heshigten Banner, Inner Mongolia, China, Int. J. Environ. Res. Public Health 2017, 14, 30; doi:10.3390/ijerph14010030, online, SCI收录期刊,WOS:000392578200030; [18] Shengyuan Song,Fengyue Sun,Wen Zhang,Jianping Chen*,Peihua Xu,Cencen Niu,Chen Cao,Jiewei Zhan, Identification of structural domains by considering multiple discontinuity characteristics: a case study of the Songta Dam, Bull Eng Geol Environ,2017 DOI 10.1007/s10064-017-1024-5, SCI收录; [19] Qing Wang,Yuanyuan Kong,Wen Zhang*,Jianping Chen,Peihua Xu,Huizhong Li,Yiguo Xue,Xiaoqing Yuan,Jiewei Zhan,Yujie Zhu,Regional debris flow susceptibility analysis based on principal component analysis and self-organizing map: a case study in Southwest China,Arab J Geosci (2016) 9: 718 SCI收录,WOS:000390014100019; [20] Wen Zhang, Qihua Zhao, Runqiu Huang*, Jianping Chen, Yiguo Xue, Peihua Xu, Identification of structural domains considering the size effect of rock mass discontinuities: A case study of an underground excavation in Baihetan Dam, China, Tunnelling and Underground Space Technology 51 (2016) 75–83, http://dx.doi.org/10.1016/j.tust.2015.10.026, SCI收录,WOS:000367493200009; [21] Chen Cao, Peihua Xu, Yihong Wang, Jianping Chen*, Lianjing Zheng and Cencen Niu,Flash Flood Hazard Susceptibility Mapping Using Frequency Ratio and Statistical Index Methods in Coalmine Subsidence Areas,Sustainability,2016.9.19,8:948~963,doi:10.3390/su8090948,SCI收录,WOS:000385529400118; [22] Shengyuan Song, Qing Wang, Jianping Chen*, Yanyan Li,Wen Zhang and Yunkai Ruan, Fuzzy C-means Clustering Analysis Based on Quantum Particle Swarm Optimization Algorithm for the Grouping of Rock Discontinuity Sets, KSCE Journal of Civil Engineering (0000) 00(0):1-8, DOI 10.1007/s12205-016-1223-9, Online, SCI收录,WOS:000399805000010; [23] Mingyuan Shi,Jianping Chen*, Yang Song,Wen Zhang(*) ,Assessing debris flow susceptibility in Heshigten Banner, InnerMongolia, China, using principal component analysisand an improved fuzzy C-means algorithm,Bull Eng Geol Environ,2015.8.15,75:909~922, DOI 10.1007/s10064-015-0784-z, SC收录,WOS:000378851900117; [24] Wen Zhang, Jianping Chen*, Qing Wang, Jiyu Yan, X,Velocity and runout determination of a debris flow based on energy conservation: the Dongwopu debris flow in Tianjin, China,Quarterly Journal of Engineering Geology and Hydrogeology,2014.12.25,48:5~14, doi:10.1144/qjegh2014-036, SCI收录,WOS:000352000400002; [25] Yanyan Li, Qing Wang, Jianping Chen✦, Shengyuan S,A multivariate technique for evaluating the statistical homogeneity of jointed rock masses,Rock Mechanics and Rock Engineering,2015.12.08,48:1821~1831, DOI 10.1007/s00603-014-0678-6, SCI收录,WOS:000360006700006; [26] Li, Yanyan,Wang, Qing, Chen, Jianping* ,Han, Lili,Song, Shengyuan,Identification of structural domain boundaries at the Songta dam site based on nonparametric tests,International Journal of Rock Mechanics and Mining Sciences,2014.9.01,70:177~184,http://dx.doi.org/10.1016/j.ijrmms.2014.04.018,SCI收录,WOS:000341365900018, [27] Yanyan Li, Qing Wang,Jianping Chen*, Qi Zhang, Yu,Determination of structural domain boundaries in jointed rock masses: An example from the Songta dam site, China,Journal of Structural Geology,2014.01.01,69:179~188, http://dx.doi.org/10.1016/j.jsg.2014.10.011, SCI收录,第一标注 (被引1次), WOS:000347742100012; [28] Yanyan Li, Qing Wang, Jianping Chen*,Limin Xu, Sh,K-means algorithm based on particle swarm optimization for the identification of rock discontinuity sets,Rock Mechanics and Rock Engineering,2014.01.01,48:375~385, DOI 10.1007/s00603-014-0569-x, SCI收录,WOS:000347296400026; [29] Niu, Cen-Cen,Wang, Qing, Chen, Jian-Ping*,Wang, Ke,Zhang, Wen,Zhou, Fu-Jun,Debris-flow hazard assessment based on stepwise discriminant analysis and extension theory,Quarterly Journal of Engineering Geology and Hydrogeology,2014.8.01,47(3):211~222, doi: 10.1144/qjegh2013-038, SCI收录, WOS:000344367900003; [30] Shengyuan Song, Qing Wang, Jianping Chen*, Yanyan,A multivariate method for identifying structural domain boundaries in a rock mass,Bulletin of Engineering Geology and the Environment,2014.01.01,45:34~46, DOI 10.1007/s10064-014-0686-5,SCI收录,WOS:000362961400023; [31] Zhang Wen, Chen JianPing*,Zhang Wu,Lu Yan,Ma YuFei,Xiong Hui,Determination of critical slip surface of fractured rock slopes based on fracture orientation data,SCIENCE CHINA-TECHNOLOGICAL SCIENCES,2013.5.01,56(5):1248~1256, doi: 10.1007/s11431 -012-5129-6, SCI收录; [32] Zhang, Wen, Chen, Jianping*,Cao, Zhongxing,Wang, Ruiying,Size effect of RQD and generalized representative volume elements: A case study on an underground excavation in Baihetan dam, Southwest China,Tunnelling and Underground Space Technology,2013.4.01,35:89~98, http://dx.doi.org/10.1016/j.tust.2012.12.007, SCI收录; [33] Zhang, Wen,Chen, Jian-ping*,Wang, Qing,An, Yuke,Qian, Xin,Xiang, Liangjun,He, Longxiang,Susceptibility analysis of large-scale debris flows based on combination weighting and extension methods,Natural Hazards,2013.3.01,66(2):1073~1100, DOI 10.1007/s11069-012-0539-0, SCI收录; [34] Zhang Wen, Chen JianPing*,Wang Qing,Ma DongHe,Niu CenCen,Zhang Wu,Investigation of RQD variation with scanline length and optimal threshold based on three-dimensional fracture network modeling,SCIENCE CHINA-TECHNOLOGICAL SCIENCES,2013.3.01,56(3):739~748, doi: 10.1007/s11431-013-5132-6, SCI收录; [35] Zhang, Wen,Chen, Jianping*,Chen, Huie,Xu, Dezhi,Li, Yan,Determination of RVE with consideration of the spatial effect,International Journal of Rock Mechanics and Mining Sciences,2013.7.01,61:154~160, http://dx.doi.org/10.1016/j.ijrmms.2013.02.013, SCI收录; [36] Xu, L. M., Chen, J. P.*,Wang, Q.,Zhou, F. J.,Fuzzy C-Means Cluster Analysis Based on Mutative Scale Chaos Optimization Algorithm for the Grouping of Discontinuity Sets,Rock Mechanics and Rock Engineering,2013.1.01,46(1):189~198, DOI 10.1007/s00603-012-0244-z SCI收录; [37] Wen Zhang, Qing Wang, Jian-ping Chen n, Chun Tan, Xiao-qing Yuan, Fu-jun Zhou, Determina tion of the optimal threshold and length measurem ents for RQD calculations, International Journal of Rock Mechanics & Mining Sciences, 2012,51:1–12, doi:10.1016/j.ijrmms.2012.02.005, SCI收录; [38] Zhang Wen,Jian-ping CHEN*, Chang liu,Determination of geometrical and structural representative volume elements at the Baihetan dam site. ,Rock Mechanics and Rock Engineering,2011.6.1,1(1):11~11, DOI 10.1007/s00603-011-0191-0,SCI收录;[39] Zhang, Wen, Chen, Jian-ping*,Yuan, Xiao-qing,Xu, Pei-hua,Zhang, Chen,Analysis of RVE size based on three-dimensional fracture numerical network modelling and stochastic mathematics,Quarterly Journal of Engineering Geology and Hydrogeology,2013.2.01,46(1):31~40,DOI: 10.1144/qjegh2011-045, SCI收录;) [40] Wen Zhang, ,Hui-Zhong Li,Jian-ping Chen(*) ,Chen Z, Comprehensive hazard assessment and protection of debris flows along Jinsha River close to the Wudongde dam site in China,Natural Hazards,2011.1.30,58(1):459~477, DOI 10.1007/s11069-010-9680-9, , SCI收录; [41] Que, Jinsheng,Wang, Qing, Chen, Jianping,Shi, Bingfei,Meng, Qinghui,Geotechnical properties of the soft soil in Guangzhou College City,Bulletin of Engineering Geology and the Environment,2008.11.01,67(4):479~483,DOI 10.1007/s10064-008-0155-0,SCI收录; [42] Yanyan Li *, Jianping Chen,and Yanjun Shang, An RVM-Based Model for Assessing the Failure Probability of Slopes along the Jinsha River, Close to the Wudongde Dam Site, China, Sustainability 2017, 9(1), 32; doi:10.3390/su9010032 ; [43] Wen Zhang I Qihua Zhao I Jianping Chen I Runqiu Huang I Xiaoqing Yuan*, Determining the critical slip surface of a fractured rock slope considering preexisting fractures and statistical methodology, Landslides, DOI 10.1007/s10346-017-0800-4, :08 February 2017;
专利成果与技术
SFLOW-表面流数值模拟软件【简称:SFLOW】V1.0,2017年08月20日首次发表,原始取得,登记号“2018SR088394,中华人民共和国国家版权局,2018.02.02
获奖与荣誉
[1] 获得2017 国土资源科学技术二等奖(R1):复杂结构裂隙岩体 稳定性评价理论及 关键技术; [2] 获得2015年吉林省自然科学学术成果奖二等奖(R1):裂隙岩体结构参数研究; [3] 获得2013年吉林省自然科学学术成果奖一等奖(R1):区域性泥石流评价方法研究; [4] 获得2008年度国土资源科学技术奖获奖二等奖(R5):三峡库区塌岸预测与防治专题研究; [5] 2005年度教育部提名国家科学技术奖自然科学二等奖(R5):崩滑地质灾害模拟预测理论及其应用 ; [6] 获得2004年度国土资源科学技术奖获奖二等奖(R4):金沙江溪洛渡水电工程岩体结构模型及其工程应用研究; [7] 获1999年国家教委科技进步成果三等奖(R1):岩体不连续面三维网络数值模型的研究。