分享张强副教授 扫一扫在手机打开此页面所在单位：环境与土木工程学院，地下水科学与工程 研究领域： 职????务： 地下水科学与工程系主任 84077542个人简介 Introduction发表论文 Paper Publications发明专利 Patents科研项目 Research Projects 基本信息 Introduction 荣誉称号 Academic Awards and Honors 工作经历 Work Experience1994.07- 1998.08至今， 广州海洋地质调查局研究所， 助工 2001.08- 2002.10至今， 成都理工大学 ， 助教 2002.11- 2007.11至今， 成都理工大学 ， 讲师 2007.12- 2021.09至今， 成都理工大学， 副教授、硕士生导师、 主任 个人新闻更多友情链接更多教育经历Education Background 1990.09-1994.07，成都理工学院，水文地质与工程地质专业，本科 1998.09-2001.06，成都理工大学，水文地质，硕士研究生 2004.09-2010.06，成都理工大学，地质工程，博士研究生 发表论文Paper Publications[1]. 钟玲敏; 许模; 吴明亮; 杨艳娜; 张强.多级水流系统耦合下深部岩溶分异研究以川东隔挡式构造区中梁山背斜南段为例,水文地质工程地质, 2018 ,45 (1):45-51 ( CSCD收录; )[2]. Qi, Jihong; Xu, Mo; Cen, Xinyu; Wang, Lu; Zhang, Qiang.Characterization of Karst Conduit Network Using Long-Distance Tracer Test in Lijiang, Southwestern China,WATER, 2018 ,10 (7):- ( SCI收录; )[3]. Qi, Jihong; Li, Xiao; Xu, Mo; Yi, Lei; Zhang, Qiang; Qin, Limao; Li, Kaide.Origin of saline springs in Yanjing, Tibet: Hydrochemical and isotopic characteristics,APPLIED GEOCHEMISTRY, 2018 ,96 ( ):164-176 ( SCIE收录; EI收录; )[4]. Xia, Qiang; Xu, Mo; Zhang, Han; Zhang, Qiang; Xiao, Xian-xuan.A dynamic modeling approach to simulate groundwater discharges into a tunnel from typical heterogenous geological media during continuing excavation,KSCE JOURNAL OF CIVIL ENGINEERING, 2018 ,22 (1):341-350 ( SCIE收录; EI收录; )[5]. Zhang, Yunhui; Xu, Mo; Li, Xiao; Qi, Jihong; Zhang, Qiang; Guo, Jian; Yu, Leilei; Zhao, Rui.Hydrochemical Characteristics and Multivariate Statistical Analysis of Natural Water System: A Case Study in Kangding County, Southwestern China,WATER, 2018 ,10 (1):- ( SCIE收录; EI收录; )[6]. Ling, Chengpeng; Zhang, Qiang.Evaluation of surface water and groundwater contamination in a MSW landfill area using hydrochemical analysis and electrical resistivity tomography: a case study in Sichuan province, Southwest China,ENVIRONMENTAL MONITORING AND ASSESSMENT, 2017 ,189 (4):- ( SCI收录; EI收录; )[7]. Qi, Jihong; Xu, Mo; An, Chengjiao; Wu, Mingliang; Zhang, Yunhui; Li, Xiao; Zhang, Qiang; Lu, Guoping.Characterizations of geothermal springs along the Moxi deep fault in the western Sichuan plateau, China,PHYSICS OF THE EARTH AND PLANETARY INTERIORS, 2017 ,263 (-):12-22 ( SCI收录; EI收录; )[8]. Ling, Chengpeng; Xu, Qiang; Zhang, Qiang; Ran, Jiaxin; Lv, Hongbin.Application of electrical resistivity tomography for investigating the internal structure of a translational landslide and characterizing its groundwater circulation (Kualiangzi landslide, Southwest China),JOURNAL OF APPLIED GEOPHYSICS, 2016 ,131 (-):154-162 ( SCI收录; EI收录; )[9]. 汪亚莉; 许模; 张强; 周中海.云南洱海东侧引水隧道地下水环境负效应探讨,长江科学院院报, 2016 ,33 (2):14-18 ( CSCD收录; )[10]. 赵敏; 张强; 李娜; 孟庆鑫; 陈丽影.银纳米粒子作为二苯并噻吩固相萃取剂的研究,环境工程学报, 2016 ,10 (11):6469-6472 ( CSCD收录; )[11]. 赵瑞; 张强; 许模; 张楠.基于数值模拟的复杂岩溶库区渗漏研究,南水北调与水利科技, 2016 ,14 (3):150-155 ( CSCD收录; )[12]. Li, Yuxin(1); Xia, Qiang(1); Xu, Mo(1); Zhang, Qiang(1).Dynamic simulation of water inflows during tunnel excavation,Modern Tunnelling Technology, 2015 ,52 (5):125-130 and 144 ( EI收录; )[13]. Zhao, Yong; Xu, Mo; Guo, Jian; Zhang, Qiang; Zhao, Hongmei; Kang, Xiaobing; Xia, Qiang.Accumulation characteristics, mechanism, and identification of an ancient translational landslide in China,LANDSLIDES, 2015 ,12 (6):1119-1130 ( SCI收录; EI收录; )[14]. 李豫馨; 夏强; 许模; 张强.隧道开挖过程涌水量的动态模拟,现代隧道技术, 2015 ,52 (5):125- ( CSCD收录; EI收录; )[15]. Yang, Yan Na(1); Zhang, Qiang(1); Xu, Mo(1).Numerical simulation method utilization in water gushing yield forecasting of Paoziling tunnel in Hunan province, China,Applied Mechanics and Materials, 2014 ,580-583 (-):1392-1397 ( EI收录; )12[1]. 多级水流系统耦合下深部岩溶分异研究以川东隔挡式构造区中梁山背斜南段为例.. 2018. [2]. Characterization of Karst Conduit Network Using Long-Distance Tracer Test in Lijiang, Southwestern China.. 2018. [3]. Origin of saline springs in Yanjing, Tibet: Hydrochemical and isotopic characteristics.. 2018. [4]. A dynamic modeling approach to simulate groundwater discharges into a tunnel from typical heterogenous geological media during continuing excavation.. 2018. [5]. Hydrochemical Characteristics and Multivariate Statistical Analysis of Natural Water System: A Case Study in Kangding County, Southwestern China.. 2018. [6]. Evaluation of surface water and groundwater contamination in a MSW landfill area using hydrochemical analysis and electrical resistivity tomography: a case study in Sichuan province, Southwest China.. 2017. [7]. Characterizations of geothermal springs along the Moxi deep fault in the western Sichuan plateau, China.. 2017. [8]. Application of electrical resistivity tomography for investigating the internal structure of a translational landslide and characterizing its groundwater circulation (Kualiangzi landslide, Southwest China).. 2016. [9]. 云南洱海东侧引水隧道地下水环境负效应探讨.. 2016. [10]. 银纳米粒子作为二苯并噻吩固相萃取剂的研究.. 2016. [11]. 基于数值模拟的复杂岩溶库区渗漏研究.. 2016. [12]. Dynamic simulation of water inflows during tunnel excavation.. 2015. [13]. Accumulation characteristics, mechanism, and identification of an ancient translational landslide in China.. 2015. [14]. 隧道开挖过程涌水量的动态模拟.. 2015. [15]. Numerical simulation method utilization in water gushing yield forecasting of Paoziling tunnel in Hunan province, China.. 2014. [1]. 钟玲敏; 许模; 吴明亮; 杨艳娜; 张强. 多级水流系统耦合下深部岩溶分异研究以川东隔挡式构造区中梁山背斜南段为例.:, 2018 [2]. Qi, Jihong; Xu, Mo; Cen, Xinyu; Wang, Lu; Zhang, Qiang. Characterization of Karst Conduit Network Using Long-Distance Tracer Test in Lijiang, Southwestern China.:, 2018 [3]. Qi, Jihong; Li, Xiao; Xu, Mo; Yi, Lei; Zhang, Qiang; Qin, Limao; Li, Kaide. Origin of saline springs in Yanjing, Tibet: Hydrochemical and isotopic characteristics.:, 2018 [4]. Xia, Qiang; Xu, Mo; Zhang, Han; Zhang, Qiang; Xiao, Xian-xuan. A dynamic modeling approach to simulate groundwater discharges into a tunnel from typical heterogenous geological media during continuing excavation.:, 2018 [5]. Zhang, Yunhui; Xu, Mo; Li, Xiao; Qi, Jihong; Zhang, Qiang; Guo, Jian; Yu, Leilei; Zhao, Rui. Hydrochemical Characteristics and Multivariate Statistical Analysis of Natural Water System: A Case Study in Kangding County, Southwestern China.:, 2018 [6]. Ling, Chengpeng; Zhang, Qiang. Evaluation of surface water and groundwater contamination in a MSW landfill area using hydrochemical analysis and electrical resistivity tomography: a case study in Sichuan province, Southwest China.:, 2017 [7]. Qi, Jihong; Xu, Mo; An, Chengjiao; Wu, Mingliang; Zhang, Yunhui; Li, Xiao; Zhang, Qiang; Lu, Guoping. Characterizations of geothermal springs along the Moxi deep fault in the western Sichuan plateau, China.:, 2017 [8]. Ling, Chengpeng; Xu, Qiang; Zhang, Qiang; Ran, Jiaxin; Lv, Hongbin. Application of electrical resistivity tomography for investigating the internal structure of a translational landslide and characterizing its groundwater circulation (Kualiangzi landslide, Southwest China).:, 2016 [9]. 汪亚莉; 许模; 张强; 周中海. 云南洱海东侧引水隧道地下水环境负效应探讨.:, 2016 [10]. 赵敏; 张强; 李娜; 孟庆鑫; 陈丽影. 银纳米粒子作为二苯并噻吩固相萃取剂的研究.:, 2016 [11]. 赵瑞; 张强; 许模; 张楠. 基于数值模拟的复杂岩溶库区渗漏研究.:, 2016 [12]. Li, Yuxin(1); Xia, Qiang(1); Xu, Mo(1); Zhang, Qiang(1). Dynamic simulation of water inflows during tunnel excavation.:, 2015 [13]. Zhao, Yong; Xu, Mo; Guo, Jian; Zhang, Qiang; Zhao, Hongmei; Kang, Xiaobing; Xia, Qiang. Accumulation characteristics, mechanism, and identification of an ancient translational landslide in China.:, 2015 [14]. 李豫馨; 夏强; 许模; 张强. 隧道开挖过程涌水量的动态模拟.:, 2015 [15]. Yang, Yan Na(1); Zhang, Qiang(1); Xu, Mo(1). Numerical simulation method utilization in water gushing yield forecasting of Paoziling tunnel in Hunan province, China.:, 2014 [1]. . 多级水流系统耦合下深部岩溶分异研究以川东隔挡式构造区中梁山背斜南段为例. . , 2021.09.13 [2]. . Characterization of Karst Conduit Network Using Long-Distance Tracer Test in Lijiang, Southwestern China. . , 2021.09.13 [3]. . Origin of saline springs in Yanjing, Tibet: Hydrochemical and isotopic characteristics. . , 2021.09.13 [4]. . A dynamic modeling approach to simulate groundwater discharges into a tunnel from typical heterogenous geological media during continuing excavation. . , 2021.09.13 [5]. . Hydrochemical Characteristics and Multivariate Statistical Analysis of Natural Water System: A Case Study in Kangding County, Southwestern China. . , 2021.09.13 [6]. . Evaluation of surface water and groundwater contamination in a MSW landfill area using hydrochemical analysis and electrical resistivity tomography: a case study in Sichuan province, Southwest China. . , 2021.09.13 [7]. . Characterizations of geothermal springs along the Moxi deep fault in the western Sichuan plateau, China. . , 2021.09.13 [8]. . Application of electrical resistivity tomography for investigating the internal structure of a translational landslide and characterizing its groundwater circulation (Kualiangzi landslide, Southwest China). . , 2021.09.13 [9]. . 云南洱海东侧引水隧道地下水环境负效应探讨. . , 2021.09.13 [10]. . 银纳米粒子作为二苯并噻吩固相萃取剂的研究. . , 2021.09.13 [11]. . 基于数值模拟的复杂岩溶库区渗漏研究. . , 2021.09.13 [12]. . Dynamic simulation of water inflows during tunnel excavation. . , 2021.09.13 [13]. . Accumulation characteristics, mechanism, and identification of an ancient translational landslide in China. . , 2021.09.13 [14]. . 隧道开挖过程涌水量的动态模拟. . , 2021.09.13 [15]. . Numerical simulation method utilization in water gushing yield forecasting of Paoziling tunnel in Hunan province, China. . , 2021.09.13 1[1] .. 多级水流系统耦合下深部岩溶分异研究以川东隔挡式构造区中梁山背斜南段为例.,2021.09.13 [2] .. Characterization of Karst Conduit Network Using Long-Distance Tracer Test in Lijiang, Southwestern China.,2021.09.13 [3] .. Origin of saline springs in Yanjing, Tibet: Hydrochemical and isotopic characteristics.,2021.09.13 [4] .. A dynamic modeling approach to simulate groundwater discharges into a tunnel from typical heterogenous geological media during continuing excavation.,2021.09.13 [5] .. Hydrochemical Characteristics and Multivariate Statistical Analysis of Natural Water System: A Case Study in Kangding County, Southwestern China.,2021.09.13 [6] .. Evaluation of surface water and groundwater contamination in a MSW landfill area using hydrochemical analysis and electrical resistivity tomography: a case study in Sichuan province, Southwest China.,2021.09.13 [7] .. Characterizations of geothermal springs along the Moxi deep fault in the western Sichuan plateau, China.,2021.09.13 [8] .. Application of electrical resistivity tomography for investigating the internal structure of a translational landslide and characterizing its groundwater circulation (Kualiangzi landslide, Southwest China).,2021.09.13 [9] .. 云南洱海东侧引水隧道地下水环境负效应探讨.,2021.09.13 [10] .. 银纳米粒子作为二苯并噻吩固相萃取剂的研究.,2021.09.13 [11] .. 基于数值模拟的复杂岩溶库区渗漏研究.,2021.09.13 [12] .. Dynamic simulation of water inflows during tunnel excavation.,2021.09.13 [13] .. Accumulation characteristics, mechanism, and identification of an ancient translational landslide in China.,2021.09.13 [14] .. 隧道开挖过程涌水量的动态模拟.,2021.09.13 [15] .. Numerical simulation method utilization in water gushing yield forecasting of Paoziling tunnel in Hunan province, China.,2021.09.13 [1]. 多级水流系统耦合下深部岩溶分异研究以川东隔挡式构造区中梁山背斜南段为例.:2021.09 - 2021.09 [2]. Characterization of Karst Conduit Network Using Long-Distance Tracer Test in Lijiang, Southwestern China.:2021.09 - 2021.09 [3]. Origin of saline springs in Yanjing, Tibet: Hydrochemical and isotopic characteristics.:2021.09 - 2021.09 [4]. A dynamic modeling approach to simulate groundwater discharges into a tunnel from typical heterogenous geological media during continuing excavation.:2021.09 - 2021.09 [5]. Hydrochemical Characteristics and Multivariate Statistical Analysis of Natural Water System: A Case Study in Kangding County, Southwestern China.:2021.09 - 2021.09 [6]. Evaluation of surface water and groundwater contamination in a MSW landfill area using hydrochemical analysis and electrical resistivity tomography: a case study in Sichuan province, Southwest China.:2021.09 - 2021.09 [7]. Characterizations of geothermal springs along the Moxi deep fault in the western Sichuan plateau, China.:2021.09 - 2021.09 [8]. Application of electrical resistivity tomography for investigating the internal structure of a translational landslide and characterizing its groundwater circulation (Kualiangzi landslide, Southwest China).:2021.09 - 2021.09 [9]. 云南洱海东侧引水隧道地下水环境负效应探讨.:2021.09 - 2021.09 [10]. 银纳米粒子作为二苯并噻吩固相萃取剂的研究.:2021.09 - 2021.09 [11]. 基于数值模拟的复杂岩溶库区渗漏研究.:2021.09 - 2021.09 [12]. Dynamic simulation of water inflows during tunnel excavation.:2021.09 - 2021.09 [13]. Accumulation characteristics, mechanism, and identification of an ancient translational landslide in China.:2021.09 - 2021.09 [14]. 隧道开挖过程涌水量的动态模拟.:2021.09 - 2021.09 [15]. Numerical simulation method utilization in water gushing yield forecasting of Paoziling tunnel in Hunan province, China.:2021.09 - 2021.09 1出版专著Published Books1211科技奖励Science&Tech Awards1211发明专利Patents[1]. .双层介质水气二相流模拟实验装置及其使用方法,, 2018 , : ()[2]. . 一种量测斥水性土壤接触角试验装置,, 2018 , : ()[3]. .洪积扇地下水渗流模拟装置,, 2016 , : ()[4]. .一种地下水定降深取样装置,, 2016 , : ()[5]. .一种地下水示踪剂投样供给装置,, 2016 , : ()[6]. .一种含泥量高的地下水定降深取样装置,, 2016 , : ()[7]. .一种地下水示踪剂分层投样装置,, 2016 , : ()[8]. .裂隙介质系统渗透张量室内测定装置,, 2016 , : ()[9]. .全方位模拟隧道开挖过程的模型,, 2016 , : ()[10]. .承压井注水试验装置,, 2015 , : ()[11]. .潜水井注水试验装置,, 2015 , : ()[12]. .一种量测斥水性土壤接触角试验装置,, 2015 , : ()[13]. .一种量测土壤毛细水上升高度试验装置,, 2015 , : ()12[1]. 双层介质水气二相流模拟实验装置及其使用方法.. 2018. 国家发明专利 [2]. 一种量测斥水性土壤接触角试验装置.. 2018. 发明专利 [3]. 洪积扇地下水渗流模拟装置.. 2016. 实用新型专利 [4]. 一种地下水定降深取样装置.. 2016. 实用新型专利 [5]. 一种地下水示踪剂投样供给装置.. 2016. 实用新型专利 [6]. 一种含泥量高的地下水定降深取样装置.. 2016. 实用新型专利 [7]. 一种地下水示踪剂分层投样装置.. 2016. 实用新型专利 [8]. 裂隙介质系统渗透张量室内测定装置.. 2016. 实用新型专利 [9]. 全方位模拟隧道开挖过程的模型.. 2016. 发明专利 [10]. 承压井注水试验装置.. 2015. 发明专利 [11]. 潜水井注水试验装置.. 2015. 实用新型专利 [12]. 一种量测斥水性土壤接触角试验装置.. 2015. 实用新型专利 [13]. 一种量测土壤毛细水上升高度试验装置.. 2015. 实用新型专利 [1]. . 双层介质水气二相流模拟实验装置及其使用方法.:, 2018 [2]. . 一种量测斥水性土壤接触角试验装置.:, 2018 [3]. . 洪积扇地下水渗流模拟装置.:, 2016 [4]. . 一种地下水定降深取样装置.:, 2016 [5]. . 一种地下水示踪剂投样供给装置.:, 2016 [6]. . 一种含泥量高的地下水定降深取样装置.:, 2016 [7]. . 一种地下水示踪剂分层投样装置.:, 2016 [8]. . 裂隙介质系统渗透张量室内测定装置.:, 2016 [9]. . 全方位模拟隧道开挖过程的模型.:, 2016 [10]. . 承压井注水试验装置.:, 2015 [11]. . 潜水井注水试验装置.:, 2015 [12]. . 一种量测斥水性土壤接触角试验装置.:, 2015 [13]. . 一种量测土壤毛细水上升高度试验装置.:, 2015 [1]. 肖先煊,许模,杜锋,康小兵,张强,岑鑫雨,张家森,杨术刚,黄宇彬,王欣. 双层介质水气二相流模拟实验装置及其使用方法. 国家发明专利. ZL201510416567.1, 2018.07.27 [2]. 许模,凌睿雯,肖先煊,康小兵,王在敏,张强,漆继红,杨艳娜,夏强. 一种量测斥水性土壤接触角试验装置. 发明专利. ZL201510339019.3, 2018.02.27 [3]. 许模,李潇,漆继红,张强,郭健,杨艳娜,夏强,凌成鹏,赵娟,康小兵,肖先煊,杜锋. 洪积扇地下水渗流模拟装置. 实用新型专利. ZL201620089149.6, 2016.07.06 [4]. 孟庆鑫,赵敏,罗孝芹,张强. 一种地下水定降深取样装置. 实用新型专利. ZL201620088608.9, 2016.06.22 [5]. 罗孝芹,陈丽影,孟庆鑫,张强. 一种地下水示踪剂投样供给装置. 实用新型专利. ZL201620088606.X, 2016.06.22 [6]. 陈丽影,罗孝芹,赵敏,张强. 一种含泥量高的地下水定降深取样装置. 实用新型专利. ZL201620088550.8, 2016.06.22 [7]. 赵敏,孟庆鑫,陈丽影,张强. 一种地下水示踪剂分层投样装置. 实用新型专利. ZL201620088607.4, 2016.06.29 [8]. 许模,张世殊,李潇,黄润太,康小兵,石定国,张强,马金根,夏强,冉从彦,肖先煊,郭健,王在敏,杨艳娜,漆继红. 裂隙介质系统渗透张量室内测定装置. 实用新型专利. ZL201620085893.9, 2016.08.31 [9]. 张强,秦榛,李太双,韦澧配,刘亚飞. 全方位模拟隧道开挖过程的模型. 发明专利. ZL201611107830.X, 2017.02.15 [10]. 肖先煊,许模,李天斌,蔡国军,张强,曾桃敏. 承压井注水试验装置. 发明专利. ZL201410654698.9, 2016.08.17 [11]. 肖先煊,许模,张强,蔡国军,于静. 潜水井注水试验装置. 实用新型专利. ZL201420689178.7, 2015.05.06 [12]. 许模,凌睿雯,肖先煊,康小兵,王在敏,张强,漆继红,杨艳娜,夏强. 一种量测斥水性土壤接触角试验装置. 实用新型专利. ZL201520419445.3, 2015.10.07 [13]. 许模,凌睿雯,肖先煊,康小兵,王在敏,张强,漆继红,杨艳娜,夏强. 一种量测土壤毛细水上升高度试验装置. 实用新型专利. ZL201520417239.9, 2015.10.07 1[1] .. 双层介质水气二相流模拟实验装置及其使用方法.,2018.07.27 [2] .. 一种量测斥水性土壤接触角试验装置.,2018.02.27 [3] .. 洪积扇地下水渗流模拟装置.,2016.07.06 [4] .. 一种地下水定降深取样装置.,2016.06.22 [5] .. 一种地下水示踪剂投样供给装置.,2016.06.22 [6] .. 一种含泥量高的地下水定降深取样装置.,2016.06.22 [7] .. 一种地下水示踪剂分层投样装置.,2016.06.29 [8] .. 裂隙介质系统渗透张量室内测定装置.,2016.08.31 [9] .. 全方位模拟隧道开挖过程的模型.,2017.02.15 [10] .. 承压井注水试验装置.,2016.08.17 [11] .. 潜水井注水试验装置.,2015.05.06 [12] .. 一种量测斥水性土壤接触角试验装置.,2015.10.07 [13] .. 一种量测土壤毛细水上升高度试验装置.,2015.10.07 [1]. 双层介质水气二相流模拟实验装置及其使用方法.:2021.09 - 2021.09 [2]. 一种量测斥水性土壤接触角试验装置.:2021.09 - 2021.09 [3]. 洪积扇地下水渗流模拟装置.:2021.09 - 2021.09 [4]. 一种地下水定降深取样装置.:2021.09 - 2021.09 [5]. 一种地下水示踪剂投样供给装置.:2021.09 - 2021.09 [6]. 一种含泥量高的地下水定降深取样装置.:2021.09 - 2021.09 [7]. 一种地下水示踪剂分层投样装置.:2021.09 - 2021.09 [8]. 裂隙介质系统渗透张量室内测定装置.:2021.09 - 2021.09 [9]. 全方位模拟隧道开挖过程的模型.:2021.09 - 2021.09 [10]. 承压井注水试验装置.:2021.09 - 2021.09 [11]. 潜水井注水试验装置.:2021.09 - 2021.09 [12]. 一种量测斥水性土壤接触角试验装置.:2021.09 - 2021.09 [13]. 一种量测土壤毛细水上升高度试验装置.:2021.09 - 2021.09 1软件著作权Software Copyrights1211科研项目Research Projects[1]. .南充市顺庆区地下商业开发及地下通道BOT项目质量安全抢险救灾工程水文地质咨询,, 2017 , : ()[2]. .贵阳龙洞堡机场三期扩建工程可研阶段水文地质与工程地质测绘,, 2016 , : ()[3]. .贵州织金60万吨/年聚烯烃项目连通示踪试验,, 2016 , : ()[4]. .成都新机场水文地质与工程地质详察专项,, 2016 , : ()[5]. .雅康高速公路飞仙关特长隧道红层高压涌突水机理与处治技术研究及应用,, 2016 , : ()[6]. .甘肃华亭电厂二期地下水环境影响预测模拟分析,, 2016 , : ()[7]. .甘肃酒泉讨赖河冰沟二级水电站库岸稳定性工程地质研究,, 2016 , : ()12[1]. 南充市顺庆区地下商业开发及地下通道BOT项目质量安全抢险救灾工程水文地质咨询.. 2017. 横向委托 [2]. 贵阳龙洞堡机场三期扩建工程可研阶段水文地质与工程地质测绘.. 2016. 横向委托 [3]. 贵州织金60万吨/年聚烯烃项目连通示踪试验.. 2016. 横向委托 [4]. 成都新机场水文地质与工程地质详察专项.. 2016. 横向委托 [5]. 雅康高速公路飞仙关特长隧道红层高压涌突水机理与处治技术研究及应用.. 2016. 横向委托 [6]. 甘肃华亭电厂二期地下水环境影响预测模拟分析.. 2016. 横向委托 [7]. 甘肃酒泉讨赖河冰沟二级水电站库岸稳定性工程地质研究.. 2016. 横向委托 [1]. . 南充市顺庆区地下商业开发及地下通道BOT项目质量安全抢险救灾工程水文地质咨询.:, 2017 [2]. . 贵阳龙洞堡机场三期扩建工程可研阶段水文地质与工程地质测绘.:, 2016 [3]. . 贵州织金60万吨/年聚烯烃项目连通示踪试验.:, 2016 [4]. . 成都新机场水文地质与工程地质详察专项.:, 2016 [5]. . 雅康高速公路飞仙关特长隧道红层高压涌突水机理与处治技术研究及应用.:, 2016 [6]. . 甘肃华亭电厂二期地下水环境影响预测模拟分析.:, 2016 [7]. . 甘肃酒泉讨赖河冰沟二级水电站库岸稳定性工程地质研究.:, 2016 [1]. . 南充市顺庆区地下商业开发及地下通道BOT项目质量安全抢险救灾工程水文地质咨询. 横向委托. , 2021.09.13 [2]. . 贵阳龙洞堡机场三期扩建工程可研阶段水文地质与工程地质测绘. 横向委托. , 2021.09.13 [3]. . 贵州织金60万吨/年聚烯烃项目连通示踪试验. 横向委托. , 2021.09.13 [4]. . 成都新机场水文地质与工程地质详察专项. 横向委托. , 2021.09.13 [5]. . 雅康高速公路飞仙关特长隧道红层高压涌突水机理与处治技术研究及应用. 横向委托. , 2021.09.13 [6]. . 甘肃华亭电厂二期地下水环境影响预测模拟分析. 横向委托. , 2021.09.13 [7]. . 甘肃酒泉讨赖河冰沟二级水电站库岸稳定性工程地质研究. 横向委托. , 2021.09.13 1[1] .. 南充市顺庆区地下商业开发及地下通道BOT项目质量安全抢险救灾工程水文地质咨询.,2021.09.13 [2] .. 贵阳龙洞堡机场三期扩建工程可研阶段水文地质与工程地质测绘.,2021.09.13 [3] .. 贵州织金60万吨/年聚烯烃项目连通示踪试验.,2021.09.13 [4] .. 成都新机场水文地质与工程地质详察专项.,2021.09.13 [5] .. 雅康高速公路飞仙关特长隧道红层高压涌突水机理与处治技术研究及应用.,2021.09.13 [6] .. 甘肃华亭电厂二期地下水环境影响预测模拟分析.,2021.09.13 [7] .. 甘肃酒泉讨赖河冰沟二级水电站库岸稳定性工程地质研究.,2021.09.13 [1]. 南充市顺庆区地下商业开发及地下通道BOT项目质量安全抢险救灾工程水文地质咨询.横向委托:2017.01 - 2017.06 [2]. 贵阳龙洞堡机场三期扩建工程可研阶段水文地质与工程地质测绘.横向委托:2015.01 - 2016.02 [3]. 贵州织金60万吨/年聚烯烃项目连通示踪试验.横向委托:2015.07 - 2015.09 [4]. 成都新机场水文地质与工程地质详察专项.横向委托:2016.03 - 2016.07 [5]. 雅康高速公路飞仙关特长隧道红层高压涌突水机理与处治技术研究及应用.横向委托:2015.12 - 2017.12 [6]. 甘肃华亭电厂二期地下水环境影响预测模拟分析.横向委托:2016.01 - 2016.05 [7]. 甘肃酒泉讨赖河冰沟二级水电站库岸稳定性工程地质研究.横向委托:2016.09 - 2016.12 1相关资源均是用户自行上传分享，仅供学术交流之用?2019 环境与土木工程学院地质灾害防治与地质环境保护国家重点实验室技术支持：应子科技（成都）有限公司