贵州大学 管理入口
首页  地质工程系  师资队伍

陈世万

发布时间:2020-04-25
浏览次数:12550

 

 


姓名:陈世万

专业:地质工程

职称:教授,硕士生导师

邮箱:swchen@gzu.edu.cn

1. 简介

贵州大学三全育人改革服务示范岗,贵州大学未来科技创新团队(新能源地下储能创新团队)负责人,入选贵州省青年拔尖人才。指导学生获中国国际大学生创新等大赛国家级银奖、省部级金奖(一等奖)5项。聚焦高放废物地质处置、岩溶区特色抽水蓄能等领域科学和工程技术问题开展研究,主持国家级科研项目3项,发表SCI/EI 检索论文30余篇,出版专著/教材2部,授权国家发明专利7项。获中国电建集团、中国大坝工程学会等科技奖一等奖1项,二等奖2项。

2. 研究领域与方向

研究领域为地质工程,研究方向为岩体多场响应,致力于解决岩溶抽水蓄能/压缩空气储能等新能源储能的岩石力学与工程问题,以及岩溶区地下水污染防治及水资源保护问题。

3. 学习与工作经历

2009.9~2013.6:西南科技大学,采矿工程,学士

2013.9~2018.6:重庆大学,矿业工程,博士

2014.9~2018.6:中国科学院武汉岩土力学研究所联合培养

2018.9~2018.11:受聘于中国科学院武汉岩土力学研究所流变组

2018.11~至今:贵州大学资源与环境科学学院任教

4. 学术任职及奖励

中国岩石力学与工程学会废物地下处置专业委员会  副秘书长

贵州省岩石力学与工程学会副秘书长

5. 近年主持承担的主要科研项目

1. 主持国家自然科学基金:温度-应力历程对花岗岩裂隙渗透性影响机理研究;

2.主持国家自然科学基金:基于稀疏微震台站岩体崩塌主控裂纹扩展机制转化及失稳前兆信息研究;

3.  国家重点研发计划课题子课题负责人:有色金属矿区地下水污染防控技术体系

4.  主持贵州省科技支撑计划课题:岩溶洼地建库地下水气作用机理及工程灾变防控关键技术研究;

5.  贵州省科技重大专项课题技术负责人:岩溶地区抽水蓄能关键技术研究与应用;

6.  主持岩土力学与工程国家重点实验室开放课题:高放废物地质处置温度条件下北山花岗岩热--力耦合特性研究;

7.  贵州省科技重大专项课题负责人:岩溶区水-土重金属基准构建与协同精准防控技术研发及应用

8.  承担企业委托科研项目:岩溶洼地建库资源评价与水--地质结构耦合作用机理研究

9.  承担企业委托科研项目:赤泥堆场渗滤液减量化及处理工艺研究

10.  承担企业委托科研项目:储气洞库疲劳损伤理论与模型试验研究

11.  承担企业委托科研项目:某磷矿深部开采岩爆风险性及稳定性评价

12.  承担企业委托科研项目:大面积铺盖防渗水气压力作用与防渗-压力控制技术服务

6. 学术成果:代表性学术论文

  [1] Xudong Lan, Shiwan Chen*, Yuhang Zhu, Kexun Zheng, Ruyun Wu, Jing Wang. Online Measurement of Water Transportation in Typical Rock Based on Low-Field Nuclear Magnetic Resonance Monitoring. Rock Mechanics and Rock Engineering.2026.

  [2] Dan Yang, Shiwan Chen*, Zhilian Liao, Bailin Hu, Shili Xiao. Study on the acoustic emission and warning information of layered limestone with fracture. Engineering Failure Analysis. 183(2026), 110224.

  [3] 吴如芸,陈世万*,兰旭东,.处置温度下北山花岗岩裂隙剪切变形-渗流特性研究[J/OL].岩土力学,2026,(08):1-22[2026-04-27].https://doi.org/10.16285/j.rsm.2025.1019.

  [4] Jiahua Li , Shiwan Chen* , Ruyun Wu , Yuhang Zhu, Senyou An. A novel semi-theoretical model for hydraulic conductivity prediction considering temperature effect. Case Studies in Thermal Engineering 71 (2025)2025.01 106188.

  [5] Yang Fu, ShiwanChen*, Kexun Zheng, Yunlong Zhang. Development and Application of a Laboratory Simulation Device for the Underground Compressed Air Energy Storage System. ACS Omega August 30, 2025.

  [6] 马蓝建,陈世万*,蔡良钧,.岩溶区尾矿库渗漏通道探查及其三维可视化——以贵阳市扎塘赤泥库为例[J/OL].中国岩溶,1-21

  [7] 姬之皓, 陈世万, 吴佼基, 余会云, 吴攀, 马蓝建. 岩溶区地下水污染水力通道注浆封堵现场试验研究[J]. 中国岩溶,2025.

  [8] Wu Ruyun, Chen Shiwan*, Wang Guibin, Zhu Yuhang, Lan Xudong. Development and application of a thermo-hydro-mechanical coupling test system for a single rock fracture. Measurement, 242 (2025), 11619

  [9] Yu Bo, Tai Shengping, Zheng Kexun, Chen Shiwan et al. (2024) Air pressure of a reservoir constructed in karst sinkholes. Journal of Mountain Science 21(3).

  [10] Guibin Wang, Shiwan Chen*, Kexun Zheng. Experimental study on mechanical properties of Beishan granite in the mild temperature range[J]. Case Studies in Thermal Engineering 52 (2023) 103685.

  [11] 廖之恋,陈世万*,杨贵,余琪,李本云. 拉裂-坠落式岩质崩塌失稳过程声信号特征模拟试验研究,自然灾害学报,326.

  [12] Jiahua Li, Shiwan Chen*, Fubo Yang, Qi He, Gui Yang. Experimental study of hydraulic properties of the granite fracture under heating-cooling cycles [J]. International Journal of Heat and Mass Transfer, 220,2024,125003.

  [13] Wu Ruyun, Chen Shiwan*, Yang Fu. et al. Experimental Study on the Thermal Healing Effect on Stress-Damaged Granite. Rock Mechanics and Rock Engineering (2023).

  [14] Wang Guibin , Wang Ju , Chen Shiwan* et al .Evaluation of EDZ characterization technology for URL based on field investigation at BET[J].Tunnelling and underground space technology, 2024, 143(01):105168.1-105168.11.

  [15] Jiaoji WuShiwan Chen*Kexun ZhengLang TianShengping TaiYingyi HuangJiahua LiJianlong Ye. Monitoring Methodology Study of a Reservoir Built on the Karst Depression: A Large Scale Laboratory Simulation Test. ACS omega,2023,8(16).

  [16] Qi He, Shiwan Chen*, Guibin Wang, Shuangying Zuo, Fubo Yang. Evolution of thermal cracking, temperature distribution and deformation at mineral scale of Beishan granite during heating and cooling. International Communications in Heat and Mass Transfer. Volume 144, May 2023, 106781

  [17] Fubo Yang, Shiwan Chen*, Kexun Zheng,Yunlei Tian, Qi He. Study on the mechanism of mechanical property strengthening of Beishan granite under mild temperature condition, Case Studies in Thermal Engineering.

  [18] Tian Yunlei, Chen Shiwan*, Zuo Shuangying, Yang Fubo, He Qi, Zheng Kexun (2022) Experimental study on thermo-mechanical properties of Beishan granite under mild temperature. Case Studies in Thermal Engineering 37 doi: https://doi.org/ 10.1016/j.csite.2022.102271

  [19] Chen Shiwan, Liang Feng, Zuo Shaungying, Wu Daoyong. Evolution of deformation property and strength components mobilization for thermally treated Beishan granite under compression. Journal of Central South University (2021) 28: 219234. DOI: 10.1007/s11771-021-4598-9

  [20] Chen Shiwan, Wang Guibin, Zuo Shuangying, et al. Experimental Investigation on Microstructure and Permeability of Thermally Treated Beishan Granite. Journal of Testing and Evaluation[J], 2021,49:881-895

  [21] 陈世万,杨春和,王贵宾,李二兵,陈亮.北山坑探设施开挖损伤区现场声发射监测试验研究[J].岩土力学,2017,38(S2):349-359.

  [22] Chen, Shiwan, Yang Chunhe, Wang Guibin, et al. Similarity assessment of acoustic emission signals and its application in source localization[J]. Ultrasonics, 2017, 75:36-45.

  [23] Chen, Shiwan, Yang Chunhe, and Wang Guibin. Evolution of thermal damage and permeability of Beishan granite. Applied Thermal Engineering 110(2017):1533-1542.