副教授 博导

E-mail: panjianwen@tsinghua.edu.cn

电话：+86-10-62786017

传真：+86-10-62782159

通信地址：清华大学水利水电工程系

邮编：100084

2005.9-2010.7 清华大学 水利水电工程系 博士

2001.9-2005.7 清华大学 水利水电工程系 本科

2012.11-至今 清华大学水利系 助理研究员，助理教授，副教授

2011.7-2012.7 英国Swansea大学Zienkiewicz计算工程中心 访问学者

2010.7-2012.11 清华大学 博士后

海岛开发与保护；

结构动力学。

大坝长期运行抗震安全；

混凝土坝结构健康监测；

国家重点研发计划项目子课题 高寒区高混凝土坝全生命期智能监控平台研发与技术集成 2018.7-2021.6

北京市人才培养资助计划青年骨干项目 2017.1-2018.12

国家重点研发计划项目子课题 复杂工程力学高性能应用软件系统研制，2016.7-2020.12

水电水利规划设计总院科技课题 水电工程大坝寿命评估体系及对策措施研究 2016.10-2019.12

国家自然科学基金面上项目 高拱坝坝踵真实工作机制宏细观研究与安全评价方法 （2016.1-2019.12）

国家自然科学基金青年项目 混凝土热-化学-损伤耦合模型与高坝碱骨料反应开裂研究 （2013. 1-2015.12）

清华大学自主研究计划 混凝土大规模储能关键理论和技术研究 （2015.10-2018.9）

中国水利学会“青年人才助力计划”项目 （2015.12-2017.6）

2019年 中国水力发电工程学会水工抗震防灾学术会议优秀论文奖

2017年 中国电力科学技术一等奖

2017年 水力发电科学技术一等奖

2017年 四川省科技进步一等奖 

2016年 教育部技术发明一等奖

2013年 大禹水利科学技术一等奖

2012年 国家科技进步二等奖

2011年 教育部科技进步一等奖

2010年 清华大学优秀博士学位论文一等奖

2010年 清华大学优秀博士毕业生

[1] Hui Jiang, Chu-Han Zhang*, Yuan-De Zhou, Jian-Wen Pan, Jin-Ting Wang, Ming-Xin Wu, Qi-Xiang Fan. Mechanism for large-scale canyon deformations due to filling of large reservoir of hydropower project. Scientific Reports. 2020, 10, 12155. 

[2] Liu Wenju, Pan Jianwen*, Ren Yisha, Wu Zhigang, Wang Jinting. Coupling prediction model for long-term displacements of arch dams based on long short term memory network. Structural Control and Health Monitoring. 2020; e2548. 

[3] Ai-Yun Jin, Jian-Wen Pan, Jin-Ting Wang*, Xiu-LiDu. A spectrum-based earthquake record truncation method for nonlinear dynamic analysis of arch dams. Soil Dynamics and Earthquake Engineering, Volume 132, May 2020, 106104. 

[4] Huite Wu, Jianwen Pan*, Jinting Wang. Nano-scale structure and mechanical properties of ASR products under saturated and dry conditions. Scientific Reports. 2020, 10:9187.

[5] Shuai Li, Jian-Wen Pan, Guang-Heng Luo, Jin-Ting Wang*. Improvements in the HHT for the modal parameter identification of structures with closely spaced modes. Journal of Earthquake Engineering. 2020, DOI: 10.1080/13632469.2019.1686091

[6] Wenju Liu, Jianwen Pan*. Filling capacity evaluation of self-compacting concrete in rock-filled concrete. Materials 2020, 13(1), 108.

[7] Jianwen Pan*, Jinting Wang. Effect of abutment movements on nonlinear seismic response of an arch dam. Structure and Infrastructure Engineering. 2020, 16(8): 1106-1120.

[8] Wei Wang, Jianwen Pan*, Feng Jin, Chunyang Cui, Bohao Wang. Effect of cement matrix on mechanical properties of cemented granular materials. Powder Technology. 2019, 350: 107-116. 

[9] Ai-Yun Jin, Jian-Wen Pan, Jin-Ting Wang*, Chong Zhang. Effect of foundation models on seismic response of arch dams. Engineering Structures. 2019, 188: 578-590.

[10] Jianwen Pan*. Seismic damage behavior of gravity dams under the effect of concrete inhomogeneity. Journal of Earthquake Engineering. 2019, doi: 10.1080/13632469.2019.1581675

[11] Wei Wang, Jianwen Pan*, Feng Jin. Mechanical behavior of cemented granular aggregates under uniaxial compression. Journal of Materials in Civil Engineering ASCE, 2019, 31(5): 04019047. 

[12] Wang YY, Jin F, Pan JW*, Xie YT, Wang BH. Grating-box test: A testing method for filling performance evaluation of self-compacting mortar in granular packs. Construction and Building Materials. 2018, 181:358-68.

[13] Jianwen Pan*, Renxin Zou, Feng Jin. Experimental study on specific heat of concrete at high temperature and its influence on thermal energy storage. Energies, 2017, 10, 33.

[14] Chao Wu, Jianwen Pan*, Wen Zhong, Feng Jin. Testing of high thermal cycling stability of low strength concrete as a thermal energy storage material. Applied Sciences, 2016, 6(10), 271.

[15] Jianwen Pan*, Yanjie Xu, Feng Jin, Jinting Wang. Seismic stability assessment of an arch dam-foundation system. Earthquake Engineering and Engineering Vibration, 2015, 14(3): 517-526. 

[16] Jianwen Pan*, Yanjie Xu, Feng Jin. Seismic performance assessment of arch dams using incremental nonlinear dynamic analysis. European Journal of Environmental and Civil Engineering, 2015, 19(3): 305-326.

[17] Jianwen Pan*, Yanjie Xu, Feng Jin, Chuhan Zhang. A unified approach for long-term behavior and seismic response of AAR-affected concrete dams. Soil Dynamics and Earthquake Engineering, 2014, 63: 193–202.

[18] J. W. Pan*, Y. T. Feng, F. Jin, C. H. Zhang, D. R. J. Owen. Comparison of different fracture modelling approaches to gravity dam failure. Engineering Computations, 2014, 31(1): 18-32.

[19] Pan Jianwen*, Y. T. Feng, Jin Feng, Zhang Chuhan, Zhang Bingyin. Chemo-damage modeling and cracking analysis of AAR-affected concrete dams. SCIENCE CHINA Technological Sciences. 2013, 56:1449-1457.

[20] Jianwen Pan*, Y. T. Feng, Feng Jin, Chuhan Zhang. Numerical prediction of swelling in concrete arch dams affected by alkali-aggregate reaction. European Journal of Environmental and Civil Engineering. 2013, 17(4): 231-247. 

[21] Jianwen Pan*, Y T Feng, Feng Jin, Yanjie Xu, Qicheng Sun, Chuhan Zhang, David Roger Jones Owen. Meso-scale particle modeling of concrete deterioration caused by alkali-aggregate reaction. International Journal for Numerical and Analytical Methods in Geomechanics. 2013, 37: 2690–2705. 

[22] Pan Jianwen, Zhang Chuhan*, Xu Yanjie, Jin Feng. A comparative study of the different procedures for seismic cracking analysis of concrete dams. Soil Dynamics and Earthquake Engineering, 2011, 31: 1594–1606. 

[23] Jin Feng, Hu Wei, Pan Jianwen, Yang Jian, Wang Jinting, Zhang Chuhan*. Comparative study procedure for the safety evaluation of high arch dams. Computers and Geotechnics, 2011, 38(3): 306-317. 

[24] Pan Jianwen, Zhang Chuhan*, Wang Jinting, Xu Yanjie. Seismic damage-cracking analysis of arch dams using different earthquake input mechanisms. Science in China Series E: Technological Sciences, 2009, 52(2): 518-529. 

[25] Zhang Chuhan*, Pan Jianwen, Wang Jinting. Influence of seismic input mechanisms and radiation damping on arch dam response. Soil Dynamics and Earthquake Engineering. 2009, 29(9): 1282-1293.