王海涛 - 清华大学 - 核能与新能源技术研究院

个人简介

教育背景博士 200507 清华大学力学硕士 200207 清华大学力学学士 200007 清华大学工程力学工作履历 200508 - 200811 清华大学核研院助理研究员 200812 - 201311 清华大学核研院副研究员 201105 - 至今清华大学核研院研究室主任 201312 - 201606 清华大学核研院研究员 201401 - 至今清华大学核研院研究所副所长 201607 - 至今清华大学核研院长聘教授/院长助理学术兼职 202007 - 202306 中国核学会核设备分会副理事长 201811 - 202110 中国核工业勘察设计协会核工业结构专业委员会常务委员研究概况 201701 –202012 多模块高温气冷堆设计优化与标准化研究国家科技重大专项 201401 –202012 高温气冷堆核动力厂法规、导则及安全审查技术研究国家科技重大专项 201112 –201412 高温堆结构特性及地震动力响应研究国家科技重大专项 201101 –201312 核电站土-结相互作用分析的新型大规模时空域边界元法国家自然科学基金 200701 –200912 核级石墨复杂微观结构的大规模精确仿真方法研究国家自然科学基金奖励与荣誉 2016 中国核能行业协会科学技术奖一等核电厂地震安全关键技术研究

研究领域

主要从事高温气冷堆先进核能技术、反应堆结构力学和计算力学方法研究，研究领域包括核电厂地震安全、高温气冷堆设计安全要求、高温气冷堆石墨辐照结构安全和快速边界元法等

近期论文

查看导师最新文章（温馨提示：请注意重名现象，建议点开原文通过作者单位确认）

Lu F, Chen FB, Wang HT, et al. One implementation of vented low pressure containment for HTR .Nuclear Engineering and Design, 2020, 356: 110412. Wang XX, Zhou Q, Shi L, Wang HT, Li XT. An Integral Numerical Analysis of Impact of a Commercial Aircraft on Nuclear Containment .Science and Technology of Nuclear Installations, 2019 : 9417954. Zhang TC, Schut H, Li ZC, Wang HT, Zhang ZM, He M. Positron annihilation and nano-indentation analysis of irradiation effects on the microstructure and hardening of A508-3 steels used in Chinese HTGR .Journal of Nuclear Science and Technology, 2018, 55(4): 418-423. 姜卓尔, 王海涛, 赵军, 史力. 高温气冷堆压力容器侧向支承地震易损性的敏感性分析 .核动力工程, 2018, 39(6): 53-58. Lu HD, Wang HT, Wang HT, et al. FM-DBEM Simulation of 3D Microvoid and Microcrack Graphite Models .Science and Technology of Nuclear Installations, 2017, 1071709. Wang XX, Zhou Q, Zhu KX, Shi L, Li XT, Wang HT. Analysis of Seismic Soil-Structure Interaction for a Nuclear Power Plant (HTR-10) .Science and Technology of Nuclear Installations, 2017,2358403. 薄文, 李正操, 王海涛, 史力. 高温气冷堆压力容器开孔形状优化的边界元法研究 .核动力工程, 2016, 37(4): 24-27. Liu LQ, Wang HT. A RIM-based Time-domain Boundary Element Method for Three-Dimensional Non-homogeneous Wave Propagations .CMES-Computer Modeling in Engineering & Sciences, 2015, 109(4): 303-324. Fang X, Yu SY, Wang HT, et al. The mechanical behavior and reliability prediction of the HTR graphite component at various temperature and neutron dose ranges .Nuclear Engineering and Design, 2014, 276: 9-18. Wang HT, Yao ZH. Large-scale thermal analysis of fiber composites using a line-inclusion model by the fast boundary element method .Engineering Analysis with Boundary Elements, 2013, 37: 319-326. Fang X, Wang HT, Yu SY, et al. The various creep models for irradiation behavior of nuclear graphite .Nuclear Engineering and Design, 2012, 242: 19-25. Yu SY, Fang X, Wang HT, Li CF. Failure probability study of HTR graphite component using microstructure-based model .Nuclear Engineering and Design, 2012, 253: 192–199. 何佳, 王海涛. 用于窄带叠加人工时程模拟的一种窄带构造算法 .核动力工程, 2012, 33(3): 69-73. Wang HT, Yao ZH. A fast multipole dual boundary element method for the three-dimensional crack problems .CMES-Computer Modeling in Engineering & Sciences, 2011, 72(2): 115-147. 王海涛, 何树延, 张征明等. 同时满足反应谱匹配和功率谱密度包络要求的人工时程生成算法 .核动力工程, 2009, 30(1): 112-115. Wang HT, Yu SY. Uncertainties of creep model in stress analysis and life prediction of graphite component .Nuclear Engineering and Design, 2008, 238(9): 2256-2260. Wang HT, Hall G, Yu SY, et al. Numerical simulation of graphite properties using X-ray tomography and fast multipole boundary element method .CMES-Computer Modeling in Engineering & Sciences, 2008, 37(2): 153-174. Wang HT, Lei T, Li J, et al. A parallel fast multipole accelerated integral equation scheme for 3D Stokes equations .International Journal for Numerical Methods in Engineering, 2007, 70(7): 812-839.