基本信息 姓名:何涛 |
研究兴趣
流固耦合、有限元方法、计算流体力学
教育背景
哲学博士 土木工程 university of birmingham
工学博士 结构工程 上海交通大学
工学硕士 结构工程 华中科技大学
工学学士 土木工程 武汉科技大学
工作经历
2016至今 上海师范大学 建筑工程学院 副研究员
2017-2018 爱丁堡龙比亚大学 工程与建筑环境学院访问学者
2014-2016 上海师范大学 建筑工程学院讲师
2007-2008 中国地震局地震研究所助理工程师
主持项目
[04] 基于特征线分裂的流固耦合分区半隐式算法研究及应用,上海市自然科学基金面上项目,2019-2022
[03] 风敏感结构流固耦合计算新方法与风致振动机理研究,国家自然科学基金青年项目,2016-2018
[02] 基于ale-cbs有限元技术的流固耦合分区算法研究,上海高校青年教师培养资助计划,2016-2018
[01] 竖向地震动对高耸结构的性能影响研究,中国地震局地震研究所所长基金,2007-2008
荣誉与奖励
editor’s pick,physics of fluids,2020
managing-editor-featured paper,international journal of applied mechanics,2015
pgta博士奖学金,university of birmingham, 2014
博士研究生国家奖学金,2013
首届全国空间结构博士生学术论坛优秀论文奖,2012
赵朱木兰奖学金,2012
上海交通大学第四期博士生论坛优秀报告奖,2011
光华奖学金,2010
教学工作
研究生课程:《计算结构力学》、《专业英语》
本科生课程:《土木工程测量》、《力学与生活》
人才培养
指导研究生获得:高水平地方高校建设一流研究生教育项目、国家奖学金、一等/二等学业奖学金、上海市优秀毕业生和校优秀学生干部
指导本科生获得:国家级/上海市级大创项目和校优秀实习毕业生
代表性论文
[35] he t*, lu fx, ma x. a reduced smoothed integration scheme of the cell-based smoothed finite element method for solving fluid-structure interaction on severely distorted meshes. international journal for numerical methods in fluids 2024; doi: 10.1002/fld.5289.
[34] he t. cbs-based partitioned semi-implicit coupling algorithms for fluid-structure interaction: a decade review. archives of computational methods in engineering 2024; 31(3): 1721-1748. (accepted as is)
[33] he t*, ma x. an edge-based smoothed finite element method for semi-implicit coupling of unsteady viscoelastic fluid-structure interaction. computers and structures 2023; 281: 107028.
[32] he t*, yao wj, zhang xy. an edge-based smoothed finite element framework for partitioned simulation of vortex-induced vibration problems. international journal for numerical methods in fluids 2022; 94(11): 1863-1887.
[31] he t*, zhang xy, yao wj. an edge-based smoothed finite-element method for vortex-induced vibration in generalized newtonian fluids. journal of engineering mechanics 2022; 148(11): 04022069.
[30] he t. modeling fluid-structure interaction with the edge-based smoothed finite element method. journal of computational physics 2022; 460: 111171.
[29] he t. a stabilized cell-based smoothed finite element method against severe mesh distortion in non-newtonian fluid-structure interaction. international journal for numerical methods in engineering 2022; 123(9): 2162-2184.
[28] he t. on the edge-based smoothed finite element approximation of viscoelastic fluid flows. international journal for numerical methods in fluids 2022; 94(5): 423-442.
[27] he t. cell-based smoothed finite-element framework for strongly coupled non-newtonian fluid-structure interaction. journal of engineering mechanics 2021; 147(10): 04021062.
[26] he t. stabilization of a smoothed finite element semi-implicit coupling scheme for viscoelastic fluid-structure interaction. journal of non-newtonian fluid mechanics 2021; 292: 104545.
[25] he t. extending the cell-based smoothed finite element method into strongly coupled fluid-thermal-structure interaction. international journal for numerical methods in fluids 2021; 93(4): 1269-1291.
[24] he t. cell-based smoothed finite element method for simulating vortex-induced vibration of multiple bluff bodies. journal of fluids and structures 2020; 98: 103140.
[23] he t. an efficient selective cell-based smoothed finite element approach to fluid-structure interaction. physics of fluids 2020; 32(6): 067102. (editor's pick)
[22] he t. a truly mesh-distortion-enabled implementation of cell-based smoothed finite element method for incompressible fluid flows with fixed and moving boundaries. international journal for numerical methods in engineering 2020; 121(14): 3227-3248.
[21] he t. a strongly-coupled cell-based smoothed finite element solver for unsteady viscoelastic fluid-structure interaction. computers and structures 2020; 235: 106264.
[20] he t. a cell-based smoothed cbs finite element formulation for computing the oldroyd-b fluid flow. journal of non-newtonian fluid mechanics 2019; 272: 104162.
[19] he t. the cell-based smoothed finite element method for viscoelastic fluid flows using fractional-step schemes. computers and structures 2019; 222: 133-147.
[18] he t, wang t*. a three-field smoothed formulation for partitioned fluid-structure interaction via nonlinear block-gauss-seidel procedure. numerical heat transfer, part b: fundamentals 2019; 75(3): 198-216. (accepted as is)
[17] he t. insight into the cell-based smoothed finite element method for convection-dominated flows. computers and structures 2019; 212: 215-224.
[16] he t*, zhang hx, zhang k. a smoothed finite element approach for computational fluid dynamics: applications to incompressible flows and fluid-structure interaction. computational mechanics 2018; 62(5): 1037-1057.
[15] he t. a three-field smoothed formulation for prediction of large-displacement fluid-structure interaction problems via the explicit relaxed interface coupling (eric) scheme. communications in computational physics 2018; 24(3): 742-763.
[14] he t*, yang j, baniotopoulos c. improving the cbs-based partitioned semi-implicit coupling algorithm for fluid-structure interaction. international journal for numerical methods in fluids 2018; 87(9): 463-486.
[13] he t. towards straightforward use of cell-based smoothed finite element method in fluid-structure interaction. ocean engineering 2018; 157: 350-363.
[12] he t*, wang t, zhang hx. the use of artificial compressibility to improve partitioned semi-implicit fsi coupling within the classical chorin-témam projection framework. computers and fluids 2018; 166: 64-77.
[11] he t*, zhang k. an overview of the combined interface boundary condition method for fluid-structure interaction. archives of computational methods in engineering 2017; 24(4): 891-934.
[10] he t, zhang k, wang t*. ac-cbs-based partitioned semi-implicit coupling algorithm for fluid-structure interaction using stabilized second-order pressure scheme. communications in computational physics 2017; 21(5): 1449-1474.
[09] wang t, he t*, li hj. effects of deformation of elastic constraints on free vibration characteristics of cantilever bernoulli-euler beams. structural engineering and mechanics 2016; 59(6): 1139-1153.
[08] he t. a cbs-based partitioned semi-implicit coupling scheme for fluid-structure interaction using mcibc method. computer methods in applied mechanics and engineering 2016; 298: 252-278.
[07] he t*, zhang k. combined interface boundary condition method for fluid-structure interaction: some improvements and extensions. ocean engineering 2015; 109: 243-255.
[06] he t. semi-implicit coupling of cs-fem and fem for the interaction between a geometrically nonlinear solid and an incompressible fluid. international journal of computational methods 2015; 12(5): 1550025.
[05] he t. on a partitioned strong coupling algorithm for modeling fluid-structure interaction. international journal of applied mechanics 2015; 7(2): 1550021. (managing-editor-featured paper)
[04] he t. partitioned coupling strategies for fluid-structure interaction with large displacement: explicit, implicit and semi-implicit schemes. wind and structures 2015; 20(3): 423-448.
[03] he t. a partitioned implicit coupling strategy for incompressible flow past an oscillating cylinder. international journal of computational methods 2015; 12(2): 1550012.
[02] he t, zhou d*, han zl, tu jh, ma j. partitioned subiterative coupling schemes for aeroelasticity using combined interface boundary condition method. international journal of computational fluid dynamics 2014; 28(6-10): 272-300.
[01] he t, zhou d*, bao y. combined interface boundary condition method for fluid-rigid body interaction. computer methods in applied mechanics and engineering 2012; 223-224: 81-102.
学术服务
受邀为以下sci期刊审稿人:
[01] journal of fluid mechanics
[02] computer methods in applied mechanics and engineering
[03] international journal for numerical methods in engineering
[04] international journal for numerical methods in fluids
[05] journal of non-newtonian fluid mechanics
[06] computers and fluids
[07] journal of fluids and structures
[08] physics of fluids
[09] international journal of heat and fluid flow
[10] applied mathematical modelling
[11] mathematics and computers in simulation
[12] applied mathematics and computation
[13] computers and mathematics with applications
[14] international journal of mechanical sciences
[15] acta mechanica
[16] journal of engineering mechanics
[17] ocean engineering
[18] archive of applied mechanics
[19] international communications in heat and mass transfer
[20] engineering with computers
[21] computer methods in biomechanics and biomedical engineering
[22] engineering computations
[23] engineering analysis with boundary elements
[24] computer modeling in engineering & sciences
[25] communications in computational physics
[26] structural engineering and mechanics
[27] international journal of applied mechanics
[28] wind and structures
[29] earthquakes and structures
[30] chinese journal of aeronautics
[31] scientia iranica
[32] ain shams engineering journal
受邀为以下国际会议审稿人:
[01] proceedings of the 7th international and 45th national conference on fluid mechanics and fluid power (fmfp), iit bombay, india, 2018
[02] proceedings of the asme 2016 35th international conference on ocean, offshore and arctic engineering (omae 2016), busan, korea, 2016