余钊圣 - 浙江大学 - 航空航天学院

个人简介

余钊圣，1974年1月生，浙江淳安人。1996年和1999年分别获浙江大学工程力学系学士和硕士学位（导师为林建忠教授）。1999年至2003年就读于澳大利亚悉尼大学，于2004年获博士学位（导师先后为Nhan Phan-Thien教授和Roger I.Tanner教授）。2003年至2006年先后在荷兰Twente大学（导师John F.Brady教授）和法国石油学院（IFP）作博士后。2006年到浙大力学系工作，并晋升副教授，2012年晋升为教授。曾任欧洲力学学会主办的2013年浸没边界法(IBM)国际研讨会顾问委员会委员。近年来主要从事针对流固耦合问题（如颗粒悬浮流）的虚拟区域方法的研究和应用工作。以核心成员获2012年教育部高校自然科学一等奖、2006年浙江省科技进步一等奖以及2017年浙江省自然科学二等奖。发表SCI论文70余篇，谷歌学术引用2000余次。教学与课程《流体力学》，本科生，秋冬学期《现代流体力学》，研究生，春学期研究与成果研究成果：近年来的研究成果主要集中在针对颗粒悬浮流的虚拟区域方法的研究和应用方面。在方法研究方面，通过对原有虚拟区域方法的改进，提出了一个精度、稳定性和计算效率各方面俱佳的虚拟区域方法，并创新性地将虚拟区域方法推广到了流体和弹性体相互作用、颗粒悬浮流传热、颗粒介电泳、非牛顿颗粒悬浮流（触变性剪切变稀流体、塑性流体）等领域；通过虚拟区域方法的应用，大力增进了对若干典型颗粒悬浮流中颗粒和流体相互作用规律的认识：如颗粒在较高雷诺数管流中的径向迁移规律、颗粒对管流转捩的影响规律、有限尺寸颗粒和壁湍流的相互作用规律、颗粒在粘弹性流体中沉降时的集聚机理、椭球形颗粒在高雷诺数剪切流中的旋转规律等等。共发表SCI论文70余篇，共被谷歌学术引用2000余次。获奖： 1)高克努数颗粒与流场及两相中直接值模拟的研究,浙江省自然科学二等奖,2017,3/5 2）微纳尺度多相与多组分复杂系统中流动机理的研究，教育部自然科学一等奖，2012,3/8 3）多相与非牛顿流体若干问题的研究及应用，浙江省科技进步一等奖，2006,6/13 主要科研项目 1.颗粒增强或削弱湍流的准则和模型研究,国家自然科学基金（面上）,12072319，2021.1-2024.12,62万,主持 2.竖直槽道内有限尺寸颗粒和湍流相互作用机理的数值研究,国家自然科学基金（重大研究计划培育）,91752117，2018.1-2020.12,95万,主持 3.非牛顿流体颗粒悬浮流及雾化射流的研究，国家自然科学基金（重点），11632016，2017.1-2021.12，310万，参与 4.人工肝生物反应器的流体动力学研究，浙江省自然科学基金项目面上，LY17A020005，2017.1-2019.12，8万，主持 5.颗粒悬浮湍槽流的双重直接数值模拟研究，国家自然科学基金（面上），11372275，2014.1-2017.12，76万，主持 6.管流中悬浮颗粒和流体相互作用机理的研究，国家自然科学基金(面上)，11072217，2011.1-2013.12，40万，主持 7.针对流体弹性体相互作用的虚拟区域方法的研究和应用，国家自然科学基金（青年），10602051，2007.1-2009.12，27万，主持招聘信息招博士后一名，年薪16万元以上。

研究领域

流体力学

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）

1.Xia,Y.,Xiong,H.,Yu,Z.,&Zhu,C.(2020).Effects of the collision model in interface-resolved simulations of particle-laden turbulent channel flows.Physics of Fluids,32(10),103303. 2.Liu,B.,Lin,J.,Ku,X.,&Yu,Z.(2020).Elasto-inertial particle migration in a confined simple shear-flow of Giesekus viscoelastic fluids.Particulate Science and Technology,1-12. 3.Zhu,C.,Yu,Z.,Pan,D.,&Shao,X.(2020).Interface-resolved direct numerical simulations of the interactions between spheroidal particles and upward vertical turbulent channel flows.Journal of Fluid Mechanics,891,A6. 4.Liu,Y.,Yu,Z.,Yang,J.,Wassgren,C.,Curtis,J.S.,&Guo,Y.(2020).Discrete Element Method Investigation of Binary Granular Flows with Different Particle Shapes.Energies,13(7),1841. 5.Xia,Y.,Yu,Z.,&Guo,Y.(2020).Interface-resolved numerical simulations of particle-laden turbulent channel flows with spanwise rotation.Physics of Fluids,32(1),013303. 6.Liu,B.,Lin,J.,Ku,X.,&Yu,Z.(2020).Particle migration in bounded shear flow of Giesekus fluids.Journal of Non-Newtonian Fluid Mechanics,276,104233. 7.Zhu,C.,Yu,Z.,Shao,X.,&Deng,J.(2020).Interface-resolved numerical simulations of particle-laden turbulent flows in a vertical channel filled with Bingham fluids.Journal of Fluid Mechanics,883,A43. 8.Xia,Y.,Yu,Z.,&Deng,J.(2019).A fictitious domain method for particulate flows of arbitrary density ratio.Computers&Fluids,193,10429 9.Liu,B.,Lin,J.,Ku,X.,&Yu,Z.(2019).Migration of spherical particles in a confined shear flow of Giesekus fluid.Rheologica Acta,58(10),639-646. 10.Wang,Y.,Yu,Z.,&Lin,J.(2019).Numerical simulations of the motion of ellipsoids in planar Couette flow of Giesekus viscoelastic fluids.Microfluidics and Nanofluidics,23(7),89. 11.Yu,Z.,Wang,P.,Lin,J.,&Hu,H.H.(2019).Equilibrium positions of the elasto-inertial particle migration in rectangular channel flow of Oldroyd-B viscoelastic fluids.Journal of Fluid Mechanics,868,316-340. 12.Yu,Z.,Zhu,C.,Wang Y.,&Shao X.(2019)Effects of finite-size neutrally buoyant particles on the turbulent channel flow at a Reynolds number of 395.Applied Mathematics and Mechanics,40(2),293-304. 13.Lin,Z.,Hess,A.,Yu,Z.,Cai,S.,&Gao,T.(2019).A fluid–structure interaction study of soft robotic swimmer using a fictitious domain/active-strain method.Journal of Computational Physics,376,1138-1155. 14.Xiong,H.B.,Zhang,C.Y.,&Yu,Z.S.(2019).Multiphase SPH modeling of water boiling on hydrophilic and hydrophobic surfaces.International Journal of Heat and Mass Transfer,130,680-692. 15.Zhu,C.,Yu,Z.,&Shao,X.(2018).Interface-resolved direct numerical simulations of the interactions between neutrally buoyant spheroidal particles and turbulent channel flows.Physics of Fluids,30(11),115103. 16.Wang,P.,Yu,Z.,&Lin,J.(2018).Numerical simulations of particle migration in rectangular channel flow of Giesekus viscoelastic fluids.Journal of Non-Newtonian Fluid Mechanics 262,142–148 17.Wang,G.,Abbas,M.,Yu,Z.,Pedrono,A.,&Climent,E.(2018).Transport of finite-size particles in a turbulent Couette flow:the effect of particle shape and inertia.International Journal of Multiphase Flow 107,168–181. 18.Lin,Z.,Yu,Z.,Shao,X.,&Wang,L.P.(2017).Effects of finite-size neutrally buoyant particles on the turbulent flows in a square duct.Physics of Fluids,29(10),103304. 19.Yu,Z.,Lin,Z.,Shao,X.,&Wang,L.P.(2017).Effects of particle-fluid density ratio on the interactions between the turbulent channel flow and finite-size particles.Physical Review E,96(3),033102. 20.Sun,J.,Yu,Z.,&Ye,S.(2017).Hydrodynamics characterization of a choanoid fluidized bed bioreactor used in the bioartificial liver system:Fully resolved simulation with a fictitious domain method.Particuology,32,39-48. 21.Lin,Z.W.,Shao,X.M.,Yu,Z.S.,&Wang,L.P.(2017).Effects of finite-size heavy particles on the turbulent flows in a square duct.Journal of Hydrodynamics,Ser.B,29(2),272-282. 22.Xueming Shao,Xiaolong Zhang,Zhaosheng Yu,Jianzong Lin,Numerical studies on the dynamics of an open triangle in a vertically oscillatory flow,Journal of Fluid Mechanics 788(2016)381-406. 23.Zhaosheng Yu,Zhaowu Lin,Xueming Shao,Lian-Ping Wang,A parallel fictitious domain method for the interface-resolved simulation of particle-laden flows and its application to the turbulent channel flow,Engineering Applications of Computational Fluid Mechanics 10(2016),160-170. 24.Xue-ming SHAO,Xiao-long ZHANG,Zhao-sheng YU.Numerical studies of the hysteresis in locomotion of a passively pitching foil.Journal of Hydrodynamics Ser B(2016),28(3):359-368. 25.Lian-Ping Wang,Cheng Peng,Zhaoli Guo,Zhaosheng Yu,Flow modulation by finite-size neutrally buoyant particles in a turbulent channel flow,Journal of Fluids Engineering 138(2016),041306. 26.Lian-Ping Wang,Cheng Peng,Zhaoli Guo,Zhaosheng Yu,Lattice Boltzmann simulation of particle-laden turbulent channel flow,Computers&Fluids 124(2016)124:226-236. 27.Ye,S.,Shao,X.,Yu,Z,Yu,W.Effects of the particle deformability on the critical separation diameter in the deterministic lateral displacement device.Journal of Fluid Mechanics 743(2014),60-74 28.Yu,Z.,Pan,D.,Lin,J.,Shao,X.,Orientation of a cone settling in a vertical duct.Fluid Dyn.Res.46(2014),015502 29.Pan,D.,Shao,X.,Deng,J.,Yu,Z.Simulations of passive oscillation of a flexible plate in the wake of a cylinder by immersed boundary method.European Journal of Mechanics-B/Fluids 46(2014),17-27 30.Yu,Z.,Wu,T.,Shao,X.,Lin,J.Numerical studies of the effects of large neutrally buoyant particles on the flow instability and transition to turbulence in pipe flow.Physics of Fluids 25(2013),043305 31.Shao,X.,Shi,Y.,Yu,Z.,Combination of the fictitious domain method and the sharp interface method for direct numerical simulation of particulate flows with heat transfer,International Journal of Heat and Mass Transfer,55(2012),6775–6785. 32.Yu,Z.,Wang,Y.,Shao,X.,Numerical simulations of the flapping of a three-dimensional flexible plate in uniform flow.Journal of Sound and Vibration 331(2012),4448–4463. 33.Shao,X.,Wu,T.,Yu,Z.Fully resolved numerical simulation of particle-laden turbulent flow in a horizontal channel at a low Reynolds number.Journal of Fluid Mechanics 693(2012),319-344. 34.Shi,Y.,Yu,Z.,Shao,X.Combination of the direct-forcing fictitious domain method and the sharp interface method for the three-dimensional dielectrophoresis of particles.Powder Technology 210(2011)52-59. 35.Wu,T.,Shao,X.,Yu,Z.Fully resolved numerical simulation of turbulent pipe flows laden with large neutrally-buoyant particles.Journal of Hydrodynamics 23(2011),21-25. 36.Shi,Y.,Yu Z.,Shao,X.Combination of direct-forcing fictitious domain method and sharp interface method for dielectrophoresis of particles.Particuology 8(2010),351-359. 37.Yu,Z.,Shao,X.Direct numerical simulation of particulate flows with a fictitious domain method.International Journal of Multiphase Flow 36(2010),127-134. 38.Yu,Z.,Shao,X.,Lin,J.Numerical computations of the flow in a finite diverging channel.J Zhejiang Univ-Sci A 11(1)(2010),50-60. 39.Shao,X.,Pan,D.,Deng,J.,Yu,Z.Hydrodynamic performance of a fishlike undulating foil in the wake of a cylinder.Phys.Fluids 22(2010),111903. 40.Shao,X.,Pan,D.,Deng,J.,Yu,Z.Numerical studies on the propulsion and wake structures of finite-span flapping wings with different aspect ratios.Journal of Hydrodynamics 22(2010),147-154 41.Yu,Z.,Shao,X.A three-dimensional fictitious domain method for the simulation of fluid-structure interactions.Journal of Hydrodynamics 22(5)SUPPL.(2010),178-183. 42.Sun,B.,Yu,Z.,Shao,X.Inertial migration of a circular particle in nonoscillatory and oscillatory pressure-driven flows at moderately high Reynolds numbers,Fluid Dynamics Research 41(2009),05501. 43.Shao,X.,Yu,Z.,Sun,B.Inertial migration of spherical particles in circular Poiseuille flow at moderately high Reynolds numbers.Phys.Fluids 20(2008),103307 44.Yu,Z.,Shao,X.A direct-forcing fictitious domain method for particulate flows.Journal of Computational Physics 227(2007),292-314. 45.Yu,Z.,Phan-Thien,N.&Tanner,R.I.Rotation of a spheroid in a Couette flow at moderate Reynolds numbers.Physical Review E 76(2007),026310. 46.Yu,Z.,Wachs,A.A fictitious domain method for dynamic simulation of particle sedimentation in Bingham fluids.J.Non-Newtonian Fluid Mech.145(2007),78-91. 47.Yu,Z.,Shao,X.&Tanner,R.I.Dynamic simulation of shear-induced particle migration in a two-dimensional circular couette device,Chinese Journal of Chemical Engineering,15(2007),333-338. 48.Deng,J.,Shao,X.,Yu,Z.Hydrodynamic studies on two traveling wavy foils in tandem arrangement,Physics of Fluid 19(2007),113104. 49.Yu,Z.,Shao,X.&Wachs,A.A fictitious domain method for particulate flows with heat transfer.Journal of Computational Physics 217(2006),424-452. 50.Yu,Z.,Wachs,A.&Peysson Y.Numerical simulation of particle sedimentation in shear-thinning fluids with a fictitious domain method.Journal of Non-Newtonian Fluid Mechanics 136(2006),126-139. 51.Yu,Z.A DLM/FD method for fluid/flexible-body interactions.Journal of Computational Physics 207(2005),1-27. 52.Shao,X.,Liu,Y.&Yu,Z.Interactions between two sedimenting particles with different sizes.Applied Mathematics and Mechanics 26(2005),407-414. 53.Lin,J.,Wang,Y.&Yu,Z.The stress-microstructure relationship in an evolving mixing layer of fiber suspensions.Acta Mechanica Sinica 21(2005),16-23. 54.Yu,Z.,Phan-Thien,N.&Tanner,R.I.Dynamic simulation of sphere motion in a vertical tube.Journal of Fluid Mechanics 518(2004),61-93. 55.Yu,Z.&Phan-Thien,N.Three-Dimensional rollup of a viscoelastic mixing layer.Journal of Fluid Mechanics 500(2004),29-53. 56.Shao,X.&Yu Z.Sedimentation of circular particles in Oldroyd-B fluid,Journal of Hydrodynamics 16(2004),254-259. 57.Shao,X.,Lin,J.&Yu,Z.Sedimentation of a single particle between two parallel walls.Journal of Zhejiang University:Science 5(2004),111-116. 58.Lin,J.,Yu,Z.&Shao,X.Coherent structures in the mixing layers of a non-Newtonian fluid.Journal of Turbulence 5(2004),Art.No.039. 59.You,Z.,Lin,J.&Yu,Z.Hydrodynamic instability of fiber suspensions in channel flows.Fluid Dynamics Research 34(2004),251-271. 60.Lin,J.,Zhang,W.&Yu,Z.Numerical research on the orientation distribution of fibers immersed in laminar and turbulent pipe flows.Journal of Aerosol Science 35(2004),63-82. 61.Lin,J.,Shao,X.,Shi,X.&Yu,Z.Study on the interaction of sedimenting cylindrical particles in still fluid.Acta Mechanica Sinica 20(2004),32-45. 62.Shao,X.,Lin,J.&Yu,Z.Direct numerical simulation of the motion of circular pollutant particles in Newtonian fluid.Journal of Environmental Science 15(2003),685-690. 63.Lin,J.,Shi,X.&Yu,Z.The motion of fibers in an evolving mixing layer.International Journal of Multiphase flow 29(2003),1355-1372. 64.Shi,X.,Lin,J.&Yu,Z.Discontinuous Galerkin spectral element lattice Boltzmann method on triangular element.International Journal for Numerical Methods in Fluids 42(2003),1249-1261. 65.Lin,J.,Zhang,Z.&Yu,Z.Investigation of the interactions between two contact fibers in the fiber suspensions.Journal of Materials Science 38(2003),1499-1505. 66.Yu,Z.,Phan-Thien,N.,Fan,Y.&Tanner,R.I.Viscoelastic mobility problem of a system of particles.Journal of Non-Newtonian Fluid Mech.104(2002),87-124. 67.Lin,J.,Yu,Z.&Shao,X.Numerical research on the coherent structures in a mixing layer with cross-shear.Journal of Fluids and Structures 16(2002),487-495. 68.Lin,J.,Wang,Y.,Wang,W.&Yu.Z.Numerical simulation of the sedimentation of cylindrical pollutant particles in fluid.Journal of Environmental Science 14(2002),433-438. 69.Lin,J.,Shi,X.,Yu,Z.&Shao,X.Three-dimensional pairing of coherent structures in a plane mixing layer.Journal of Hydrodynamics 14(2002),1-6. 70.Shao,X.,Lin,J.&Yu,Z.Research on coherent structures in a mixing layer of the FENE-P polymer solution.Applied Mathematics and Mechanics 22(2001),304-311. 71.Lin,J.,Shi,X&Yu,Z.Research on the effect of particle of two-dimensional shear flow.Applied Mathematics and Mechanics 21(2000),855-860. 72.Yu,Z.,Lin,J.&Fan,X.Numerical simulation of interactions between rigid rod-like polymers and coherent structures in a mixing layer.Journal of Non-Newtonian Fluid Mech.83(1999),1-18. 73.Yu,Z.&Lin,J.Formation and evolution of the streamwise vortices in mixing layers.Acta Mechanica Sinica 15(1999),15-22. 74.Yu,Z.&Lin,J.Numerical research on the coherent structure in the visco-elastic second-order mixing layers.Applied Mathematics and Mechanics 19(1998),717-723. 75.Lin,J.,Yu,Z.&Shao,X.Numerical flow visualization of a mixing layer.Journal of Hydrodynamics 10(1998),45-53.

学术兼职

现任中国力学学会流体力学专业委员会多相流专业组组长，浙江省力学学会流体力学专业委员会主任，浙江大学流体工程研究所所长。