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个人简介

“百人计划”研究员,博士生导师。 教育经历: 2006.09-2011.07北京大学工学院,流体力学博士(导师:陈十一院士) 2007.09-2009.09美国Johns Hopkins University(公派交流),合作导师:A.Prosperetti(美国工程院院士) 2002.09-2006.07北京大学力学与工程科学系,理论与应用力学学士 工作经历: 2016.07--至今浙江大学工程力学系“百人计划”研究员 2014.05-2016.07北京大学工学院助理研究员 2011.07-2014.04北京大学工学院/数学学院博士后 教学工作 1)流体力学前沿问题专题讲座,博士生课,每年秋学期 2)湍流的计算方法,博士生课,每年春学期 工作研究项目 主持和参与的科研项目: 1)湍流理论与数值模拟,国家自然科学基金优秀青年基金(No.11822208),2019-2021,主持 2)含离散物质两相壁湍流中的湍流结构和流动阻力调控机理研究,国家自然科学基金重大研究计划重点项目(No.91852205),2019-2022,子课题负责人 3)旋转壁湍流的统计规律及机理研究,国家自然科学基金面上项目(No.11772297),2018-2021,主持 4)壁湍流约束大涡模拟方法的进一步研究,国家自然科学基金青年基金(No.11302006),2014-2016,主持 5)高能量极端条件下可压缩湍流的计算方法,建模及机理研究,国家自然科学基金委重大重点项目(No.91130001),2012-2015,参与 奖励荣誉 百人计划,浙江大学,2016 国家自然科学基金优秀青年基金,2018 浙江省“151人才工程”第二层次(直列),2018 学术交流(讲座报告) 会议报告(*表征报告人) 25.夏振华*,“旋转壁湍流的一些研究进展”,湍流与非线性力学研讨会,2018年12月21-22日,北京 24.夏振华*,'Turbulent statistics in spanwise rotating turbulent channel flows and plane Couette flows',浙江省力学学会年会,2018年12月1日,杭州 23.Zhenhua Xia*,'Multiple States in spanwise rotating plane Couette flow',Chinese Conference on Computational Mechanics in conjunction with International Symposium on Computational Mechanics′2018 Aug 19th to 23rd,2018,NANJING,CHINA(keynote speach) 22.Zhenhua Xia*,X.I.A.Yang,Yu Lv,'Law of the wall for channel with spanwise rotation',71st Annual meeting of APS/DFD,Atlanta,USA,Nov.18-20,2018 21.Zhenhua Xia*,“Multiple States in spanwise rotating plane Couette flow”,12th European Fluid Mechanics Conference,Vienna,September 9-13,2018 20.夏振华*,“旋转平板Couette湍流中的多态现象”,国家自然科学基金重大研究计划“湍流结构的生成演化与作用机理”暨“湍流结构与气动热/力”专题研讨会,天津,2018年7月7-9日 19.夏振华*,“壁湍流的约束大涡模拟方法”,中科院力学所学术交流,2017 18.夏振华*,史一蓬,陈十一,“不可压缩展向旋转槽道湍流的统计规律”,2017年庆新春流体力学研讨会,深圳,17年1月21-22日 17.Kun Yang,Zhenhua Xia*,Yipeng Shi,'GEOMETRIC PROPERTIES OF VORTEX LINES IN ISOTROPIC TURBULENCE',16th European turbulence conference,21-24,Aug.,2017,Stockholm,Sweden 16.夏振华*,史一蓬,“旋转槽道湍流中的统计规律”,第九届全国流体力学学术会议,江苏南京,2016年10月20-23日 15.Z.Xia*,Y.Shi and S.Chen,“Modulation to the compressible homogenous turbulence by heavy point particles:Effect of particles’density”,The American Physical Society,68th Annual Meeting of the Division of Fluid Dynamics,Boston,MA,USA,November 22-24,2015. 14.J.Gai,Z.Xia*and Q.Cai,“Direct numerical simulation of weakly spanwise-rotating turbulent Couette flow”,15th European turbulence conference,25-28,Aug.,2015,Delft,The Netherlands. 13.夏振华*,“约束大涡模拟方法:原理及其在时间转捩槽道湍流中应用”,2015年流体力学新春研讨会,深圳,2015年2月27-28日 12.夏振华*,“约束大涡模拟方法的基本原理以及其在时间转捩槽道流中的应用”,湍流与复杂系统国家重点实验室2014年年会,北京,2015年1月10-11日。 11.夏振华*,“时间发展的槽道流的CLES模拟”,2014年湍流与流动稳定性专题研讨会,上海,2014年11月14-16日。 10.Z.Xia*,Y.Zhao,Y.Shi,Z.Xiao and S.Chen,“Constrained large-eddy simulation:the principle and its assessment in temporal transitional channel flow”,Univ.Twente,The Netherlands,2014.11.09-11. 9.Z.Xia*,Y.Zhao,Y.Shi,Z.Xiao and S.Chen,“Constrained large-eddy simulation:the principle and its assessment in temporal transitional channel flow”,Max Plank Institute for Dynamics and Self-organization,Germany,2014.11.04-06. 8.夏振华*,肖左利,史一蓬,陈十一,“圆柱绕流的数值模拟研究:马赫数和雷诺数的影响”,第八届全国流体力学学术会议,兰州,2014年9月18-21日。 7.Z.Xia*,Y.Shi,Z.Xiao and S.Chen,“Mach number effects on compressible flow past a circular cylinderat high Reynolds number”,The American Physical Society,66th Annual Meeting of the Division of Fluid Dynamics,Pittsburgh,Pennsylvania,USA,November 24-26,2013. 6.Z.Xia*,R.Hong,Y.Shi,Z.Xiao and S.Chen,'Constrained large eddy simulation of transonic flow past a circular cylinder at Re=2e5',the 5th international symposium on physics of fluids(ISPF5),Changbaishan,China,10-13,June,2013. 5.Z.Xia*,Y.Shi,Z.Xiao and S.Chen,“Constrained Large Eddy Simulation of Wall-bounded Turbulent Flows with Massive Separations”,The American Physical Society,65th Annual Meeting of the Division of Fluid Dynamics,San Diego,CA,USA,November 18-20,2012. 4.Z.Xia*,R.Hong,Y.Shi,Z.Xiao and S.Chen.周期丘陵湍流的计算:数值格式和湍流方法的比较。第15届全国计算流体力学会议,烟台,山东,2012年8月。 3.Z.Xia*,“The Validation of Constrained Large eddy simulation method in wall-bounded turbulent flow”,Presented in“New directions in Turbulence”Program in Kavli Institute for Theoretical Physics China at the Chinese Academy of Sciences(2012-03-12—2012-04-20),April 5th,2012,Beijing. 2.Z.Xia*,Y.Shi,J.Wang,Z.Xiao,Y.Yang and S.Chen,“Constrained Large Eddy Simulation of Separated Turbulent Flows”,The American Physical Society,64th Annual Meeting of the Division of Fluid Dynamics,Baltimore,MD,USA,November 20-22,2011. 1.Z.Xia*,R.Hong,Y.Shi,Z.Xiao and S.Chen,“Constrained Large-Eddy Simulation of Separated Flow in a Channel with Streamwise-Periodic Constrictions”,the 4th international symposium on physics of fluids(ISPF4),Lijiang,China,13-16,June,2011. 学术交流: 2018年8月2日,北京航空航天大学 2018年11月9日-17日,美国Penn State University 2017年8月25-9月11日,瑞典KTH 招聘信息 博士和硕士研究生 课题组每年计划招收博士和硕士研究生1-2人,研究方向为湍流理论与数值模拟、计算流体力学、空气动力学等方向。 热忱欢迎力学等相关专业的学子来信咨询课题详细情况。 博士后招聘 课题组拟招收1-2名博士后研究人员,合作导师:夏振华研究员(陈十一院士团队) 拟从事的研究方向: 1.可压缩湍流的数值模拟、模型及机理研究 2.旋转壁湍流的模型、机理研究 招聘要求: 1.已具有力学或相关专业博士学位、或近期内能顺利完成博士论文答辩并取得博士学位者。 2.具有计算流体力学(CFD)、湍流等相关学科专业背景;具有较强的数学、力学基础和分析问题、解决问题的能力;具有良好的英文基础及撰写英文科技论文的能力。 3.对科研工作兴趣浓厚,工作认真努力,有责任心。 4.具有较强的科研创新能力和团队协作能力。 待遇条件: 1.待遇按浙江大学标准执行(http://saa.zju.edu.cn/office/redir.php?catalog_id=14338&object_id=58626),(年薪12-26万); 2.良好的科研及工作环境; 3.课题组将协助申请人申请国家博士后基金,国家自然科学基金等; 4.工作期间将与陈十一院士在北大、南科大的团队开展紧密合作。

研究领域

湍流理论与数值模拟 计算流体力学 空气动力学

近期论文

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论文列表(*为通讯作者) S.Zhang,Z.Xia*,Y.Shi and S.Chen*,'A two-dimensional-three-component model for spanwise rotating plane Poiseuille_x001d_flow',J.Fluid Mech.,vol.880:478-496,2019.DOI:10.1017/jfm.2019.715 Z.Xia*,Y.Shi,M.Wan,C.Sun,Q.Cai and S.Chen*,'Role of the large-scale structures in spanwise rotating plane Couette flow with multiple states',Phys.Rev.Fluids,vol.4:104606,2019.DOI:10.1103/PhysRevFluids.4.104606 Y.Huang,Z.Xia*,M.Wan,Y.Shi and S.Chen*,'Hysteresis behavior in spanwise rotating plane Couette flow with varying rotation rates',Phys.Rev.Fluids,vol.4:052401(R),2019.DOI:10.1103/PhysRevFluids.4.052401 Z.Xia,'Multiple states in turbulence'(In Chinese).Chin.Sci.Bull.,vol.64:373-383,2019.DOI:10.1360/N972018-01042 Z.Yang,L.H.Chen*,Y.Li,Z.Xia and C.X.Wang,'Numerical investigation of heat transfer characteristics in a shell-and-tube latent heat thermal energy storage system',Eng.Proc.,vol.160:475-482,2019.DOI:10.1016/j.egypro.2019.02.195 Z.Xia*,Y.Shi,Q.Cai and J.Gai,'Dissipation function in turbulent plane Poiseuille and Couette flows subject to spanwise rotations',Appl.Math.Mech.-Engl.Ed.,vol.40(2):185-192,2019.DOI:10.1007/s10483-019-2422-6 P.Zhang,Z.Xia and Q.Cai*,'Direct Numerical Simulation of a Freely Falling Thick Disk',Adv.Appl.Math.Mech.,vol.11(3):608-618,2019.DOI:10.4208/aamm.2018.s05 L.Li,Y.Shi,S.Zhang,L.-P.Wang and Z.Xia*,'On the Comparison Between Lattice Boltzmann Methods and Spectral Methods for DNS of Incompressible Turbulent Channel Flows on Small Domain Size',Adv.Appl.Math.Mech.,vol.11(3):598-607,2019.DOI:10.4208/aamm.2018.s04 X.Yang,Z.Xia,J.Lee,Y.Lv and J.L.Yuan,'Mean flow scaling in a spanwise rotating channel',Annu.Res.Briefs 2018,CTR Stanford University,pp:285-297. P.Zhang,Z.Xia*and Q.Cai,'Numerical simulation of h-adaptive immersed boundary method for freely falling disks',Mod.Phys.Lett.B,vol.32:1840002,2018.DOI:10.1142/S021798491840002X Z.Jiang*,Z.Xia*,Y.Shi and S.Chen,'Large eddy simulation of spanwise rotating turbulent channel flow with dynamic variants of eddy viscosity model',Phys.Fluids,vol.30:040909,2018.DOI:10.1063/1.5011236 Z.Xia*,G.Brethouwer and S.Chen,'High-order moments of streamwise fluctuations in a turbulent channel flow with spanwise rotation',Phys.Rev.Fluids,vol.3:022601(R),2018.DOI:10.1103/PhysRevFluids.3.022601 Z.Xia*,Y.Shi,Q.Cai,M.Wan and S.Chen*,'Multiple states in turbulent plane Couette flow with spanwise rotation',J.Fluid Mech.,vol.837:477-490,2018.DOI:10.1017/jfm.2017.869 P.Zhang,Z.Xia*and Q.Cai*,'An h-adaptive implicit immersed boundary-lattice Boltzmann flux solver based on JASMIN AMR package',Comput.&Fluids,vol.161:14-22,2018.DOI:10.1016/j.compfluid.2017.11.003 S.Hu,C.Zhou*,Z.Xia and S.Chen,'Large Eddy Simulation and CDNS Investigation of T106C Low-Pressure Turbine',J.Fluid Eng.,vol.140,p.011108,2018.DOI:10.1115/1.4037489 J.Gai,Z.Liu,J.Luo,Q.Cai*and Z.Xia*,'Penta-decomposition of instantaneous field in spanwise-rotating turbulent plane Couette flow',Acta Phys.Sin.,vol.65(24),p.244703,2016.DOI:10.7498/aps.65.244703 Q.Cai,J.Gai,Z.Sun and Z.Xia*,“Quad-decomposition of the velocity field in spanwise-rotating turbulent plane Couette flows”,Int.J.Nonlin.Sci.Num.Simu.vol 17(6),pp.305-314,2016.DOI:10.1515/ijnsns-2015-0195 J.Gai,Z.Xia*,Q.Cai and S.Chen,“Turbulent statistics and flow structures in spanwise-rotating turbulent plane Couette flows”,Phys.Rev.Fluids,vol.1,p.054401,2016.DOI:10.1103/PhysRevFluids.1.054401 Y.Shi,Z.Xia*and S.Chen,“A new identification method in sampled quadrant analysis for wall-bounded turbulence”,Phys.Fluids,vol.28,p.061702,2016.DOI:10.1063/1.4954057 Z.Jiang,Z.Xia*,Y.Shi and S.Chen,“Large-eddy simulation of plane channel flow with Vreman model”,J.Turbul.,vol.17(8),pp.807-822,2016.DOI:10.1080/14685248.2016.1181268 J.Luo,Y.Duan and Z.Xia,“Transonic Flow Reconstructions by an Adaptive POD Hybrid Surrogate Model”,Acta Physica Sinica,vol.65(12),p.124702,2016.DOI:10.7498/aps.65.124702 Z.Xia*,Z.Xiao,Y.Shi and S.Chen,“Mach Number Effect of Compressible Flow Around a Circular Cylinder”,AIAA J.,vol.54(6),pp.2004-2009,2016 DOI:10.2514/1.J054420 Z.Xia*,Y.Shi,Q.Zhang and S.Chen,“Modulation to compressible homogenous turbulence by heavy point particles,Part I:Effect of particles’density”,Phys.Fluids,vol.28,p.016103,2016.DOI:10.1063/1.4939794 Z.Xia*,Y.Shi and S.Chen,“Direct numerical simulation of turbulent channel flow with spanwise rotation”,J.Fluid Mech.,vol.788,pp.42-56,2016.DOI:10.1017/jfm.2015.717 Kun,Yang,Z.Xia,Y.Shi and S.Chen,“Effect of oscillation structures on inertial-range intermittence and topology in turbulent field”,Commun.Comput.Phys.,vol.19(1),pp.251-272,2016.DOI:10.4208/cicp.120515.280815a Z.Xia*,Y.Shi and Y.Zhao,“Assessment of the shear-improved Smagorinsky model in laminar-turbulent transitional channel flow”,J.Turbul.,vol.16(10),pp.925-936,2015.DOI:10.1080/14685248.2015.1043131 Z.Xia*,Y.Shi,Y.Chen,M.Wang and S.Chen,“Comparisons of different implementations of turbulence modelling in lattice Boltzmann method”,J.Turbul.,vol.16(1),pp.67-80,2015.DOI:10.1080/14685248.2014.954709 J.Gai,Z.Xia*and Q.Cai,“Effects of the computational domain on the secondary flow in turbulent plane Couette flow”,Chinese Physics B,vol.24(10),p.104701,2015.DOI:10.1088/1674-1056/24/10/104701 S.Chen,Z.Xia,J.Wang and Y.Yang,“Recent Progress in Compressible turbulence”,Acta Mech.Sin.,vol.31(3),pp.275-291,2015.DOI:10.1007/s10409-015-0459-9 Y.Zhao,Z.Xia*,Y.Shi,Z.Xiao and S.Chen,“Constrained large-eddy simulation of laminar-turbulent transition in channel flow”,Phys.Fluids,vol.26,p.095103,2014.DOI:10.1063/1.4895589 S.Chen,M.Wang and Z.Xia,“Multiscale fluid mechanics and modeling”,Procedia IUTAM,vol.10,pp.100-114,2014.DOI:10.1016/j.piutam.2014.01.012 D.Li,S.Li,Y.Xue,Y.Yang,W.Su,Z.Xia,Y.Shi,H.Lin and H.Duan,“The effect of slip distribution on flow past a circular cylinder”,J.Fluids&Structs.,vol.51,pp.211-224,2014.DOI:10.1016/j.jfluidstructs.2014.07.017 R.Hong,Z.Xia,Y.Shi,Z.Xiao and S.Chen,“Constrained Large Eddy Simulation of compressible flow past a circular cylinder”,Commun.Comput.Phys.,vol.15(2),pp.388-421,2014.DOI:10.4208/cicp.050513.270513a Z.Xiao,Y.Shi,Z.Xia and S.Chen,“Comment on``A hybrid subgrid-scale model constrained by Reynolds stress'[Phys.Fluids 25,110805(2013)]”,Phys.Fluids,vol.26,p.059101,2014.DOI:10.1063/1.4876908 Z.Xia,Y.Shi,R.Hong,Z.Xiao and S.Chen,“Constrained Large-Eddy Simulation of Separated Flow in a Channel with Streamwise-Periodic Constrictions”.J.Turbul.,vol.14(1),pp.1-21,2013.(Top 10 most downloaded papers from Fluid Mechanics journals of Taylor&Francis company in 2013)DOI:10.1080/14685248.2012.740161 S.Chen,Y.Chen,Z.Xia,K.Qu,Y.Shi,Z.Xiao,Q.Liu,Q.Cai,F.Liu,C.Lee,R.Zhang and J.Cai,“Constrained Large-Eddy Simulation and Detached Eddy Simulation of Flow Past a Commercial Aircraft at 14 Degrees Angle of Attack”.Science China:Physics,Mechanics&Astronomy,vol.56(2),pp.270-276,2013.(cover)DOI:10.1007/s11433-013-4990-z Y.Chen,Q.Cai,Z.Xia,M.Wang and S.Chen,“Momentum exchange method in lattice Boltzmann simulations of particle-fluid interactions”,Phys.Rev.E.,vol.88,p.013303,2013.DOI:10.1103/PhysRevE.88.013303 S.Chen,Z.Xia,S.Pei,J.Wang,Y.Yang,Z.Xiao and Y.Shi,“Reynolds-stress-constrained large eddy simulation of wall-bounded turbulent flows”,J.Fluid Mech.,vol.703,pp.1-28,2012.DOI:10.1017/jfm.2012.150 陈瑜,夏振华,蔡庆东.基于树网格的格子Boltzmann方法以及曲线边界的处理。Chinese J.Comput.Phys.vol.27(1),pp.23-30,2010. Z.Xia,K.W.Connington,S.Rapaka,P.Yue,J.Feng,and S.Chen,“Flow patterns in the sedimentation of an elliptical particle,”J.Fluid Mech.,vol.625,pp.249–272,2009.DOI:10.1017/S0022112008005521 会议论文列表: S.Hu,C.Zhou*,Z.Xia and S.Chen,'LES and CDNS Investigation of T106C Low-Pressure Turbine',Proceedings of ASME Turbo Expo 2016:Turbomachinery Technical Conference and Exposition,June 13–17,2016,Seoul,South Korea,GT2016-56838. Z.Xia,Z.Xiao,Y.Shi and S.Chen,'Constrained Large-Eddy Simulation for Aerodynamics',In S.Girimaji et al.(eds.),Progress in Hybrid RANS-LES Modelling,Notes on Numerical Fluid Mechanics and Multidisciplinary Design 130,pp.105-115,2015.DOI:10.1007/978-3-319-15141-0_8 S.Chen,Y.Shi,Z.Xiao,Z.Xia and J.Wang,'Constrained Large Eddy Simulation of Wall-Bounded Turbulent Flows',In S.Fu et al.(Eds.):Progress in Hybrid RANS-LES Modelling,NNFM 117,pp.121–130,2012.

学术兼职

期刊编委: 《空气动力学学报》、《实验流体力学》 青年编委 专业期刊审稿人: J. Fluid Mech. Phys. Fluids J. Comput. Phys. AIAA J. J. Turbul. Commun. Comput. Phys. ASME J. Fluids Eng. Theoretical and Applied Mechanics Letters, Int. J. Nonlin.Sci. Num. Simulation Sci. Rep. Acta Phys. Sini.

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