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。
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)
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.
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