Priv.-Doz. Dr. Habil. Yan Jin DFG-Heisenberg Fellow Personal data Sex: male Wedlock: married Nationality: P. R. China Birthday: 28.01.1974 Permanent Residentship: European Union Affiliation: Zentrum für angewandte Raumfahrttechnologie und Mikrogravitation (ZARM), Universität Bremen Tel: +49 179 4098320 Address: Hainholzfeld 1, D-21075, Hamburg Email: [email protected]; [email protected] https://www.zarm.uni-bremen.de/en/research/fluid-dynamics/multiscale-modelling-and-simulation-d fg-heisenberg-program.html; https://www.researchgate.net/profile/Yan_Jin12?ev=hdr_xprf Research/teaching interest - fluid mechanics, thermodynamics, heat and mass transfer, biological and physiological simulation, molecular dynamics, turbulence modeling, turbomachinery, combustion; Education 01.03.2009 ~ 10.12.2014 Habilitation, Institute of Thermo-fluid Dynamics, Hamburg University of Technology. venia legendi: Thermo-fluid dynamics Habilitation seminar: “Skin friction drag reduction methods, state of the art” Habilitation: “RANS and DNS solutions for turbulent flows: Their interrelation and analysis based on the second law of thermodynamics” 01.09.1996~01.06.2002 PhD and Master Degree, Department of Thermal Engineering, Tsinghua university, P. R. China PhD dissertation: “Aeroelastical Study of Fluid-Structure Interaction Problems in Turbomachineries” 01.09.1992~01.07.1996 Bachelor Degree, Department of Thermal Engineering, Harbin Institute of Technology, P. R. China Yan Jin, ZARM, University of Bremen, +49 1794098320, [email protected] Work Experience 01.08.2017-today DFG-Heisenberg fellow, Leader of the research group “Multiscale Modeling and Simulation”, Center of Applied Space Technology and Microgravity (ZARM), University of Bremen, Germany 01.03.2009~31.07.2017 Privatdozent (since 2015) / Group leader, Institute of Thermo-fluid Dynamics, Hamburg University of Technology, Germany Numerical study of the mixed convection in a heated chamber with an advanced similarity method (DFG): Asymptotic method. Direct numerical simulation of the turbulent flow and heat transfer problem in rough wall channels (DFG): Lattice-Boltzmann method and Finite volume method. Direct numerical simulation of the turbulent flow in porous media (DFG): Lattice-Boltzmann method and Finite volume method. 17.3.2008~01.03.2009 Post doctor, Department of Chemical Engineering, Monash University, Australia Studying the multi-phase flow and the drying process of milk droplets in a spray dryer (Diary Innovation Australia). 25.03.2007~15.3.2008 Post doctor, Department of Mechanical and Aeronautical Engineering, UC DAVIS, USA Numerical simulation of the oscillation and the combustion of liquid droplets (NASA). 01.04.2003~25.03.2007 Post doctor, Institute of fluid dynamics, Munich University of Technology, Germany Combustion and heat transfer of solid propellants in an airbag inflator (BMW); Numerical simulation of the interaction between rocket nozzle and base flow (DLR); Numerical simulation of the combustion in a liquid rocket engine，Astrium company (EADS). 01.05.2002~30.03.2003 Software engineer, Hi-key Tech, Fluent Company, P. R. China Teaching experience Giving the following lectures to students: Special topics on fluid dynamics, TU Hamburg-Harburg, 2012-2017 Turbulent flows and modeling, TU Hamburg-Harburg, 2016-2017 Turbulence modeling / Computational fluid dynamics, TU Hamburg-Harburg, 2011. Supervising master and project thesis: “Turbulent Scalar Transport in Arrays of Spheres, A DNS Study”, Master thesis, TU 2 Yan Jin, ZARM, University of Bremen, +49 1794098320, [email protected] Hamburg-Harburg, 2017 “Direct numerical simulation of interfacial mass transfer of a deformable single bubble”, Master thesis, TU Hamburg-Harburg, 2017 “Numerical simulation of the turbulent flows in a differentially heated chamber", Master thesis, TU Hamburg-Harburg, 2015 “Topology optimization of turbulent flows with an adjoint method”, project thesis, TU Hamburg-Harburg, 2014 “Numerical simulation of convection in a two-dimensional porous medium", project thesis, TU Hamburg-Harburg, 2015 “Drag reduction by shark-skin like walls”, Master thesis, TU Hamburg-Harburg, 2012 …… CFD software training: FLUENT, 2002 Experience of applying for funding Principle applicant DFG Heisenberg Stipendium: "Parameter Extension Simulation (PES) und Large Scale Motion Simulation (LSMS) turbulenter Strömungen", 3+2 years, approved, 2016. Chinese Scholarship Council (CSC) PhD Program: “Direct numerical simulation of the turbulent flows in porous media with multiple length scales”, approved, 2017. DFG project: “Direct Numerical Simulation and Modeling of Turbulent Convection in Porous Media”, under review, 2018. DFG project, “Influence of Turbulent Structures on Mass Transfer at Fluidic Interfaces”, revised proposal ready for resubmission, 2018. BMWI (through DLR) project, “Numerical and experimental study of gastric digestion of foods in a stomach model under normal and reduced gravity”, in process, 2018. CSC-DFG post doctor program, “Direct Numerical Simulation (DNS) of Turbulent Flows past Wind Turbine Airfoils”, under review, 2018 - Main participant DFG project, “Strömungen in Kanälen mit rauen Wänden: DNS-Lösungen zur Validierung des RANS-Dissipationsmodells” (Priciple applicant: Prof. H. Herwig), 2010. DFG project, “Grundlegende Untersuchungen zur Turbulenz bei Strömungen durch poröse Medien” (Priciple applicant: Prof. H. Herwig), 2014. Other experiences Guest editor of the journal “Entropy”; Reviewer of the following international journals: Computers and fluids Drying technology ASME Journal of Heat Transfer International Journal of Thermal Sciences European Journal of Mechanics - B/Fluids AIAA Journal of Thermophysics and Heat Transfer Combustion Theory and Modeling 3 Yan Jin, ZARM, University of Bremen, +49 1794098320, [email protected] … Language skills Chinese (native language); English; German. References Prof. Dr.-Ing. habil. Heinz Herwig Prof. Dr.-Ing. habil. Rainer Friedrich Institute for Thermo-Fluid Dynamics Institute of Fluid Mechanics Hamburg University of Technology, Germany TU Muenchen, Germany Email: [email protected] Boltzmannstr. 15, D-85748 Garching, Germany Tel.: ++49 (0)40-42878-3044 Email: [email protected] Tel.: +49 89 289 16144 Prof. Xiao Dong Chen Fax.: +49 89 289 16145 Department of Chemical Engineering Monash University, Australia Prof. Yuan Xin Email: [email protected] Department of Thermal Engineering, Tsinghua Tel.: +61 3 9905 9344 University Email: [email protected] Prof. Benjamin Shaw Tel: +86 10 62794163 Department of Mechanical and Aeronautical Engineering, University of California, Davis, Prof. Andrey V. Kuznetsov USA Department of Mechanical and Aerospace Email: [email protected] Engineering, Tel: +1 530 752 4130 North Carolina State University, Raleigh, North Carolina 27695-7910, USA Email: [email protected] 4 Yan Jin, ZARM, University of Bremen, +49 1794098320, [email protected] Selected publications * denotes the corresponding author [1] Y. Jin*, A.V. Kuznetsov, “Turbulence modeling for flows in wall bounded porous media: An analysis based on direct numerical simulations”, Physics of Fluids, 29, 2017, 045102. [2] Y. Jin*, J. Du, Z.Y. Li and H.W. Zhang, “Second-Law Analysis of irreversible losses in gas turbines”, Entropy, 19, 2017, 470. [3] M.F. Uth, Y. Jin*, A.V. Kuznetsov and H. Herwig, “A DNS study on the possibility of macroscopic turbulence in porous media: effects of different solid matrix geometries, solid boundaries, and two porosity scales”, Physics of Fluids, 28, 2016, 065101. [4] Y. Jin, M.F. Uth, A.V. Kuznetsov and H. Herwig, “Numerical investigation of the possibility of macroscopic turbulence in porous media: a DNS study”, Journal of Fluid Mechanics, 766, 2015, 76-103. [5] Y. Jin, M.F. Uth and H. Herwig, “Structure of a turbulent flow through plane channels with smooth and rough walls: An analysis based on high resolution DNS results”, Computers and Fluids, 107(31), 2015, 77-88. [6] Y. Jin and H. Herwig, “Turbulent flow in channels with shark skin surfaces: Entropy generation and its physical significance”, International Journal of Heat and Mass Transfer, 70, 2014, 10-22. [7] Y. Jin* and X. D. Chen, “Entropy production during the drying process of milk droplets in an industrial spray dryer”, International Journal of Thermal Sciences, 50, 2011, 615-625. [8] Y. Jin* and B. Shaw, “Computational modeling of n-heptane droplet combustion in air-diluent environments under reduced-gravity”, International Journal of Heat and Mass Transfer, 53, 2010, 5782-5791. [9] Y. Jin and X. D. Chen, “A fundamental model of milk particle deposition incorporated in CFD simulations of an industrial milk spray dryers”, Drying Technology, 28, 2010, 960-971. [10] Y. Jin and X. D. Chen, “Numerical Study of the Behavior of Different Size Particles in an Industrial Spray Dryer”, Drying Technology, 27, 2008, 371-381. Complete publication list in chronological order, journal papers in the front 2018 [1] P.U. Kränzien and Y. Jin*, “Natural convection in a two-dimensional cell filled with a porous medium: a direct numerical simulation study”, Heat Transfer Engineering, online first, DOI: 10.1080/01457632.2018.1432083, 2018. [2] Z. Lin, H.C. Zhang, A.V. Kuznetsov, M. Avila and Y. Jin*, “Pore-scale determines the macroscopic properties of natural convection in porous media”, submitted to Physical Review Letters for publication, under review, 2018. [3] S. Gasow, A.V. Kuznetsov,