文东升
近期热点
资料介绍
个人简历
1997年本科毕业于北航飞行器设计与应用力学系,2000年获清华大学工程热物理硕士学位,2003年英国牛津大学工程科学博士学位;2003年起担任利兹大学研究助理,2005-2012年历任伦敦玛丽女王大学讲师,资深讲师及候任教授,2013年担任利兹大学首席教授,曾先后担任北京航空航天大学航空科学与工程学院院长,国际通用工程学院院长。研究领域
航空航天热物理,包括高超声速力热耦合及热管理,高效防除冰技术,多尺度模拟计算,纳米流体,纳米燃料及新能源无人机等""近期论文
1)高效防除冰基础及应用\r\rF Chu, J Luo, C Hao, JZhang, X Wu andDS Wen*(2020). Directional transportation ofimpacting droplets on wettability-controlled surfaces.Langmuir,\r\rF Chu, S LI, Z Ni,DSWen*(2020), Departure velocity of rolling droplet jumping,Langmuir,DOI: 10.1021/acs.langmuir.0c00185\r\rX. Bu, G. Lin, X. Shen,Z. Hu,DSWen* (2020), Numerical simulation of aircraft thermalanti-icing system based on a tight-coupling method.International Journal ofHeat and Mass Transfer,148, 119061\r\rF Chu, S Gao, X Zhang,X Wu andDS Wen*(2019)Droplet re-icing characteristics on a superhydrophobic surface.Applied Physics Letters,15,073703\r\rF Chu, X Zhang, S Li, HJin, J Zhang, XM Wu andDS Wen*(2019)Bubble formation in freezing droplets.Physical Review Fluids,7, 071601\r\rS Li, F Chu, JZhang D Brutin,DS Wen*(2020), Droplet jumping induced bycoalescence of a moving droplet and a static one: Effect of initial velocity.ChemicalEngineering Science,211, 115252\r\rMAmjad, Y Yang, G Raza, H Gao, J Zhang, L Zhou, X Du,DS Wen*(2017)Deposition pattern and tracer particle motion ofevaporating multi-component sessile droplets.Journal ofColloid and Interface Science,506, 83-92\r\r2)分子动力学及多尺度模拟\r\rJ Zhao, G.C.Yao,D Wen*(2020), Salinity-dependent alterations of static and dynamiccontact angles in oil/brine/calcite systems: A molecular dynamics simulationstudy.Fuel, 272,117615\r\rJ Zhang, B John, MPfeiffer, F Fei,DS Wen*(2019)Particle-based hybrid and multiscale methods for nonequilibrium gas flows,Advances in Aerodynamics1(1), 1222019\r\rJ Zhao, G Yao, SB Ramisetti, RB Hammond,D Wen*(2019),Molecular dynamicsinvestigation of substrate wettability alteration and oil transport in acalcite nanopore.Fuel,239, 1149-1161\r\rG Yao, J Zhao, SB Ramisetti,D Wen*(2018),Atomistic Molecular Dynamic Simulationof Dilute Poly (acrylic acid) Solution: Effects of Simulation Size Sensitivityand Ionic Strength,Industrial & Engineering Chemistry Research57(50),17129-17141\r\rChen X, MunjizaA, Zhang K andWen DS* (2014) Molecular dynamics simulation ofheat transfer from a gold nanoparticle to a water pool.Journal of PhysicalChemistry C.118(2),1285–1293\r\rSong, P, Ding YandWen DS*(2013). A reactive molecular dynamics simulation ofoxidation of a silicon nanocluster.Journal of Nanoparticle Research.15(1) 1-11.\r\rSong P andWenD S*(2010). Molecular dynamic simulation of heating and cooling of acore-shell structured metallic nanoparticle.The Journal of PhysicalChemistry C,114(19), p 8688–8696\r\r3)纳米流体及太阳能应用\r\rH. Jin, G. Lin, Y. Guo,L. Bai,DS Wen* (2020), Nanoparticles enabled pump-free directabsorption solar collectors.Renewable Energy,145, 2337–2344\r\rH Jin, G Lin, A Zeiny,L BaiDS Wen*(2019),Experimentalstudy of transparent oscillating heat pipes filled with solar absorptivenanofluidsInternational Journal of Heat and MassTransfer,139,789-801\r\rM Amjad, J Gardy, A Hassanpour,DSWen*(2018),Novel draw solution for forward osmosisbased solar desalination.Applied Energy,230, 220-231\r\rM Amjad, H Jin,X Du,DS Wen* (2018) Experimental photothermal performanceof nanofluids under concentrated solar flux.Solar Energy Materials andSolar Cells,182, 255-262\r\rS Soltani, AKasaeian, H Sarrafha,DS Wen*(2017)An experimental investigation of a hybridphotovoltaic/thermoelectric system with nanofluid application. Solar Energy155, 1033-1043\r\rH Jin, G Lin, LBai, A Zeimy andDS Wen*(2016). Steam generation in ananoparticle-based solar receiver.Nano Energy,28, 397-406\r\rZhang H, Chen H,Du XZ andDS Wen*.(2014) Photothermal conversion characteristicsof gold nanoparticle dispersions.Solar Energy,100, 141-147\r\r4)流固耦合及弹性湍流\r\rM Ghalambaz, SAMMehryan, MA Ismael, A ChamkhaDSWen*(2019)Fluid–structure interaction of freeconvection in a square cavity divided by a flexible membrane and subjected tosinusoidal temperature heating,International Journal of NumericalMethods for Heat & Fluid Flowin press\r\rM Ghalambaz, A Tahmasebi,AJ Chamkha,DS Wen*(2019)Conjugate localthermal non-equilibrium heat transfer in a cavity filled with a porous medium:Analysis of the element location ,International Journal of Heat and MassTransfer138, 941-960\r\rM. Ghalambaz, S.M.H.Zadeh, S.A.M. Mehryan, I. Pop,DSWen* (2020), Analysis of melting behavior of PCMs in a cavity subject to anon-uniform magnetic field using a moving grid technique.AppliedMathematical Modelling,77, 1936–1953\r\rG. Yao, J. Zhao, X. Shen, H. Yang,DSWen* (2020), Effects of rheological properties on heat transferenhancements by elastic instability in von-Karman swirling flow.InternationalJournal of Heat and Mass Transfer,152,119535\r\rH. Yang, G. Yao,DSWen* (2020), Experimental investigation on convective heat transfer ofShear-thinning fluids by elastic turbulence in a serpentine channel.ExperimentalThermal and Fluid Science,112, 109997\r\rG. Yao, J. Zhao,H. Yang, M.A. Haruna,DSWen*(2019), Effects of salinity on the onset of elastic turbulence in swirling flowand curvilinear microchannels.Physics of Fluids,31, 123106\r\r5)能源管理及新型无人机\r\rA. Zhao, D. He,DS Wen*(2020), Structural design and experimental verification of a novel split aileronwing.Aerospace Science and Technology,98, 105635\r\rA Zhao, H Zou, HJin,DSWen*(2019)Structuraldesign and verification of an innovative whole adaptive variable camber wing,Aerospace Science and Technology,89,11-18\r\rX,Xiao; H. Jia, S. Pervaiz andDS Wen*(2020) Molten Salt/Metal Foam/Graphene Nanoparticle Phase Change Composites forThermal Energy Storage.ACS Applied Nano Materialsin press\r\rA Awad, A Burns,M Waleed, M Al-Yasiri,DS Wen*(2019), Latent and sensibleenergy storage enhancement of nano-nitrate molten salt.Solar Energy,172,191-197\r\rX Wang, Y Xie, R Day, H Wu, Z Hu, J Zhu,DSWen*(2018)Performanceanalysis of a novel thermal management system with composite phase changematerial for a lithium-ion battery pack,Energy156, 154-168\r\rWang, Z, ZhangH, Li Y andWen, DS*(2013)Characterisation of theInGaP/InGaAs/Ge triple-junction solar cell with a two-stage dish-stylephotovoltaic concentration system.Energy Conversion and Management,76177-184\r\r6)纳米燃料及高效推进\r\rF Noor, AVorozhtsov, M Lerner, EP Bandarra Filho andDS Wen*(2015)Thermal-chemical characteristics of Al–Cu alloy nanoparticles.TheJournal of Physical Chemistry C119(25), 14001-14009\r\rF Noor andDSWen*(2015) Experimental study of thermal oxidation of nanoscale alloysof aluminium and zinc (nAlZn).Journal of Physics and Chemistry of Solids85, 188-196\r\rNoorF, Zhang H, Korakianitis T andDS Wen*Oxidation andignition investigation of aluminum nanomaterials.Physical Chemistry andChemical Physics15(46), 20176 - 20188\r\rBalazs I,Korakianitis T*, Paula, R, Diez A, Crookes R andDS Wen*(2014).Assessment of elliptic flame front propagation characteristics of iso-octane,gasoline, M85 and E85 in an optical engine.Combustion and Flame, 161(3),696-710\r\rSong P X,DSWen*, Guo Z X and T. Korakianitis (2008) Oxidationinvestigation of nickel nanoparticles,Physical Chemistry Chemical Physics10(33):5057-65\r\rSong P X,DSWen*(2010).Surface melting and sintering ofmetallic nanoparticles.Journal of Nanoscience and Nanotechnology.10,8010-8017\r\rWenD S*(2010).Nanofuels as an alternative energy carrier.Energyand Environmental Science,3, 591-600. 相关热点