个人信息

详细介绍绍

简介：文东升，国家特聘教授，现任北京航空航天大学国际交叉科学研究院院长及国际通用工程学院院长，科技部‘空天多尺度力学与热力学引智计划基地’的负责人。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，2016-2020年担任北京航空航天大学航空科学与工程学院院长及国际通用工程学院院长。

文东升教授的研究方向为航空航天热物理，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，已授权国际专利三项，发表SCI文章280多篇,被引用1.6万余次，H因子=53。主持多项国家自然科学基金，科技部，教育部等项目；为欧洲杰青基金获得者（200万欧元支持），自然科学基金委海外合作项目负责人（原海外杰青）；为英国能源协会会士（FEI），皇家化学会会士（FRSC），纳米技术协会会士（FION）；为哈尔滨工业大学，中科院过程所等8所国内外研究机构兼职/客座教授； 担任《Advances in Aerodynamics》 主编，《Applied Thermal Engineering》和《航空工程进展》副主编，《Chinese Journal of Aeronautics》，《Energies》，《Journal of Multiscale Modelling》等期刊编委，《Renewable Energy》，《Powder Technology》，《Journal of Chemical Technology and Biotechnology》等期刊客座主编。担任四川省‘空天电子装备环境适应性技术实验室’技术委员会主任，为中国载人航天工程空间科学与应用领域专家组成员，中国化学会理事，中国化工学会模拟及仿真专业委员会委员，及中国工程热物理学会传热传质委员会委员。

代表性文章：

1）高效防除冰基础及应用

[1] F Chu, J Luo, C Hao, J Zhang, X Wu and DS Wen*(2020). Directional transportation of impacting droplets on wettability-controlled surfaces. Langmuir,  36(21), 5855–5862

[2] F Chu, S LI, Z Ni，DS Wen*(2020), Departure velocity of rolling droplet jumping,Langmuir, 36(14), 3713–3719

[3] X. Bu, G. Lin, X. Shen, Z. Hu, DS Wen* (2020), Numerical simulation of aircraft thermal anti-icing system based on a tight-coupling method.International Journal of Heat and Mass Transfer,148, 119061

[4] F Chu, S Gao, X Zhang, X Wu and DS Wen*(2019)Droplet re-icing characteristics on a superhydrophobic surface.Applied Physics Letters, 15, 073703

[5] F Chu, X Zhang, S Li, H Jin, J Zhang, XM Wu and DS Wen*(2019)Bubble formation in freezing droplets.Physical Review Fluids, 7, 071601

[6] S Li, F Chu, J Zhang, D Brutin, DS Wen*(2020), Droplet jumping induced by coalescence of a moving droplet and a static one: Effect of initial velocity.Chemical Engineering Science,211, 115252

[7] M Amjad, 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 of Colloid and Interface Science,506, 83-92

2）分子动力学及多尺度模拟

[8] Z Cui, J Zhao, L He, H Jin, J Zhang and DS Wen*(2020). A reactive molecular dynamics study of hyperthermal atomic oxygen erosion mechanisms for graphene sheets. Physics of Fluids, 32, 112110 (2020) 

[9] J Zhang, B John, M. Pfeiffer, F Fei, DS Wen*(2019)Particle-based hybrid and multiscale methods for nonequilibrium gas flows,Advances in Aerodynamics1(1), 1222019

[10] J Zhao, G Yao, SB Ramisetti, RB Hammond,DS Wen*(2019),Molecular dynamicsinvestigation of substrate wettability alteration and oil transport in acalcite nanopore.Fuel,239, 1149-1161

[11] G Yao, J Zhao, SB Ramisetti, DS 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

[12] Chen X, Munjiza A, Zhang K and DS Wen* (2014) Molecular dynamics simulation of heat transfer from a gold nanoparticle to a water pool.Journal of Physical Chemistry C.118(2),1285–1293

[13]Song, P, Ding Yand DS Wen*(2013). A reactive molecular dynamics simulation of oxidation of a silicon nanocluster.Journal of Nanoparticle Research.15(1) 1-11.

[14] Song P and DS Wen*(2010). Molecular dynamic simulation of heating and cooling of a core-shell structured metallic nanoparticle.The Journal of Physical Chemistry C,114(19), p 8688–8696

3）纳米流体及太阳能应用

[15]H. Jin, G. Lin, Y. Guo, L. Bai, DS Wen* (2020), Nanoparticles enabled pump-free direct absorption solar collectors.Renewable Energy,145, 2337–2344

[16]H Jin, G Lin, A Zeiny, L Bai, DS Wen*(2019),Experimental study of transparent oscillating heat pipes filled with solar absorptive nanofluids International Journal of Heat and Mass Transfer,139,789-801

[17] M Amjad, J Gardy, A Hassanpour, DS Wen*(2018),Novel draw solution for forward osmosis based solar desalination.Applied Energy,230, 220-231

[18] M Amjad, H Jin, X Du,DS Wen* (2018) Experimental photo thermal performance of nanofluids under concentrated solar flux.Solar Energy Materials and Solar Cells,182, 255-262

[19] S Soltani, A Kasaeian, H Sarrafha, DS Wen*(2017)An experimental investigation of a hybridphotovoltaic/thermoelectric system with nanofluid application. Solar Energy 155, 1033-1043

[20] H Jin, G Lin, L Bai, A Zeimy and DS Wen*(2016). Steam generation in a nanoparticle-based solar receiver. Nano Energy,28, 397-406

[21] Zhang H, Chen H,Du XZ and DS Wen*.(2014) Photo thermal conversion characteristics of gold nanoparticle dispersions. Solar Energy,100, 141-147

4）流固耦合及弹性湍流

[22]M Ghalambaz, SAMMehryan, MA Ismael, A Chamkha, DS Wen*(2019)Fluid–structure interaction of free convection in a square cavity divided by a flexible membrane and subjected to sinusoidal temperature heating,International Journal of Numerical Methods for Heat & Fluid Flow in press

[23]M Ghalambaz, A Tahmasebi, AJ Chamkha, DS Wen*(2019)Conjugate local thermal 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

[24]M. Ghalambaz, S.M.H. Zadeh, S.A.M. Mehryan, I. Pop,DS Wen* (2020), Analysis of melting behavior of PCMs in a cavity subject to anon-uniform magnetic field using a moving grid technique. Applied Mathematical Modelling,77, 1936–1953

[25] G. Yao, J. Zhao, X. Shen, H. Yang, DS Wen* (2020), Effects of rheological properties on heat transfer enhancements by elastic instability in von-Karman swirling flow.International Journal of Heat and Mass Transfer,152,119535

[26] H. Yang, G. Yao, DS Wen* (2020), Experimental investigation on convective heat transfer of Shear-thinning fluids by elastic turbulence in a serpentine channel.Experimental Thermal and Fluid Science,112, 109997

[27] G. Yao, J. Zhao,H. Yang, M.A. Haruna, DS Wen*(2019), Effects of salinity on the onset of elastic turbulence in swirling flow and curvilinear microchannels. Physics of Fluids,31, 123106

5）能源管理及新型无人机

[28] A. Zhao, D. He,DS Wen*(2020), Structural design and experimental verification of a novel split aileron wing. Aerospace Science and Technology,98, 105635

[29]A Zhao, H Zou, HJin, DS Wen*(2019)Structuraldesign and verification of an innovative whole adaptive variable camber wing,Aerospace Science and Technology,89,11-18

[30] X, Xiao; H. Jia, S. Pervaiz and DS Wen*(2020) Molten Salt/Metal Foam/ Graphene Nanoparticle Phase Change Composites for Thermal Energy Storage.ACS Applied Nano Materials in press

[31] A Awad, A Burns, M Waleed, M Al-Yasiri, DS Wen*(2019), Latent and sensible energy storage enhancement of nano-nitrate molten salt. Solar Energy,172,191-197

[32] X Wang, Y Xie, R Day, H Wu, Z Hu, J Zhu, DS Wen*(2018) Performance analysis of a novel thermal management system with composite phase change material for a lithium-ion battery pack,Energy156, 154-168

[33] Wang, Z, Zhang H, Li Y and DS Wen*(2013)Characterisation of the InGaP/InGaAs/Ge triple-junction solar cell with a two-stage dish-style photovoltaic concentration system.Energy Conversion and Management,76177-184

6）纳米燃料及高效推进

[34] F Noor, A Vorozhtsov, M Lerner, EP Bandarra Filho and DS Wen*(2015)Thermal-chemical characteristics of Al–Cu alloy nanoparticles. The Journal of Physical Chemistry C119(25), 14001-14009

[35] F Noor and DS Wen*(2015) Experimental study of thermal oxidation of nanoscale alloys of aluminium and zinc (nAlZn).Journal of Physics and Chemistry of Solids85, 188-196

[36] Noor F,  Zhang H,  Korakianitis T and DS Wen*Oxidation and ignition investigation of aluminum nanomaterials.Physical Chemistry and Chemical Physics 15(46), 20176 - 20188

[37] Balazs I, Korakianitis T*, Paula, R, Diez A, Crookes R and DS 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

[38] Song P X, DS Wen*, Guo Z X and T. Korakianitis (2008) Oxidation investigation of nickel nanoparticles, Physical Chemistry Chemical Physics 10(33):5057-65

[39] Song P X, DS Wen*(2010). Surface melting and sintering of metallic nanoparticles. Journal of Nanoscience and Nanotechnology.10,8010-8017

[40] DS Wen*(2010). Nanofuels as an alternative energy carrier. Energy and Environmental Science,3, 591-600.