刘建
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刘建,瑞典隆德大学博士及博士后,航空航天学院特聘副教授。长期从事航空发动机结构的传热,涡轮叶片冷却,发动机热防护及新型强化换热结构的研究工作。目前已发表SCI期刊论文40余篇,国际会议论文10余篇,发表专著1部。论文主要发表在Int. J. Heat Mass Transfer, ASME J. Heat Transfer, Int. C. Heat Mass Transfer, Int. J. Thermal Sciences, Applied Thermal Engineering, Energy, Numerical Heat Transfer, Part A等传热能源领域权威期刊。目前Google总被引用580余次,h-index为14。以骨干身份参与了国家自然科学基金青年及面上项目,瑞典能源局基础研究项目,西门子,CTH,瑞典GKN发动机公司的多项研究课题。学习工作经历2020.05 – 至今 中南大学航空航天学院特聘副教授。 2019.05 - 2019.09 博士后 瑞典Lund University能源科学系。 2015.09 - 2019.05 博士 瑞典Lund University (2019QS排名世界92)能源科学系,导师为Bengt Sunden教授。 2014.04 - 2014.09 交流学习 美国University of Minnesota,导师为传热顶级期刊ASME J. Heat Transfer的主编,Terrence W. Simon教授。 2012.09 - 2015.03 硕士 西北工业大学 航空宇航制造工程。2008.09 - 2012.07 本科 西北工业大学 飞行器制造工程。研究领域
""近期论文
J. Liu, W. Du, S. Hussain, G. Xie, B. Sundén, Improvement of Film Cooling Effectiveness Upstream of the Leading Edge of a Turbine Vane, Numerical Heat Transfer, Part A, 2020, https://doi.org/10.1080/10407782.2020.1835110 . J. Liu, S. Hussain, W. Wang, G. Xie, B. Sundén, Experimental and Numerical Investigations of Heat Transfer and Turbulent Flow in a Rectangular Channel Mounted with Perforated Ribs, International communications in Heat Mass Transfer, 121 (2021) Paper No. 105083.J. Liu, S. Hussain, W. Du, L. Wang, G. Xie, B. Sundén, Design of Full-scale Endwall Film Cooling of a Turbine Vane, ASME J. Heat Transfer 142 (2020) 022201. J. Liu, S. Hussain, W. Wang, L. Wang, G. Xie, B. Sundén, Effect of the Relative Location of a Pocket Cavity on Heat Transfer and Flow Structures of the Downstream Endwall with a Symmetrical Vane, International Journal of Thermal Sciences 145 (2019) 106012. J. Liu, S. Hussain, W. Wang, L. Wang, G. Xie, B. Sundén, Heat Transfer Enhancement and Turbulent Flow in a Rectangular Channel Using Perforated Ribs with Inclined Holes, ASME Journal of Heat Transfer 141 (2019) paper No. 041702.J. Liu, S. Hussain, L. Wang, G. Xie, B. Sundén, Effects of a Pocket Cavity on Heat Transfer and Flow Characteristics of the Endwall with a Bluff Body in a Gas Turbine Engine, Applied Thermal Engineering 143 (2018) 935-946. J. Liu, S. Hussain, C. Wang, L. Wang, G. Xie, B. Sundén, Effects of the Pocket Cavity on Heat Transfer and Fluid Flow of the Downstream Outlet Guide Vane at Different Flow Attacking Angles, Numerical Heat Transfer, Part A: Applications 74 (2018) 1087-1104. J. Liu, S. Hussain, J. Wang, L. Wang, G. Xie, B. Sundén, Application of Fractal Theory in the Arrangement of Truncated Ribs in a Rectangular Cooling Channel (4:1) of a Turbine Blade, Applied Thermal Engineering 139 (2018) 488-505. J. Liu, S. Hussain, J. Wang, L. Wang, G. Xie, B. Sundén, Heat transfer enhancement and turbulent flow in a high aspect ratio channel (4: 1) with ribs of various truncation types and arrangements, International Journal of Thermal Sciences 123 (2018) 99-116. (IF = 3.488, ESI高倍引论文)J. Liu, G.N. Xie, B. Sunden, Flow pattern and heat transfer past two tandem arranged cylinders with oscillating inlet velocity, Applied Thermal Engineering 120 (2017) 614-625. J. Liu, S. Hussain, L. Wang, G. Xie, B. Sundén, Heat transfer and turbulent flow characteristics over pocket cavity in the junction part of an outlet guide vane in a gas turbine, Applied Thermal Engineering 124 (2017) 831-843. (IF = 4.026) J. Liu, G. Xie, B.A. Sunden, L. Wang, M. Andersson, Enhancement of heat transfer in a square channel by roughened surfaces in rib-elements and turbulent flow manipulation, International Journal of Numerical Methods for Heat & Fluid Flow 27 (2017) 1571-1595. (IF = 1.958)J. Liu, G. Xie, T.W. Simon, Turbulent flow and heat transfer enhancement in rectangular channels with novel cylindrical grooves, International Journal of Heat and Mass Transfer 81 (2015) 563-577. (IF = 4.346) J. Liu, Y. Song, G. Xie, B. Sunden, Numerical modeling flow and heat transfer in dimpled cooling channels with secondary hemispherical protrusions, Energy 79 (2015) 1-19. (IF = 5.537)J. Liu, S. Hussain, L. Wang, G. Xie, B. Sundén, Effects of the location of the pocket cavity on heat transfer and flow characteristics of the endwall with a symmetrical vane, Proceedings of ASME Turbo Expo 2018: Turbomachinery Technical Conference and Exposition, GT2018. (EI)J. Liu, S. Hussain, L. Wang, G. Xie, B. Sundén, Investigation of heat transfer and fluid flow in fractal truncated ribbed channels for the internal cooling of turbine blades, The 16th International Heat Transfer Conference Chinese National Convention Center, Beijing, China, August 10-15, 2018.(传热权威会议)J. Liu, S. Hussain, L. Wang, G. Xie, B. Sundén, H. Abrahamsson, C. Arroyo, The Effect of the Pocket on the Heat Transfer of Endwall With Bluff Body in the Rear Part of Gas Turbine, ASME Turbo Expo 2017: Turbomachinery Technical Conference and Exposition, American Society of Mechanical Engineers, 2017, pp. V05AT11A001-V005AT011A001. (EI)J. Liu, C. Wang, L. Wang, G. Xie, M. Andersson, B. Sundén, H. Abrahamsson, C. Arroyo, Investigation of Heat Transfer and Fluid Flow Over Pocket Cavity in the Rear Part of Gas Turbine, ASME 2016 International Mechanical Engineering Congress and Exposition, American Society of Mechanical Engineers, 2016, pp. V008T010A038-V008T010A038. (EI) 导师一作,本人二作论文:[1] G. Xie, J. Liu, W. Zhang, G. Lorenzini, C. Biserni, Numerical prediction of flow structure and heat transfer in square channels with dimples combined with secondary half-size dimples/protrusions, Numerical Heat Transfer, Part A: Applications 65 (2014) 327-356. (IF = 1.905)[2] G. Xie, J. Liu, W. Zhang, G. Lorenzini, C. Biserni, Numerical prediction of turbulent flow and heat transfer enhancement in a square passage with various truncated ribs on one wall, ASME Journal of Heat Transfer 136 (2014) 011902. (IF =1.602)[3] G. Xie, J. Liu, P.M. Ligrani, B. Sunden, Flow structure and heat transfer in a square passage with offset mid-truncated ribs, International Journal of Heat and Mass Transfer 71 (2014) 44-56. (IF = 4.346) [4] G. Xie, J. Liu, P.M. Ligrani, W. Zhang, Numerical analysis of flow structure and heat transfer characteristics in square channels with different internal-protruded dimple geometrics, International Journal of Heat and Mass Transfer 67 (2013) 81-97. (IF = 4.346) [5] G. Xie, J. Liu, P.M. Ligrani, W. Zhang, Numerical predictions of heat transfer and flow structure in a square cross-section channel with various non-spherical indentation dimples, Numerical Heat Transfer, Part A: Applications 64 (2013) 187-215. (IF = 1.905)[6] G. Xie, J. Liu, Y. Liu, B. Sunden, W. Zhang, Comparative study of thermal performance of longitudinal and transversal-wavy microchannel heat sinks for electronic cooling, ASME Journal of Electronic Packaging 135 (2013) 021008. (IF = 2.210)[7] G. Xie, J. Liu, W. Zhang, B. Sunden, Analysis of flow and thermal performance of a water-cooled transversal wavy microchannel heat sink for chip cooling, ASME Journal of Electronic Packaging 134 (2012) 041010. (IF = 2.210)[8] G. Xie, J. Liu, W. Zang, G. Lorenzini, C. Biserni, Simulation and improvement of temperature distributions of a framed mould during the autoclave composite curing process, Journal of Engineering Thermophysics 22 (2013) 43-61. (IF = 0.767)[9] G. Xie, J. Liu, W. Zhang, B. Sundén, Numerical Analysis of Flow and Thermal Performance of a Water-Cooled Wavy Microchannel Heat Sink, ASME 2012 International Mechanical Engineering Congress and Exposition, American Society of Mechanical Engineers, 2012, pp. 1411-1417. (EI)[10] G. Xie, J. Liu, W. Zhang, B. Sunden, Simulation and thermal analysis on temperature fields during composite curing process in autoclave technology, ASME 2012 international mechanical engineering congress and exposition, American Society of Mechanical Engineers, 2012, pp. 1-9. (EI) 相关热点
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