代表性论文专著
1. 董葳,范绪箕, “求解激波/边界层相互干扰问题的有限体积方法”,上海交通大学学报,Vol.32,No.1,pp:140-142, 1998。
2. Wei Dong, H.T.Fan, “Finite Volume TVD Algorithm for Computation of Aerodynamic Heating”, ASME-IMECE,1998.
3. 董葳,范绪箕, “高速粘性绕流的有限体积TVD格式”, 空气动力学学报,Vol.17(3),pp.299-304, 1999。
4. 范绪箕,董威, “飞行器突起物周围气动加热的计算方法”,宇航学报,Vol.19(1),pp.98-102, 1998。
5.Hong Liu, Wei Dong, H.T.Fan, “Conservative and Non-Conservative Overlapping Grid Gernation in Simulating Complex Supersonic Flow”, AIAA -99-3305, 1999.
6. 董葳,范绪箕,"水平蜂窝腔内三维自然对流的数值计算",上海交通大学学报,Vol.38(10),pp.1631-1634,2004(EI2005028785881).
7.董葳,范绪箕,"热防护系统中六角蜂窝内的流动换热研究",空气动力学学报,Vol.23(4),pp.496-500, 2005(EI2006129772613).
8.董威,黄维娜, “某型高压涡轮冷却叶片流动换热的流固耦合计算研究”,燃气轮机试验与研究,Vol.19(2),pp.14-17,2006。
9.董葳,赵冬梅,“飞行结冰动力学的研究发展综述”,中国第一届近代空气动力学与气动热力学会议论文集,CARS-2006-0-0050,2006。
10.蒋友娣,董葳,陈勇,"高超声速钝头体变熵流表面热流计算",航空动力学报,Vol.23(9):1591-1594,2008(EI20084211646749).
11.董威,文超柱,郑培英. 船用燃气轮机间冷器优化设计分析[R].云南丽江:中国航空学会第六届轻型燃气轮机学术交流会,2009
12.李会萍,董葳,“高超声速再入钝头体表面热流计算”,上海航天,2010,27(2):18-22。
13.董葳,侯玉柱,闵现花,"进口导向叶片热气防冰系统试验研究",上海交通大学学报,2010,44(11):1579-1582(EI20110113551325).
14.董威,文超柱,郑培英,"船用燃气轮机间冷器流路的数值计算分析",航空动力学报,2010,25(3):636-640(EI20101912918575).
15.董威,石中均,赵秋月,“防冰部件水撞击特性试验相似准则分析”,中国航空动力年会,2010
16.文超柱,董威,"舰载燃气轮机间冷器传热与流动的数值模拟",航空动力学报,2010,25(3):654-658(EI20133316600208).
17.侯玉柱,郑京良,董威,"高超声速飞行器瞬态热试验",航空动力学报,2010,25(2):343-347(EI20101412827202).
18. W. Dong, J. J. Zhu, X. H. Min, Calculation of the Heat Transfer and Temperature on the Aircraft Anti-icing Surface, 27th International Congress of the Aeronautical Sciences, 2010(EI20132316406190).
19.董威,高鹏 ,郑培英,杨芳菲,舰船燃气轮机间冷器优化设计与性能分析,航空发动机,2011.6
20. W.Dong, J. J. Zhu, Q. Y. Zhao, “Numerical Simulation of the Guide Vane with Hot Air Anti-icing Passage”,42nd AIAA Thermophysics Conference, AIAA-2011-3944,2011(EI20134016806378).
21.Zhu Jian-Jun,Dong Wei,Cai Ying-Lei, “Numerical Study of Water Droplets’ heat and mass transfer characteristics in an entry strut's icing test”,GT2012-68306, 2012(EI20133316600208).
22.Dong Wei, Mao Chun, Zhu Jian-Jun, Chen Yong, “Numerical and experimental analysis of inlet non-uniformity influence on intercooler performance”, GT2012-69231, 2012(EI20133316600437) .
23. Chen Yong, Dong Wei, Parametric Studies Of Nonlinear Damping Behavior Of APS Thermal Barrier Coatings Based On Cohesive Interface Model, GT2012-69343, 2012(EI20133316600732).
24. W. Dong, J. Zhu, Zhixiang Zhou, X. Chi, “Heat Transfer and Temperature Analysis of an Anti-icing System for an Aero-engine Strut under Icing Condition”, AIAA 2012-2753, 2012(EI20133116572878).
25.W. Dong, J. J. Zhu, Y. L. Cai, “The Performance Computation of The Hot Air Anti-icing System Of AN Aero-engine Cone”,28th International Congress of the Aeronautical Sciences, 2012(EI20132416412539).
26.董威,朱剑鋆,周志翔,董奇,"航空发动机支板滑油防冰性能试验",航空学报,2014,35(7):1845-1853(EI20143218042412).
27.W. Dong, J. Ding, Zh.X. Zhou, "Experimental Study on the Ice Freezing Adhesive Characteristics of Metal Surfaces",Journal of aircraft,2014,51(3):719-726(SCI000337984100002 EI20142817914563).
28.W. Dong, J. Zhu, M.Zheng and Y.Chen, "Thermal Analysis and Testing of a Cone with Leading Edge Hot Air Anti-icing System",AIAA 2014-0739, 2014(EI20142617874565).
29.W. Dong, J. Zhu, Y. Chen and M. Zheng, "Numerical study of ice accretion on rotating aero-engine cone", 29th Congress of the International Council of the Aeronautical Sciences, 2014.
30.W. Dong, J. Zhu, Y.Chen and M.Zheng, "Numerical analysis of oil anti-icing system performance of turboshaft engine inlet strut", Proceedings of ASME Turbo Expo 2014, GT2014-26564.
31.W. Dong, J. Zhu, Y.Chen and Zhixiang Zhou, "Experimental study on hot lubricating oil anti-icing system of aero-engine strut", Proceedings of ASME Turbo Expo 2014, GT2014-26502.
32.Wei Dong, Jianjun Zhu, Mei Zheng, Rui Wang, "Numerical studies of the water droplet parameters in the icing tunnel test", The 15th International Heat Transfer Conference, IHTC15-8670, 2014, Kyoto, Japan
33.Mei Zheng, Wei Dong, Guilin Lei, Jianjun Zhu,"Study of the flow and heat transfer of water film on hot air anti-icing airfoil surface",The 15th International Heat Transfer Conference, IHTC15-8671, 2014, Kyoto, Japan.
34.W. Dong, J. Zhu,Zhixiang Zhou, X.Chi, "Heat Transfer and Temperature Analysis of an Aero-engine Strut under Icing Condition," Journal of Aircraft, 2015,52(1):216-225(SCI,EI).
35. W. Dong, J. Zhu, M. Zheng, Y.Chen, "Thermal Analysis and Testing of Non-rotating Cone Leading Edge Hot Air Anti-icing System,"Journal of Propulsion and Power,2015,31(1):896-902(SCI,EI).
36. W. Dong, J. Zhu, M. Zheng, G.L. Lei, "Experimental Study on Icing and Anti-Icing Characteristics of Engine Inlet Guide Vanes," Journal of Propulsion and Power,2015,31(5):1330-1337(SCI,EI).
37. J. Zhu,W. Dong,M.Zheng, G.Lei,Q.Zhao, "Numerical Investigation of Heat and Mass Transfer on Inlet Cone under Anti-icing Conditions," Journal of Propulsion and Power,2016,32(3):788-796(SCI,EI).
38. W.Dong, M.Zheng,J.Zhu,G.Lei,"Calculation and Analysis of Runback Water Flow on Anti-Icing Airfoil Surface," Journal of Aircraft, 2016,53(6):1597-1605(SCI,EI).
39. Liu Yinze, Dong Wei, Lei Guilin and Yu Xiao. Numerical Simulation on the Performance of Air-Air Primary Surface Heat Exchanger. ASME Paper GT2016-56905.
40. 郑梅, 董威, 朱剑鋆,等. 来流速度对防冰表面溢流水流动换热的影响. 空气动力学学报, 2016, 34(3):295-301.
41. 郑梅, 朱剑鋆, 董威. 液态水含量对防冰表面水膜流动换热的影响. 航空发动机, 2016, 42(1):59-64.
42. 郭宇翔, 刘荫泽, 董威, 雷桂林, 朱剑鋆. 大水滴撞击壁面的动态特性数值模拟. 空气动力学学报, 2016, 34(5):573-580.
43.W.Dong, M.Zheng,J.Zhu,G.Lei,Q.Zhao,"Experimental Investigation on Anti-icing Performance of an Engine Inlet Strut," Journal of Propulsion and Power,2017,32(3):379-386(SCI,EI).
44.Lei G L, Dong W, Zheng M, et al. Numerical investigation on heat transfer and melting process of ice with different porosities. International Journal of Heat and Mass Transfer, 2017, 107: 934-944.(SCI,EI).
45. 雷桂林, 郑梅, 董威,等. 航空发动机进气支板电热防冰试验[J]. 航空学报, 2017, 38(8): 121066.
46. 郭之强, 郑梅, 董威,等. 表面凸起对机翼热气防冰腔内换热强化的影响[J]. 航空学报, 2017, 38(2): 520709.
47. 刘荫泽, 张声宝, 董威, 刘振宇,于霄, 航空发动机1次表面换热器流动换热性能分析[J]. 航空发动机, 2017, 43(4):61-68.
48. M Zheng, W Dong, Z Guo, G Lei. Analysis of Runback Water Flow on Anti-Icing Surface Using Volume-of-Fluid Method. ASME Turbo Expo 2017, June 26-30 ,Charlotte, USA ,ASME Paper GT2017-63933.
49. Z Guo, M Zheng, Y Liu, W Dong. Investigations of Single Jet Impinging on Plates With Circular Dimples. ASME Turbo Expo 2017, June 26-30 ,Charlotte, USA ,ASME Paper GT2017-64052.
50. Dong Wei, Zheng Mei, Guo Zhiqiang, Lei Guilin, Numerical Investigation of the Heat and Mass Transfer on Anti-icing Surface, CHT-17: ICHMT International Symposium on Advances in Computational Heat Transfer, 2017, May 28 - June 01 Napoli, Italy.
51. 雷桂林, 郑梅, 董威,等. 积冰密度对机翼除冰过程影响的数值研究[J]. 空气动力学学报, 2018, 36(6): 958-965.
52. Zheng M, Wu T, Guo Z, et al. Calculation of Water Film Flow and Heat Transfer on the Aircraft Anti-icing Surface[C]. 31st Congress of the International Council of the Aeronautical Sciences, 2018.
53. Wu T, Yang Q, Guo Z, et al. Supercooled Water Droplet Impingement and Icing Region Prediction on a Rotating Fan Blade[C]//AIAA Aviation 2019 Forum. 2019: 3309.
54. Yang Q, Guo Z, Zheng M, et al. The Effect of Crosswinds on Icing at Turbofan Engine Inlet[C]. SAE Technical Paper, 2019.
55. 郑梅, 郑莉, 郭之强, 等. 结冰风洞云雾参数不同测量手段的试验对比[J]. 空气动力学学报, 2019, 37(6): 983-989.
56. 姜飞飞, 董威, 郑梅, 等. 冰晶在涡扇发动机内相变换热特性[J]. 航空动力学报, 2019, 34(3): 567-575.
57. 杨倩, 董威, 郭之强, 等. 涡扇发动机短舱结冰试验相似方法[J]. 航空动力学报, 2019, 34(9): 1988-2000.
58. Zheng M, Guo Z, Dong W, et al. Experimental investigation on ice accretion on a rotating aero-engine spinner with hydrophobic coating[J]. International Journal of Heat and Mass Transfer, 2019, 136: 404-414. (SCI,EI)
59. Yang X, Yang Q, Dong W. Aeroengine data reconciliation model based on cooperative working equations[J]. Energy, 2019, 186: 115914. (SCI,EI)
60. Yang X, Dong W, Yang Q, et al. Withdrawal: A Simplified Model for the Simulation of Synergistic Air-Breathing Rocket Engine[C]// AIAA Propulsion and Energy 2019 Forum. 2019.
61. Guo X, Guo Z, Yang Q, et al. Numerical Simulation Model of Electrothermal De-Icing Process on Composite Substrate[C]//Turbo Expo: Power for Land, Sea, and Air. ASME, 2020, 84072: V02BT34A017.
62. Yang X, Guo X, Dong W. On-Line Component Map Adaptive Procedure Based on Sensor Data[C]//Turbo Expo: Power for Land, Sea, and Air. ASME, 2020, 84058: V001T01A041.
63. 杨学森, 杨桥, 张韦雅, 等. 某型涡扇发动机测量数据融合模型[J]. 航空动力学报, 2020, 35(3). (EI)
64. 蔡学成, 李芹, 杨学森, 等. 旋转对冲击射流流动及换热影响的数值研究[J]. 航空动力学报, 2021. (EI)
65. 李芹,杨肖峰,董威,杜雁霞.高超声速飞行器表面吸附特性对多相催化过程影响的数值模拟[J].上海交通大学学报,2021,55(11):1352-1361.DOI:10.16183/j.cnki.jsjtu.2020.288.
66. Guo Z, Zheng M, Yang Q, et al. Effects of flow parameters on thermal performance of an inner-liner anti-icing system with jets impingement heat transfer [J]. Chinese Journal of Aeronautics, 2021. (SCI,EI)
67. Jian M, Yang X, Dong W. Numerical Investigation on the Flow Characteristics in a Cover-Plate Pre-Swirl System[C]//Turbo Expo: Power for Land, Sea, and Air. ASME, 2021, 84942: V03AT04A042.
68. 李治达,陈翔翔,吴涛,董威.高效弯掠对转桨扇流动特点与桨距调节规律[J].航空动力学报:1-11[2022-08-01].DOI:10.13224/j.cnki.jasp.20210278.
69. 陈翔翔,李治达,李芹,郑浩冉,董威.基于LBM的发汗孔隙结构内流动换热性能[J].航空动力学报:1-10[2022-08-01].DOI:10.13224/j.cnki.jasp.20210425.
70. Wei H, Li Z, Guo X, et al. Experimental study on the influence of airflow velocity on frosting and defrosting performance of compact precooler under actual air humidity condition[J]. International Journal of Heat and Mass Transfer, 2022, 184: 122284. (SCI,EI)
71. Guo Z, Guo X F, Yang Q, et al. Heat transfer characteristics of unexpanded jet impingement in piccolo hot air anti-icing chamber[J]. Applied Thermal Engineering, 2022, 200: 117540. (SCI,EI)
72. Yang X, Jian M, Dong W, et al. Simulation of the secondary air system of turbofan engines: Insights from 1D-3D modeling[J]. Chinese Journal of Aeronautics, 2022. (SCI,EI)
73. Yang Q, Guo X, Dong W, et al. Ice accretion and aerodynamic effects on a turbofan engine nacelle under takeoff conditions[J]. Aerospace Science and Technology, 2022. (SCI,EI)
74. 杨倩,郭晓峰,李芹,董威. 基于POD和代理模型的热气防冰性能预测方法[J]. 航空学报, 2022. doi: 10.7527/S1000-6893.2022.26992.
75. Wei H, Guo X, Li Z, et al. Experimental investigation on effects of freestream humidity on the frosting and defrosting characteristics of microtubule precooler[J]. Applied Thermal Engineering, 2022, 206: 118104. (SCI,EI)