科研课题(节选)
(1)“转弯旋转通道内湍流流动与换热规律的研究”,国家自然科学基金;
(2)“微型燃气轮机回热器开发”,国家“863计划”能源技术领域燃气轮机重大专项“100kW微型燃气轮机设计研制”子课题;
(3)“纵向涡发生器强化传热机理研究”,国防科技重点实验室基金项目;
(4)“微通道内低流速气体流动传热的DSMC-NS耦合算法研究”,国家自然科学基金;
(5)“螺旋折流板换热器壳程传热强化机理研究”,国防科技重点实验室基金项目;
(6)“狭窄原表面通道内流动与传热规律的研究”,教育部霍英东教育基金会第九届高等院校青年教师基金;
(7)“换热设备及网络的动态特性及控制技术研究”,新世纪优秀人才支持计划;
(8)“利用纵向涡发生器强化窄矩形通道内单相和沸腾传热”,国家自然科学基金(合作)。
(9)“紧凑式内外翅片管高温合金换热器关键技术”,国家“863计划”能源技术领域高效节能与分布式供能技术专项
(10)“燃气轮机的高性能热-功转换科学技术问题研究—燃气轮机热端部件冷却机理研究”,国家重点基础研究发展规划项目子课题(合作);
(11)“含内热源多孔介质内单相对流换热及两相湍流的数值研究”,国防科技重点实验室基金项目;
(12)“基于Dufour和Soret效应的多孔介质内热质传递机理研究”,国家自然科学基金;
(13) “现代防暴水炮中的脉冲射流动力过程及雾化机理研究”,国家自然科学基金(合作)
国际期刊(节选)

(1) He Qunwu, Wang Qiuwang, Wang Xian & Luo Laiqin. DSMC Simulation of Low-Speed Gas Flow and Heat Transfer in 2D Rectangular Micro-Channel, Progress in Computational Fluid Dynamics, 5 (3-5): 230-235 2005 (SCI: 929DR and EI 05249155387)
(2) Zhang Lin, T.T. Chow, K.F. Fong, Qiuwang Wang, Ying Li, Comparison of performances of displacement and mixing ventilations (Part I)—thermal comfort, International Journal of Refrigeration, v 28, n 2, March, 2005, p 276-287 (SCI: 900QR and EI05078838087 )
(3) Zhang Lin, T.T. Chow, K.F. Fong, C.F. Tsang, Qiuwang Wang, Comparison of performances of displacement and mixing ventilations (Part II)—indoor air quality, International Journal of Refrigeration, v 28, n 2, March, 2005, p 288-305 (SCI: 900QR and EI 05078838088)
(4) Xian WANG, Hiroyuki HIRANO, Toshio TAGAWA, Hiroyuki OZOE, and Qiuwang WANG. The behavior of diamagnetic Brownian particles in the presence of a gradient magnetic field. Journal of Chemical Engineering of Japan, 2005, 38 (1), 24-33. (Indexed EI 05078840686)
(5) Xian WANG, Toshio TAGAWA, Hiroyuki OZOE, Hiroyuki HIRANO, and Qiuwang WANG. The behavior of a water droplet in a flow field of natural convection in a cubic enclosure with magnetic field. Progress in Computational Fluid Dynamics, v 5, n 3-5, 2005, p 271-280 (SCI: 929DR and EI 05249155389 )
(6) Xian WANG, Hiroyuki HIRANO, Toshio TAGAWA, Hiroyuki OZOE, and Qiuwang WANG. The behavior of micro-scaled Brownian particles in a cylinder under natural and magnetic convection flow field of air. Numerical Heat Transfer, Part A, v 47, n 4, Mar 1, 2005, p 353-373 (SCI: 899LH and EI 05118928566 )
(7) Wang, Xian; Hirano, Hiroyuki; Tagawa, Toshio; Ozoe, Hiroyuki; Wang, Qiuwang Numerical computation for clustering of carbon particles with various sizes under both natural and magnetizing convections, Chemical Engineering Science, v 60, n 18, September, 2005, p 5105-5117 (SCI: 951GL and EI05289205676 )
(8) Yu, Xiaoling; Feng, Jianmei; Feng, Quanke; Wang, Qiuwang, Development of a plate-pin fin heat sink and its performance comparisons with a plate fin heat sink, Applied Thermal Engineering, v 25, n 2-3, February, 2005, p 173-182 (SCI: 879XO and EI, 04448434765)
(9) Lin Z., Chow T.T., Wang Q.W., Fong K.F. and Chan L.S. Validation of CFD Model for Research into Displacement Ventilation, Architectural Science Review, 2005, 48 (4): 305-316. (EI: 06039650298)
(10) Qiuwang WANG, Gongnan XIE, Ming ZENG, Laiqin LUO. Prediction of Heat Transfer Rates for Shell-and-Tube Heat Exchangers by Artificial Neural Networks Approach, Journal of Thermal Sciences, 15 (3): 257-262, 2006 (EI: 064310201184)
(11) J.L. Xu, W. Zhang Q.W. Wang, Q.C. Su. Flow instability and transient flow patterns inside intercrossed silicon microchannel array in a micro-timescale, International Journal of Multiphase Flow v 32, n 5, May, 2006, p 568-592 (SCI: 057VQ and EI: 06209885664)
(12) Qiu-Wang, Wang; Zhen, Zhao Performance comparison between mixing ventilation and displacement ventilation with and without cooled ceiling, Engineering Computations, v 23, n 3, 2006, p 218-237 (SCI: 066TL and EI: 06139793476)
(13) Qiuwang Wang, Feng Wu, Min Zeng, Laiqin Luo, Jiguo Sun. Numerical Simulation and Optimization on Heat Transfer and Fluid Flow in Cooling Channel of Liquid Rocket Engine Thrust Chamber, Engineering Computations, v 23, n 8, 2006, p 907-921 (SCI: 116NB and EI: 064610232459)
(14) G. N. Xie, Q.W. Wang, M Zeng, L.Q. Luo. Heat transfer analysis for shell-and-tube heat exchangers with experimental data by artificial neural networks approach, Applied Thermal Engineering, 27: 1096-1104, 2007 (SCI: 136AX and EI: 065110316547)
(15) Wang QW, Chen QY, Wang L, Zeng M, Huang YP and Xiao ZJ, Experimental Study of Heat Transfer Enhancement in Rectangular Narrow Channel with Longitudinal Vortex Generators, Nuclear Engineering and Design, 237 (7): 686–693, 2007 (SCI:152DW and EI: 070910462449)
(16) Feng Wu,Mei Lin, Lin Tian, Qiuwang Wang, Laiqin Luo, Convective heat transfer and pressure drop of a tube with internal longitudinal fins, Heat Transfer- Asian Research, 36 (2): 57–65, 2007 (EI:071210498271)
(17) Xie Gong-Nan, Wang Qiu-Wang, Zeng Min, Luo Lai-Qin. Numerical investigation of heat transfer and fluid flow characteristics inside a wavy channel, Heat and Mass Transfer, 43 (7): 603-611, 2007 (SCI: 151MK and EI: 072010599645)
(18) Qiu-wang Wang*, Min Zeng, Zi-peng Huang, Gang Wang, Hiroyuki Ozoe, Numerical investigation of natural convection in an inclined enclosure filled with porous media under magnetic field, International Journal of Heat and Mass Transfer, 50 (17-18): 3684-3689, 2007 (SCI: 179KI and EI: 071810584105)
(19) Wang Q.W., Liang H.X., Xie G.N., Zeng M., Luo L.Q. and Feng Z.P. Genetic Algorithm Optimization for Primary Surfaces Recuperator of Microturbine, ASME Journal of Engineering for Gas Turbines and Power, 129: 436-442, 2007 (April) (SCI: 159AA and EI: 074010850211)
(20) Qiu-Wang WANG, Gang WANG, Min ZENG and Hiroyuki OZOE, Upward heat flux through the horizontal fluid layer of water with sinusoidal wall temperature at the top or bottom boundaries, Numerical Heat Transfer, Part A, 52(9): 817-829, 2007 (SCI: 210XW and EI: 073910837736)
(21) Min Zeng, Qiu-wang Wang*, Zi-peng Huang, Gang Wang, Hiroyuki Ozoe, Numerical investigation of natural convection in an enclosure filled with porous media under magnetic field, Numerical Heat Transfer, Part A, 52 (10): 959-971, 2007 (SCI: 210XX and EI: 073910837733)
(22) Qiuwang Wang; Gongnan Xie; Botao Peng; Min Zeng, Experimental study and Genetic-Algorithm-based Correlation on shell-side heat transfer and flow performance of three different types of shell-and-tube heat exchangers, ASME J Heat Transfer, 129: 1277-1285, 2007 (SCI: 217TY and EI: 074310885622)
(23) B. Peng, Q.W. Wang, C. Zhang, G. N. Xie, L.Q. Luo, Q.Y. Chen, and M. Zeng, An experimental study of shell-and-tube heat exchangers with continuous helical baffles, ASME J. Heat Transfer, 129 (10): 1425-1431, 2007 (SCI: 232SU and EI: 075010967068)
(24) Qiuwang Wang, Guidong Chen ,Qiuyang Chen and Min Zeng, Recent Patents in Shell-and-Tube Heat Exchangers with Helical Baffles, Recent Patents on Mechanical Engineering, 2008, 1 (2): 88-95 (June)
(25) Qiu-wang Wang*, Cun-lu Zhao, Min Zeng, Yi-ning Wu, Numerical Investigation of Rarefied Diatomic Gas Flow and Heat Transfer in Micro-Channel Using DSMC with Uniform Heat Flux Boundary Condition - Part I: Numerical Method and Validation, Numerical Heat Transfer, Part B, 53:160–173, 2008 (SCI: 251DS and EI: 075210991182)
(26) Qiu-wang Wang*, Cun-lu Zhao, Min Zeng, Yi-ning Wu, Numerical Investigation of Rarefied Diatomic Gas Flow and Heat Transfer in Micro-Channel Using DSMC with Uniform Heat Flux Boundary Condition – Part II: Applications, Numerical Heat Transfer, Part B, 53:174–187,2008 (SCI: 251DS and EI: 075210991182)
(27) Wang Qiuwang, Lin Mei, Zeng Min. Effect of Blocked Core-Tube Diameter on Heat Transfer Performance of Internally Longitudinal Finned Tubes, Heat Transfer Engineering, 29 (1): 107–115, 2008 (SCI: 252OO and EI: 080511064248)
(28) Qiu-Wang Wang, Gang Wang, Min Zeng and Hiroyuki Ozoe, Uni-directional heat flux through the horizontal fluid layer with sinusoidal wall temperature at the top or bottom boundaries, Int J Heat Mass Transfer, 51 (7-8): 1675–1682, 2008 (SCI: 284SK, EI: 080911126999)
(29) Gongnan Xie, Bengt Sunden, Qiuwang Wang, Optimization of Compact Heat Exchangers by a Genetic Algorithm, Applied thermal engineering, 28(8-9): 895–906, 2008 (SCI: 284KY, EI:081011134121)
(30) Tian, Lin; Wang, Qiuwang; Xie, Gongnan; Zhao, Cunlu; Luo, Laiqin, Convective heat transfer and pressure drop of annular tubes with three different internal longitudinal fins, Heat Transfer - Asian Research, 37 (1): 29-40, 2008 (EI: 080611080013)
(31) Gongnan Xie, Qiuwang Wang,* Bengt Sunden, Application of a Genetic Algorithm for Thermal Design of Fin-and-Tube Heat Exchangers, Heat Transfer Engineering, 29:7, 597-607, 2008 (SCI: 315NK, EI:081411182998)
(32) Gang Wang, Qiu-Wang Wang, Min Zeng, Hiroyuki Ozoe, Natural convection heat transfer in an inclined porous cavity under time-periodic boundary conditions with positive/negative Inclined angles, Journal of Porous Media, 11 (6): 541-555, 2008 (SCI: 296CK and EI: 081911241881)
(33) Qiu-Wang Wang *, Mei Lin, Min Zeng, Lin Tian, Investigation of Turbulent Flow and Heat Transfer in Periodic Wavy Channel of Internally Finned Tube with Blocked Core-Tube, ASME J Heat Transfer, 130 (6), Article Number: 061801, 2008 (SCI: 308PZ, EI: 082811356747)
(34) Qiuwang Wang, Xiaohong Yan, Qunwu He, Heat flux specified boundary treatment for gas flow and heat transfer in microchannel using direct simulation Monte Carlo method, International Journal for Numerical Methods in Engineering, 74:7, 1109-1127, 2008 (SCI: 298OT and EI: 082111273777)
(35) Q.W. Wang*, D.J. Zhang, M. Zeng, M. Lin, L. H. Tang, CFD simulation on a thermal power plant with air-cooled heat exchanger system in north China. Engineering Computations, 25 (4): 342-365, 2008 (SCI: 315TI, EI: 082211278834)
(36) G. Wang, Q.W. Wang *, M. Zeng, H. Ozoe, Numerical study of natural convection heat transfer in an inclined porous cavity with time-periodic boundary conditions, Transport in Porous Media, 74 (3): 293-309, 2008 (SCI: 338ZR, EI: 083611499717)
(37) Qiu-wang Wang*, Mei Lin, Min Zeng, Lin Tian, Computational Analysis of Heat Transfer and Pressure Drop Performance for Internally Finned Tubes with Three Different Longitudinal Wavy Fins, Heat and Mass Transfer, , DOI: 10.1007/s00231-008-0414-4
(38) Ling-Hong Tang, Min Zeng, Gong-Nan Xie, Qiu-Wang Wang,Experimental investigation of fin pattern effect on air-side heat transfer and friction characteristics of fin-and-tube heat exchangers with large number of large-diameter tube rows, Heat Transfer Engineering, in press, DOI:10.1080/01457630802304253
(39) D. H. Zhang, Q.W. Wang, M. Zeng, Lu Sun, Numerical research on influence of different slot configurations on film cooling characteristics, Progress in Computational Fluid Dynamics, in press
(40) Lin Tian, Zhang Lin, Jing Liu, Qiu wang Wang*, Numerical study of indoor air quality and thermal comfort under stratum ventilation, Progress in Computational Fluid Dynamics, in press
(41) Gongnan Xie, Qiuwang Wang, Bengt Sunden, Parametric study and multiple correlations on air-side heat transfer and friction characteristics of fin-and-tube heat exchangers with large number of large-diameter tube rows, Applied Thermal Engineering, accepted
(42) G.N. Xie, B. Sunden, Q.W. Wang, L.H. Tang, Performance predictions of laminar and turbulent heat transfer and fluid flow of heat exchangers having large tube-diameter and large tube-row by artificial neural networks, Int J Heat Mass Transfer, accepted
(43) Jun HUAN, Yanping HUAN, Qiuwang WANG, Bofeng BAI, Numerical Study on Effect of Gap Width of Narrow Rectangular Channel on Critical Heat Flux Enhancement, Nuclear Engineering and Design, accepted
(44) Min Zeng, Qiu-wang Wang*, Hiroyuki Ozoe#, Gang Wang, Zi-peng Huang, Natural convection of diamagnetic fluid in an enclosure filled with porous medium under magnetic field, Progress in Computational Fluid Dynamics, accepted
(45) Qiu-Wang Wang, Dong-Jie Zhang, Gong-Nan Xie, Experimental Study and Genetic-Algorithm-Based Correlation on Pressure Drop and Heat Transfer Performances of Cross-Corrugated Primary Surface Heat Exchanger, ASME J Heat Transfer, accepted
(46) Wang Qiu-wang*, Lin Mei, Zeng Min. Effect of Lateral Fin Profiles on Turbulent Flow and Heat Transfer Performance of Internally Finned Tubes, Applied Thermal Engineering, accepted
(47) Qiuwang Wang*, Qiuyang Chen, Guidong Chen, Min Zeng , Numerical Investigation on Combined Multiple Shell-Pass Shell-and-Tube Heat Exchanger with Continuous Helical Baffles, International Journal of Heat and Mass Transfer, accepted

 国际会议(节选)

 


Keynote Lecture:
(1) Wang Q.W., Investigation on novel combined multi-shell-pass shell-and-tube heat exchangers with helical baffles[C], Workshop on advances in compact and micro heat exchangers for sustainable development, IIT Delhi, India, January 7-8, 2008.
Presentation:
(2) He QW, Wang QW, Wang X, Ozoe H. Computational Investigation of Low-Speed Gas Flow and Heat Transfer in Micro-Channel Using DSMC with Pressure Boundary Condition, Heat Transfer 2004 – Eighth International Conference on Advanced Computational Methods in Heat Transfer,24 – 26 March, 2004,Lisbon, Portugal, pp. 463-469 (ISTP: BAP64 and EI: 04428407788)
(3) Wang, QW, Wang X, Tagawa T, Ozoe H. Numerical Investigation on Natural Convection of Water in Porous Layer under Magnetic Field, 6th International Heat transfer Symposium in Beijing, June 15-19, 2004, 281-285
(4) He QW, Wang QW, Tao WQ. DSMC Simulation of Gas Flow in Micro-Channel Constricted by Transverse Rectangular Ribs, Proceeding of the 1st International Forum on Heat Transfer November 24-26, 2004, Kyoto, Japan (5) Xian WANG, Toshio TAGAWA, Hiroyuki HIRANO, Hiroyuki OZOE, and Qiuwang WANG. Numerical study for the behavior of particles with 5µm diameters in natural and magnetic convection fields. The 15th International Symposium on Transport phenomena, Bangkok, Thailand, May. 9-13, 2004, 309-313. (6) Xian WANG, Toshio TAGAWA, Hiroyuki OZOE, and Qiuwang WANG. Numerical computation for particles separation with a magnetic field. Symposium on New Magneto-Science, Proceedings of the 7th Meeting, Tsukuba, Japan, Nov. 5-7, 2003, 253-257. (7) Wang QW, Luo LQ, Liang HX, Wang JW, Huang ZP, Feng ZP and Chen ZQ,Experimental Investigation on Heat Transfer and Pressure Drop in a Microtubine Recuperator with Cross-Wavy Primary Surface Channels, Proceedings of the ASME Turbo Expo, v 3 PART A, Proceedings of the ASME Turbo Expo 2005, 2005, p 293-298, Reno Hilton, Reno-Tahoe, Nevada, USA, June 6-9, 2005, GT2005-68255 (EI: 05479496005 and ISTP: BFK77) (8) Liang HX, Wang QW, Luo LQ and Feng ZP. Numerical simulation of gas flow and heat transfer in cross-wavy primary surface channel for microtubine recuperators, Proceedings of the ASME Turbo Expo, v 3 PART A, Proceedings of the ASME Turbo Expo 2005, 2005, p 321-326, Reno Hilton, Reno-Tahoe, Nevada, USA, June 6-9, 2005, GT2005-68292 (EI: 05479496008 and ISTP: BFK77) (9) Wang L, Wang QW, Huang YP, Xiao ZJ. Heat Transfer and Fluid Flow in Rectangular Narrow Channel with Periodically Mounted Longitudinal Vortex Generators on One Sidewall, 5th International Symposium on Multiphase Flow, Heat Mass Transfer and Energy Conversion Xi’an, China, 3-6 July 2005
(10) Liang HX, Wang QW, Luo LQ, Feng ZP, Chen ZQ. Experimental and Numerical Investigation of Heat Transfer Performance of a Cross-Wavy Surface for Microturbine Recuperator, 5th International Symposium on Multiphase Flow, Heat Mass Transfer and Energy Conversion Xi’an, China, 3-6 July 2005
(11) Xie GN, Wang QW, Chen ZQ. Thermodynamics Analysis and Evaluation on Performance of Convective heat Transfer through Internal Flow with Constant Heat Flux, 5th International Symposium on Multiphase Flow, Heat Mass Transfer and Energy Conversion Xi’an, China, 3-6 July 2005
(12) Zhao Z., Wang QW. Numerical Simulation on Displacement Ventilation with and without Cooled Ceiling, The 10th International Conference on Indoor Air Quality and Climate - INDOOR AIR 2005, September 4-9, 2005 Beijing, China
(13) Suo XN, Zeng M, Wang QW. The Thermo Entry Length Study of Gaseous Flow in Micro-Channels in Slip Flow Regime. International Conference On Micro Energy Systems. 11-14 September 2005, Sanya, China
(14) Zhang DJ, Wang QW, Zeng M, Luo LQ. Numerical Simulation of Flow performance in Shell Side of Shell-and-Tube Heat Exchanger with discontinuous Helical Baffles, Proceedings of the second international symposium on Thermal Science and Technology, Beijing, Oct. 23-25, 2005, 181-185
(15) Xie GN, Zeng M, Luo LQ, Li DL, Wang QW. Prediction of Heat Transfer Rates for Shell-and Tube Heat Exchangers by Artificial Neural Networks Approach, Proceedings of the second international symposium on Thermal Science and Technology, Beijing, Oct. 23-25, 2005, 278-283
(16) Liang HX, Xie GN, Zeng M, Wang QW. Application of the Genetic Algorithm for Optimization of Performance of Recuperator in Microturbine, Proceedings of the second international symposium on Thermal Science and Technology, Beijing, Oct. 23-25, 2005, 121-127
(17) D.J. Zhang, Q.W. Wang, M. Zeng, L.Q. Luo, F. Wu and Z.P. Zheng. CFD optimization of gas inlet configuration for 100kW microturbine recuperator, ASME Turbo Expo 2006, Barcelona Spain May 9 - 11, 2006, GT2006-90256 ( EI: 064610237433 and ISTP: BFJ48)
(18) G.N Xie, Q.Y. Chen, M. Zeng, Q.W. Wang. Thermal design of heat exchanger with fins inside and outside tubes, ASME Turbo Expo 2006, Barcelona Spain May 9 - 11, 2006, GT2006-90260 ( EI: 064610237434 and ISTP: BFJ48)
(19) H.X. Liang, G.N. Xie, M. Zeng, Q.W. Wang, L.Q. Luo and Z.P. Feng. Genetic Algorithm Optimization for Primary Sufaces Recuperator of Microturbine, ASME Turbo Expo 2006, Barcelona Spain May 9 - 11, 2006, GT2006-90366 (EI: 064610237438 and ISTP: BFJ48)
(20) Q. W. Wang, Q. W. He, X. N. Suo, Y. N. Wu. Gaseous Flow and Heat Transfer in Micro-Channel with Heat Flux Specified Boundary Condition, 13th International Heat Transfer Conference, IHTC13-1975, Sydney, Australia, 2006
(21) H.X. Liang, Q.W. Wang, Evaluation of Energy efficiency for a CCHP System with Available Microturbine, Proceedings of GT2007 ASME Turbo Expo 2007: Power for Land, Sea and Air, May 14-17, 2007, Montreal, Canada, GT2007- 27883 (EI: 073910824183)
(22) D.J. Zhang, Q.W. Wang, M. Zeng and S.Y. Wang, WELDING TECHNOLOGIES USED IN ASSEMBLING RECUPERATOR OF MICROTURBINE SYSTEM, Proceedings of GT2007 ASME Turbo Expo 2007: Power for Land, Sea and Air, May 14-17, 2007, Montreal, Canada, GT2007-27884 (EI: 073910827077)
(23) Q.Y. Chen, M. Zeng, D.H. Zhang and Q.W. Wang, PERFORMANCE OPTIMIZATION OF COMPACT CERAMIC HIGH TEMPERATURE HEAT EXCHANGERS, Proceedings of GT2007 ASME Turbo Expo 2007: Power for Land, Sea and Air, May 14-17, 2007, Montreal, Canada, GT2007-27888 (EI: 073910824184)
(24) G.N. Xie, M. Zeng and Q.W. Wang, GENEITC AlGORITHM based Design AND OPTIMIZATION of An OUTER-Fins AND INNER-FINs tube HEAT EXCHANGER, Proceedings of GT2007 ASME Turbo Expo 2007: Power for Land, Sea and Air, May 14-17, 2007, Montreal, Canada, GT2007-27889 (EI: 073910824255)
(25) G. Wang, Q.W. Wang, M. Zeng, Non-Darcy natural convection in a cavity filled with a heat-generating porous medium: thermal non-equilibrium model, Second International Conference on Porous Media and its Applications in Science, Engineering and Industry, June 17-21, 2007, Kauai, Hawaii, USA
(26) J. Yang, Q.W. Wang, M. Zeng, G. Wang, Three-dimensional numerical study of time-periodic natural convective heat transfer in an inclined cubic enclosure with porous medium, Second International Conference on Porous Media and its Applications in Science, Engineering and Industry, June 17-21, 2007, Kauai, Hawaii, USA
(27) Huang Jun, Wang Qiu-Wang, Huang Yan-Ping, Wang Ling, Bai Bo-Feng, Analytical Model Preliminary Study of Critical Heat Flux in Rectangular Narrow Optical Channel, 7th International Conference on Power Engineering (ICOPE-07), Hangzhou, China, October 23-27th, 2007
(28) Qiu-wang WANG, Gang WANG, Min ZENG and Hiroyuki OZOE, The effects of Grashof number and temperature oscillation frequency on the transient natural convection of fluid layer with time-periodic temperature at the bottom or top walls, The Asian Symposium on Computational Heat Transfer and Fluid Flow (ASCHT-07), October 18-21, 2007, Xi’an, China, Paper No. ASCHT2007-106
(29) Gang Wang, Qiu-wang Wang, Min Zeng, Hiroyuki Ozoe, Net upward heat flux through an inclined porous layer with time-periodic oscillating wall temperature, The Asian Symposium on Computational Heat Transfer and Fluid Flow (ASCHT-07), October 18-21, 2007, Xi’an, China, Paper No. ASCHT2007-107
(30) DaHai Zhang, QiuYang Chen, QiuWang Wang, Min Zeng, LaiQin Luo, NUMERICAL RESEARCH ON THE EFFECT OF TRENCH CONFIGURATION ON THE FILM COOLING EFFECTIVENESS OVER A FLAT PLATE, The Asian Symposium on Computational Heat Transfer and Fluid Flow (ASCHT-07), October 18-21, 2007, Xi’an, China, Paper No. ASCHT2007-108
(31) Ling Hong Tang, Min Zeng , Gong Nan Xie, Mei Lin, Qiu Wang Wang, Numerical simulation of fin patterns on air-side heat transfer and flow friction characteristics of fin-and-tube heat exchangers, The Asian Symposium on Computational Heat Transfer and Fluid Flow (ASCHT-07), October 18-21, 2007, Xi’an, China, Paper No. ASCHT2007-109
(32) Lin Tian, Min Zeng, Jing Liu, Qiu Wang Wang, NUMERICAL STUDY OF INDOOR AIR QUALITY AND THERMAL COMFORT UNDER STRATUM VENTILATION, The Asian Symposium on Computational Heat Transfer and Fluid Flow (ASCHT-07), October 18-21, 2007, Xi’an, China, Paper No. ASCHT2007-110
(33) Xiaohong Yan, Qiuwang Wang, EFFECT OF COMPRESSIBILITY ON GAS HEAT TRANSFER IN MICROCHANNELS, The 7th International Symposium on Heat Transfer (ISHT7), October 26-29, 2008, Beijing
(34) Guidong Chen, Min Zeng, Qiuwang Wang, NUMERICAL STUDIES OF COMBIED MULTIPLE SHELL-PASS SHELL-AND-TUBE HEAT EXCHANGERS WITH HELICAL BAFFLES, The 7th International Symposium on Heat Transfer (ISHT7), October 26-29, 2008, Beijing
(35) Peiyao Liu, Qiuyang Chen, Shisen Xu, Baomin Wang, Yongqiang Ren, Xiaoyu Li, Min Zeng, Qiuwang Wang, ,A numerical prediction of the water spray cooling injection angle effect on the fly ash distribution in an entrained flow gasifier, The 4th International Green Energy Conference (IGEC-IV 2008), Oct.19-23, 2008, Beijing, PAPER NO. 252
(36) Qiu Wang Wang, Peiyao Liu, Shisen Xu, Baomin, Wang, Ting Wang, A Parametric Study to Design an Effective Spray Cooling Deploymentin an Entrained-Flow Coal Gasifier, Proceeding of the 25th International Pittsburgh Coal Conference, Pittsburgh, USA, September 29 – October 2, 2008

国内期刊(节选)
(1) 梁红侠,王秋旺,彭波涛,罗来勤,丰镇平,微型燃气轮机回热器换热表面的对比研究,工程热物理学报, 25 (4): 688-690, 2004 (EI: 04398378751)
(2) 彭波涛,罗来勤,王秋旺,邓斌,罗行,陶文铨,多股流板翅式换热器的微分与优化数值研究,化工学报, 55 (6): 876-881, 2004 (EI: 04378355171)
(3) 贺群武, 王秋旺, 罗来勤, 陶文铨, 压力边界条件下微通道内气体流动换热特性研究, 工程热物理学报, 25 (5): 837-839, 2004 (EI: 04448436776)
(4) 王秋旺,螺旋折流板管壳式换热器壳程传热强化研究进展,西安交通大学学报, 38(9):1-6, 2004 (EI: 04508717297)
(5) 田林, 罗来勤, 王秋旺, 两种内翅片管对流换热与阻力特性的实验研究, 工程热物理学报, 26 (3): 471-473, 2005 (EI: 05239147911)
(6) 贺群武, 王秋旺, 罗来勤, 陶文铨, 子网格在DSMC中的作用及三角形子网格, 工程热物理学报, 26 (3): 486-488, 2005 (EI: 05239147916)
(7) 王秋旺,罗来勤,曾敏,王良,陶文铨,黄彦平,交错螺旋折流板管壳式换热器壳侧传热与阻力性能的试验研究,化工学报, 56 (4): 598-601, 2005 (EI: 05229136620)
(8) 索晓娜, 王秋旺, 罗来勤, 压缩性和稀薄性对微通道内气体流动与换热的影响, 工程热物理学报, 26 (4): 659-661, 2005 (EI: 05309266093)
(9) 吴峰, 王秋旺, 罗来勤, 孙纪国, 液体推进剂火箭发动机推力室再生冷却通道三维流动与传热数值计算, 航空动力学报, 20 (4): 197-202, 2005 (EI: 05389374896)
(10) 谢公南,王秋旺,陶文铨,环形通道内层流入口段换热及流体变物性的影响,化工学报,56 (8): 1403-1408, 2005 (EI: 05379360658)
(11) 王令, 陈秋炀, 周砚耕, 王秋旺, 黄彦平, 肖泽军. 单侧带有周期性分布纵向涡发生器的矩形窄通道内传热强化的实验研究, 核动力工程, 26 (4): 344-347, 359, 2005 (EI: 05439438568)
(12) 吴峰,王秋旺,罗来勤,孙纪国,液体火箭发动机推力室冷却通道流动与传热数值研究,推进技术, 26 (5): 389-393, 2005 (EI: 05519604624)
(13) 吴峰,林 梅,田林,王秋旺, 罗来勤,纵向内翅片管对流换热特性的实验研究及数值模拟,化工学报,56 (11): 2065-2068, 2005 (EI: 06069686573)
(14) 卢义,巫英伟,索晓娜,王秋旺. 板坯连铸二冷表面传热系数预测与仿真软件, 工业加热, 34 (6): 4-8, 2005
(15) 巫英伟,卢 义,索晓娜,王秋旺. 板坯连铸二冷区表面传热系数的预测方法. 西安交通大学学报, 40 (1): 26-30, 2006 (EI: 06139783806)
(16) 贺群武,王秋旺,徐进良. 直接模拟蒙特卡罗方法下逆温度抽样算法.西安交通大学学报, 40 (1): 22-25, 2006 (EI: 06139783805)
(17) 张冬洁, 王秋旺, 罗来勤, 吴峰,微型燃气轮机回热器燃气腔的结构优化,热能动力工程, 21 (1): 10-13, 2006 (EI: 06169833080)
(18) 谢公南, 王秋旺, 罗来勤. 周期性波纹通道内换热与流动的数值研究, 计算物理, 23 (1): 93-97, 2006 (EI: 06149802846)
(19) 谢公南,王秋旺,曾 敏,罗来勤. 渐扩渐缩波纹通道内脉动流的传热强化,高校化学工程学报, 20 (1): 31-35, 2006 (EI: 06179840045)
(20) 谢公南,王秋旺,罗来勤. 管内强化传热性能的熵产分析与性能评价, 化工学报, 57 (2): 241-245, 2006 (EI: 06199868197)
(21) 谢公南, 王秋旺, 张东升, 陶文铨, 非正交同位网格下压力与速度耦合算法, 计算力学学报, 23 (1): 93-96, 2006 (EI: 06219886157)
(22) 吴峰, 林梅, 田林, 王秋旺. 纵向带突起内翅片管强化传热研究, 热能动力工程, 21 (3): 283-286, 2006 (EI: 06259949872)
(23) 谢公南, 王秋旺. 遗传算法在板翅式换热器尺寸优化中的应用, 中国电机工程学报, 26 (7): 53-57, 2006 (EI: 06239925869)
(24) 曾敏,彭波涛,喻澎清,陈秋炀,王秋旺,黄彦平,肖泽军. 连续螺旋折流板换热器传热与阻力性能实验研究, 核动力工程, 27(S1): 102-106, 2006 (EI: 063110043051)
(25) 贺群武, 王秋旺, 索晓娜,DSMC方法下恒热流边界条件的实施,工程热物理学报, 27 (4): 685-687, 2006 (EI: 064110166497)
(26) 吴峰,王秋旺, 罗来勤,曾敏,孙纪国, 液体火箭发动机推力室冷却通道传热优化计算, 推进技术, 27 (3): 197-200, 2006 (EI: 063510092431)
(27) 梁红侠 王秋旺 王军伟 黄自鹏 罗来勤 丰镇平,微型燃气轮机CW原表面回热器流动与换热的试验研究,工程热物理学报, 27 (5): 865-867, 2006 (EI: 064410215384)
(28) 吴峰 王秋旺 陈秋炀 唐凌虹 李丹琳 孙微,连续螺旋折流板换热器动态特性研究,热科学与技术, 5 (3): 222-226, 2006
(29) 陈秋炀 曾敏 王令 王秋旺 周砚耕 黄彦平 肖泽军. 纵向涡发生器对矩形窄通道内对流换热的影响,西安交通大学学报, 40(9): 1010-1013, 2006 (EI: 064610239837)
(30) 谢公南,王秋旺,曾敏,罗来勤. 脉动参数对波纹通道内传热强化的影响,计算物理, 23 (6): 673-678, 2006 (EI: 070110348735)
(31) 谢公南, 彭波涛, 陈秋炀, 王秋旺, 罗来勤, 黄彦平, 肖泽军,管壳式换热器壳侧传热与阻力性能的实验研究与预测,中国电机工程学报,26 (21): 104-108, 2006 (EI: 070110349079)
(32) 田林, 王秋旺, 谢公南, 赵存陆, 罗来勤. 三种内翅片管内流动与换热特性, 化工学报, 57 (11): 2543-2548, 2006 (EI: 070310362373)
(33) 王令, 陈秋炀, 曾敏, 周砚耕, 王秋旺, 黄彦平, 肖泽军, 矩形窄通道内带纵向涡发生器的传热强化, 化工学报, 57 (11): 2549-2553, 2006 (EI: 070310362374)
(34) 吴峰,曾敏,王秋旺,孙纪国, 通道深宽比对液体火箭发动机推力室再生冷却的影响, 航空动力学报,22 (1): 114-118, 2007 (EI: 071110487685)
(35) 林梅, 王斗, 吴峰, 曾敏, 王秋旺,内翅片管中堵塞芯管直径优化的数值模拟,化工学报, 58 (2): 322-326, 2007 (EI: 071410529415)
(36) 吴峰,王秋旺, 王令, 王刚, 黄彦平,肖泽军,脉动流通道内带纵向涡发生器动态特性研究, 核动力工程,28 (1): 63-67, 2007 (EI: 071610557733)
(37) 谢公南,王秋旺,曾敏,罗来勤. 几何因子对波纹通道内稳态流动与换热的影响.计算物理,24 (2): 192-196, 2007 (EI: 071810576647)
(38) 吴峰, 王秋旺, 陈秋炀, 谢公南. 连续螺旋折流板管壳式换热器动态特性研究及预测, 热能动力工程,22 (2): 190-196, 2007 (EI: 071910595000)
(39) 黄军,王令,王秋旺,黄彦平,纵向涡发生器传热强化的研究进展,动力工程, 27 (2): 211-217, 2007 (EI: 071910595051)
(40) 唐凌虹,谢公南,曾敏,王海刚,韩武涛,王秋旺,三种大管径翅管式换热器传热与阻力特性的试验研究,西安交通大学学报, 41 (5): 521-525, 2007 (EI: 072510662799)
(41) 陈秋炀,章大海,曾敏,罗来勤,王秋旺, 高压真空断路器用散热器的自然对流换热特性, 高电压技术, 33 (7): 134-138, 2007 (EI: 073410777663)
(42) 索晓娜, 闫孝红, 曾敏, 王秋旺, 微通道内给定壁面热流的气体换热研究, 工程热物理学报, 28 (4): 643-645, 2007 (EI: 073410776495)
(43) 吴峰, 曾敏, 吴一宁, 王秋旺, 连续螺旋折流板换热器动态特性的数值预测及分析, 动力工程, 2007, 27 (4): 573-578 (EI: 073610802950)
(44) 王刚,曾敏,黄自鹏,王秋旺,周期性边界条件下多孔介质方腔内自然对流换热数值研究, 计算物理, 24 (3): 282-286, 2007 (EI:072510663274)
(45) 谢公南,王秋旺,罗来勤. 除湿条件下波纹通道内对流传热传质的数值研究,太阳能学报, 28 (6): 598-603, 2007 (EI: 074210874970)
(46) 王刚,曾敏,王秋旺. 骨架发热多孔介质方腔内非达西自然对流的数值研究[J],核动力工程2007,28 (4):44-48 (EI: 074210875512)
(47) 黄军,王秋旺,黄彦平,白博峰,窄间隙矩形通道沸腾传热强化判定准则研究,化学工程,35 (11): 13-16, 2007 (EI: 080211013300)
(48) 黄军,王秋旺,黄彦平,白博峰,窄间隙矩形通道的临界热流密度解析模型,动力工程,27 (6): 923-926, 2007 (EI: 080211013283)
(49) 闫孝红,王秋旺,索晓娜,谢公南,等壁温加热微通道内气体流动换热特性的直接蒙特卡罗模拟,计算力学学报,24 (6): 817-822, 2007 (EI:080311033322)
(50) 高 强, 王秋旺, 王家贵, 正弦波纹翅片表冷器的传热及阻力特性实验研究, 制冷学报, 28 (5): 1-5, 2007
(51) 王令,黄军,王秋旺,黄彦平,带周期性分布纵向涡发生器的矩形狭窄通道内传热流动的数值模拟,核动力工程,28 (3): 27-31, 2007 (EI: 074210875480)
(52) 吴峰,王秋旺,脉动流条件下带突起内翅片管强化传热数值研究,中国电机工程学报, 27 (35): 108-112, 2007 (EI: 080311032871)
(53) 黄军,王秋旺,黄彦平,白博峰,窄间隙矩形通道间隙厚度对传热强化影响研究,核动力工程,28(6):48-53,2007 (EI: 080411058861)
(54) 章大海,陈秋炀,曾敏,罗来勤,张冬洁,王秋旺,不同横槽结构对气膜冷却效率影响的数值研究,航空动力学报,23 (4):611-616, 2008 (EI: 082111272777)
(55) 张冬洁 王军伟 梁红侠 曾敏 王秋旺, 微型燃气轮机CW原表面回热器应力分析, 动力工程, 28 (2): 200-204, 2008 (EI: 082011257149)
(56) 张冬洁,王军伟,曾敏,王秋旺,微型燃气轮机用CW原表面回热器蠕变分析,工程热物理学报, 29 (4): 671-673, 2008 (EI: 081711223122)
(57) 黄军; 王海刚; 黄彦平; 马建; 王秋旺; CFD在纵向涡强化两相传热模拟中的应用,核动力工程,29 (3): 99-103, 2008 (EI: 082811371197)
(58) 章大海,曾敏,罗来勤,王秋旺,旋转对带冲击孔的叶片前缘流动和换热的影响,工程热物理学报, 29 (8): 1397-1399, 2008 (EI: 083311459661)
(59) 曾敏,王刚,谢公南,陈秋炀,王秋旺,复杂多孔介质腔体内自然对流换热的数值研究,计算物理,25 (4): 445-449, 2008 (EI: 083411475107)
(60) 唐凌虹,曾敏,韩武涛,黄军,王秋旺,多管排大管径翅管式换热器传热与阻力特性的试验研究,工程热物理学报,29(9): 1570-1572, 2008
申请发明专利(节选)
[1] 王秋旺,贺群武,罗来勤,曾敏,钟文凯,杨小明,一种管壳式换热器
  [p]: 中国专利, 200310105835.5
[2] 王秋旺,梁红侠,罗来勤,吴一宁,柏巍,丰镇平,李国君,一种燃气轮机原表面回热器
  [p]: 中国专利, 200410025911.6
[3] 王秋旺,张冬洁,王士元,罗来勤,曾敏,吴一宁,一种焊接单元组片和由其组成原表面回热器芯体的方法
  [p]: 中国专利, 200510041940.6
[4] 王秋旺,张冬洁,曾 敏,罗来勤,吴一宁,一种新风换气机用原表面换热器
  [p]: 中国专利, 200510042697.X
[5] 王秋旺,梁红侠,罗来勤,曾 敏,吴一宁,丰镇平,一种适用于微型燃气轮机的原表面回热器
  [p]: 中国专利, 200510042727.7
[6] 王秋旺,陈秋炀,彭波涛,曾 敏,罗来勤,吴一宁,一种连续螺旋折流板管壳式换热器
  [p]: 中国专利,200510043033.5
[7] 王秋旺,陈秋炀,曾 敏,吴一宁,罗来勤,一种多壳程螺旋折流板管壳式换热器
  [p]: 中国专利, 200610041949.1
[8] 王秋旺,张冬洁,王士元,曾敏,罗来勤,吴一宁,一种微型燃气轮机用环形原表面回热器加工工艺
  [p]: 中国专利,200610104725.0
[9] 王秋旺,陈秋炀,曾敏,吴一宁,高强,一种组合式多壳程螺旋折流板管壳式换热器
  [p]: 中国专利, 200710017478.5
软件著作权
[1] “板坯连铸二冷表面传热系数预测与仿真软件”, V1.0 ,受理号: 200518356
[2]“管翅式换热器设计与优化选型软件”
获奖及荣誉
(1) 1999 年获“研究生教学优秀教师奖”称号(个人奖-王秋旺)
(2) 2000 年获“西安交通大学中青年教师授课竞赛青年组一等奖”(个人奖-王秋旺)
(3) 2000 年以“面向 21 世纪热工系列课程教学内容与课程体系改革的研究与实践”获“西安交通大学优秀教学成果一等奖”
(4) 2001 年荣获“西安交通大学首届多媒体授课竞赛二等奖”(个人奖-王秋旺)
(5) 2001 年以“加强实践,跟踪前沿,建设培养高层次人才的计算传热学系列课程”获“国家级教学成果二等奖”
(6) 2001 年以“传热学多媒体教学课件”获陕西省现代教育技术成果二等奖
(7) 2003 年以“传热学多媒体教学课件”获第六届全国多媒体教育软件大奖赛优秀奖
(8) 2003 年以“多媒体手段在传热学课程教学中的应用”获西安交通大学第八届优秀教学成果二等奖
(9) 所在课题组荣获西安交通大学2004年度 HeatCraft “杰出团队奖”
(10) 2005 年获“宝钢教育基金优秀教师奖”(个人奖-王秋旺)
(11) 2005 年获“王宽诚育才奖”(个人奖-王秋旺)
(12) 2006 年获第二届西安交通大学教学名师奖(个人奖-王秋旺)
(13) 2007 年获第三届陕西普通高等学校教学名师奖(个人奖-王秋旺)
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