研究领域

        主要从事湿蒸汽两相流动及其测试、凝汽器壳侧的蒸汽流动与换热、叶轮机械(蒸汽轮机与燃气轮机)气动热力学等方面的研究。近年来从事燃气轮机二次空气系统及高温部件冷却方面的研究。目前研究工作涉及燃气轮机二次空气系统的流体动力特性、透平叶片冷却以及转静盘腔内的流动与换热等。

主要著作

王新军,李亮,宋立明、李军,汽轮机原理,西安交通大学出版社,2014

王新军,李亮,王顺森,膨胀湿蒸汽两相高速流动,西安交通大学出版社,2017

学术成果

SCI源刊
[1]Xinjun Wang*, Feng Zhang, Daren Zheng, Jun Li, Effect of droplet characteristics and rotation speed on the Flow and Heat Transfer Characteristics of Mist/air Cooling in a Rotating Ribbed Two-pass Rectangular Channel [J]. Proc. IMechE Part a: Journal of Power and Energy, 2017, 231(2): 119-132.
[2]Feng Zhang, Xinjun Wang*Jun Li, Flow and heat transfer characteristics in rectangular channels using combination of convex-dimples with grooves [J]. Applied Thermal Engineering1132017926-936.
[3]Feng ZhangXinjun Wang*,Jun Li. Numerical investigation on the flow and heat transfer characteristics in radial pre-swirl system with different fillet radius at the junction of inlet cavity and nozzle[J].Applied Thermal Engineering106(2016):1165-1175.
[4]Feng ZhangXinjun Wang*,Jun Li. Numerical investigation of the flow and heat transfer characteristics for a pre-swirl rotor-stator system with center inflow[J]. Applied Thermal Engineering105(2016):646-658.
[5]Feng ZhangXinjun Wang*,Jun Li. The effects of upstream steps with unevenly spanwise distributed height on rectangular hole film cooling performance[J]. International Journal of Heat and Mass Transfer102(2016):1209-1221.
[6]Xinjun WangaGaoliang Liaob,*Feng ZhangaJun Lia. Numerical Investigation on the Steady and Unsteady Flow Characteristics of Rim Seal for the First Stage in Gas Turbine[J]Applied Thermal Engineering99(2016):11-22.
[7]Feng ZhangXinjun Wang*Gaoliang Liao and Jun Li. Numerical investigation of flow and heat transfer characteristics in radial pre-swirl system with different pre-swirl nozzle angles[J]International Journal of Heat and Mass Transfer2016954:984–995.
[8]Xinjun Wang1*Zijie Zhou1Zhao Song1Qiankui Lu2Jiafu Li2. Numerical Analysis of Transient Pressure Variation in a Condenser of a Nuclear Power Station[J]Journal of Mechanical Science and Technology201630(2):953-962.
[9]Feng ZhangXinjun Wang*Jun Li. Effects of Coolant on the Flow and Heat Transfer Characteristics in a Non-rotating and Rotating Two-pass Rectangular Channel[J]International Journal of Heat and Mass Transfer91(2015):390-400.
[10]Xinjun Wang *,  Peng Cheng, Jinwei Xie , Zijie  ZhouStructure Modifying and Numerical Study on Moisture Separation Performance of Special Crossunder Pipe Separators for Nuclear Power Steam Turbines[J], Journal of Mechanical Science and Technology, 2015,29 (8): 3531~3540.
[11]Gaoliang LiaoXinjun Wang*Jun Li. Numerical Investigation on the Flow and Heat Transfer in a Rotor-Stator Disc Cavity[J]Applied Thermal Engineering872015:10-23.
[12]Feng Zhang, Xinjun Wang*Gaoliang Liao, and Jun Li , Computational fluid dynamics analysis for effect of length to diameter ratio of nozzles on performance of pre-swirl systems[J]Proceedings of the iMeche, Part A: Journal of Power and Energy20152294):381-392.
[13]Gaoliang Liao, Xinjun Wang*, Jun Li,Junfei ZhouEffect of Trench Width and Blowing Ratio on Double-Jet Film Cooling Embedded in Trenches[J]Proceedings of IMechE Part AJ power and Energy2015229(3): 256-269.
[14]Gaoliang Liao, Xinjun Wang*Jun Li , A Numerical Comparison of Thermal Performance of In-line Pin-fins in a Wedge Duct with Three Kinds of Coolant[J]International Journal of Heat and Mass Transfer,2014,77:1033–1042.
[15]Gaoliang Liao, Xinjun Wang*, Jun LiNumerical investigation of the pre-swirl rotor-stator system of the first stage in gas turbine[J]Applied Thermal Engineering 73 (2014) 938-950.
[16]Chunguo Li, Xinjun Wang*, Dajing Cheng , Experimental study on effects of slot hot blowing on secondary water droplet size and water film thickness[J]. Journal of engineering for gas turbines and power, 2009, 131:(033001)1-7.
[17]Yanfeng Li, Junmei Li, Heng Jia, Xinjun Wang, Tingxiang Xu, Correction of Non-Isokinetic Sampling of Wetness Measurement for Wet Flow[J], Journal of Thermal Science,2002,11(1).
[18]Yanfeng Li, Xinjun Wang, Tingxiang Xu. Improvement of heating method for measuring the wetness of flowing wet steam. Journal of Thermal Science 7.3 (1998): 202-208.
 
 
EI源刊

[1]费昕阳,王新军*,陆海空,平安冲击发散冷却流动与换热特性数值研究[J].西安交通大学学报,201751(7).

[2]张峰,王新军*,李军,球凹平板冲击冷却性能的数值研究及结构改进[J].西安交通大学学报,201650(1)124-130.

[3]周骏飞,王新军* ,张峰,连续收缩扩张气膜孔排冷却特性的数值模拟[J].西安交通大学学报,201650(3)38-44.

[4]张峰,王新军*,李军,冷却孔位置对透平第二级转静腔室性能影响的数值研究[J].西安交通大学学报,201650(3)55-61.

[5]周子杰,王新军*,费昕阳,燃机透平静叶尾缘柱肋通道中的汽雾/空气冷却流动与换热特性数值研究[J],西安交通大学学报,2016,5011):21-27.

[6]王新军*周子杰,宋钊,鲁前奎,李家富,核电站凝汽器压力瞬态变化特性研究[J],西安交通大学学报,2015,497):6-10.

[7]谢金伟,王新军*,周骏飞,空心静叶汽膜孔排吹扫除湿的数值研究[J].西安交通大学学报,201549(7)61-66.

[8]王新军*,周子杰,宋钊,鲁前奎,李家富,核电站凝汽器压力瞬态变化特性研究[J].西安交通大学学报,201549(7)6-10.

[9]张峰,王新军*,李军,带肋U型通道中的汽雾/空气流动与换热数值研究[J].西安交通大学学报,201549(9)57-63.

[10]谢金伟,王新军*廖高良,汽轮机调节阀-调节级段三维流动与压力损失数值研究,中国电机工程学报,2014,3420):3376-3383.

[11] 程鹏,王新军*,张峰等.核电汽轮机弯管式汽水分离器的改进结构及其除湿性能[J].西安交通大学学报,201448(5)61-67.

[12]廖高良,王新军*,李军.带槽双射流气膜冷却数值研究[J].西安交通大学学报,201448(3)34-38.

[13]李春国,王新军,关盼龙等.汽轮机静叶表面水膜缝隙抽吸的试验研究.西安交通大学学报,200943(1)20-23.

[14]李春国,王新军,王贤钢等.汽轮机静叶栅中水滴运动与沉积规律的数值研究.西安交通大学学报,200842(9)1076-1080

[15]王新军,卢澄,李振光,缝隙吹扫对静叶出口二次水滴直径影响的实验研究,西安交通大学学报,200741(7)764-767

[16]Xinjun Wang,Tingxiang Xu, Yanfeng Li. Effects of water suction on water film tearing at trailing blade edges. Heat Transfer Asian Reseach, 2005, 34(6): 380-385.

 
国际会议
[1]Feng Zhang1Xinjun Wang1*, Jun Li1, Rui Tan2, Dongliang Wei2, Numerical inverstigation of impingement heat transfer on convace-dimpled plate with different dimple arrangement [C], Proceedings of ASME Turbo Expo 2016, ASME Paper GT2016-56751.
[2]Gaoliang Liao, Xinjun Wang*,Jun Li, Feng Zhang, Effects of curvature on the film cooling effectiveness of double-jet film cooling,. ASME PAPER GT2014-26263.
[3]Gaoliang Liao, Xinjun Wang*, Xiaowei Bai, Numerical investigation on the flow and heat transfer characteristics of the superheated steam in the wedge duct with pin-fins. ASME Paper GT2013-94205.
[4]Xinjun Wang*, Gaoliang Liao, Ding Zhu, Study on the sampling quality of wetness measurement probe for thermodynamic method. ASME Paper GT2012-68262.
[5]Xinjun Wang*, Rui Liu, Xiaowei Bai, Numerical study on flow and heat transfer characteristics of jet impingement. ASME Paper GT 2011-45287.
[6]Xinjun Wang*Xiaowei Bai, Jiangbo Wu, Numerical study on heat transfer characteristics in rectangular ducts with pin-fins.ASME Paper GT2011-45286
[7]Xinjun Wang*Pengfei SuLuke ChouPanlong GuanChunguo LiHongyu ZhouWater droplets dispersion and optimization of water removal suction slot locations on stationary blades in last-stage of a 600 MW steam turbineASME Paper GT2009‑59490.
[8]Xinjun Wang*, Wei WangLuke Chou etc, Flow and Heat Transfer of Air and Steam in Internal Cooling Passages of Turbine Blade, ASME Paper: GT2010-22180.
[9]Li Chunguo, Wang Xinjun*Cheng Daijing, et al. Experimental study on effects of slot hot blowing on secondary water droplet size and water film thickness. ASME Paper GT2008-60015.
 
 
主要研究项目:
燃气轮机方面:
1)973项目:涡轮叶片双工质冷却实验平台建设及冷却特性研究
2)燃气透平多级计算技术及叶片冷却传热特性研究
3)燃气轮机透平叶片冷却技术与传热特性研究
4)燃气轮机透平流动及传热三维CFD验证
 
汽轮机与辅机部分方面:
5)湿蒸汽湿度测量技术研究
6)阀门布置与运行方式对机组振动特性影响研究
7)超超临界660MW阀门布置与运行方式对机组振动特性影响研究
8)亚临界600MW机组阀门-调节级内非定常流动与转子振动特性研究
9)7.5KW VRB储能电池堆系统流道结构设计与计算
10)CAP1400核电1828低压模块流动特性及可靠性分析
11)一次和二次再热机组的循环热经济性与参数匹配
12)1000MW等级核电机组凝汽器瞬态换热与压力变化特性研究
13)凝汽器汽相流动与传热特性数值计算程序开发及研究
14)空心末级静叶栅内的水滴运动与沉积规律及缝隙除湿研究
15)空心导叶校核计算与试验验证
16)国电廊坊湿冷机组排汽余热利用项目

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