旋转通道一维非定常计算模型

吴宏; 李澎; 刘冬冬; 陶智

旋转通道一维非定常计算模型

北京航空航天大学能源与动力工程学院航空发动机气动热力国家级重点实验室, 北京 100191

基金项目: 国家自然科学基金(51176004)

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出版历程
- 收稿日期: 2012-08-03
- 刊出日期: 2013-08-28

One-dimensional unsteady analytical model of rotating passage

National Key Laboratory of Science and Technology on Aero-Engine Aero-thermodynamics, School of Energy and Power Engineering, Beijing University of Aeronautics and Astronautics, Beijing 100191, China

摘要

摘要: 采用特征线法,对航空发动机二次空气系统的旋转通道结构一维非定常流动及换热的计算模型进行了研究,通过将广义的定截面、有摩擦、考虑对外热交换的旋转通道可压缩非定常流动偏微分方程组转换为常微分方程组,考虑旋转离心力,并采用Colebrook White方程定义其阻力特性,进而获得旋转通道内部沿流动方向压力、质量流量、温度等系统参数的特征线数值解,采用商业软件Fluent对其进行验证.结果表明:特征线法利用压力波传播方式对旋转通道进行求解,能够直观地描述旋转通道一维非定常流动及换热特性,计算误差不超过5%,可以作为二次空气系统旋转通道一维非定常计算研究的有效手段.
- 旋转通道 /
- 特征线法 /
- 一维非定常 /
- 偏微分方程组 /
- 二次空气系统
Abstract: The main purpose of the research was to investigate one-dimensional flow and heat transfer activity in rotating passage of secondary air system in aero-engines by method of characteristics.Partial differential equations of rotating passage generally integrating invariability of flow area,friction and heat transfer were transformed to ordinary differential equations,considering the influence of the centrifugal force by rotation;and the Colebrook White equation was used to predict its loss performance,so one-dimensional characteristic numerical solutions of pressure,flow,temperature and other parameters in rotating passage were derived.Results were verified by commercial software Fluent,showing that the method of characteristics is visual by utilizing pressure wave to describe the flow in rotating passage,with the error not exceeding 5%.Thus,it is an efficient way of one-dimensional unsteady research on rotating passage in secondary air system.
- rotating passage /
- method of characteristics /
- one-dimensional unsteady /
- partial differential equations /
- secondary air system

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参考文献(15)

[1]	刘峥,张扬军.内燃机一维非定常流动[M].北京:清华大学出版社,2007.
[2]	邓康耀.内燃机中一维非定常流动计算的特征线法与有限体积法的比较[J].上海交通大学学报,1999,33(8):1-11. DENG Kangyao.Comparison of characteristics method and finite volume method in computation of one dimensional unsteady flow in internal combustion engines[J].Journal of Shanghai Jiaotong University,1999,33(8):1-11.(in Chinese)
[3]	陈永刚,何立明,刘建勋.特征线法在脉冲爆震发动机性能计算中的应用[J].航空动力学报,2005,20(4):641-644. CHEN Yonggang,HE Liming,LIU Jianxun.Application of characteristic method to the performance calculation of the pulse detonation engine[J].Journal of Aerospace Power,2005,20(4):641-644.(in Chinese)
[4]	戴梧叶,刘宇.特征线法在塞式喷管中的应用[J].航空动力学报,2000,15(4):371-374. DAI Wuye,LIU Yu.Application of characteristic method to the piston nozzle[J].Journal of Aerospace Power,2000,15(4):371-374.(in Chinese)
[5]	陈阳,高芳,张振鹏,等.准一维可压缩瞬变管流的有限体积模型:流场的有限体积模型[J].航空动力学报,2008,23(2):311-316. CHEN Yang,GAO Fang,ZHANG Zhenpeng,et al.Finit volume model for quasi one-dimensional compressible transient pipe flow:finite volume model of flow field[J]. Journal of Aerospace Power,2008,23(2):311-316.(in Chinese)
[6]	刘昆,张育林.一维可压缩流的有限元状态空间模型[J].推进技术,1999,20(5):62-66. LIU Kun,ZHANG Yulin.Finit elements state-space model for one-dimensional compressible fluid flow[J].Journal of Propulsion Technology,1999,20(5):62-66.(in Chinese)
[7]	Harley C,Faghri A.Tow-dimensional rotating analysis[J].Jounal of Heat Transfer,1995,117(2):202-208.
[8]	陶智,徐国强,丁水汀.航空发动机传热学[M].北京:北京航空航天大学出版社,2005.
[9]	Morel T,Flemming M F,Lapointe L A.Characterization of manifold dynamics in the Chrysler 2.2 S.I.engine by measurements and simulation [R].SAE Technical Paper 900679,1990.
[10]	White A.Flow of a fluid in an axially rotating pipe[J]. Journal of Mechanical Engineering Science,1964,6(1):47-52.
[11]	Alexiou A,Mathioudakis K.Secondary air system component modeling for engine performance simulation[J].Journal of Engineering for Gas Turbines and Power,2009,131(5):031202.1-031202.9.
[12]	Miller D S.Internal flow systems[M].2nd ed.Cranfield:BHR Group Limited,1996.
[13]	张靖周.高等传热学[M].北京:科学出版社,2009.
[14]	Yoo G J,So R M C,Hwang B C.Calculation of developing turbulent flows in a rotating pipe[J].Journal of Turbomachinery,1991,113(1):34-41.
[15]	Michaux G,Vauquelin O,Gauger E.An experimental procedure for determining both the density and flow rate from pressure drop measurements in a cylindrical pipe[J].Journal of Fluids Engineering,2008,130(9):094501.1-094501.3.