基于SIMULINK的超声速进气道仿真方法被引量：1

A simulation method based on SIMULINK for a supersonic inlet

下载PDF

导出

摘要将进气道一维流动的偏微分方程离散为一系列可积分的线性常微分方程,基于此创建了超声速进气道仿真模型,提出了一种基于SIMULINK的进气道仿真方法,模拟了来流参数和燃烧室反压扰动时流场内各个参数的变化规律。对一个一维变几何超声速进气道进行仿真,获得了结尾正激波的稳态特性及动态特性。该模型定义并输出了激波位置,有效地将一维超声速进气道的分布参数问题转换为零维问题,解决了系统分析与控制系统设计中无法实现集总参数的困难。 A computational platform of a supersonic inlet with variable geometry was devewped using MATLAB/SIMULINK. A method based on the platform for simulation of a complicated model has been presented. The correctness and reliability of the new method have been testified by simulating the stationary flow fields of an inlet under back pressure vibration and vibration parameters of incoming air flow. Based on the method, the dy-namic behavior of the terminal normal shock wave in the inlet has been obtained by carrying out a simulation of the object model of an inlet, and the dynamic and stationary characteristics have also been obtained. A complicated distributed parameter problem of an one-dimensional supersonic inlet has been transformed to a zero dimensional problem which overcomes concentrative-parameter difficulty.

作者何保成姚照辉鲍文常军涛

机构地区哈尔滨工业大学先进动力控制及可靠性研究所

出处《推进技术》 EI CAS CSCD 北大核心 2007年第2期199-203,共5页 Journal of Propulsion Technology

关键词超声速进气道正激波起动动态仿真^+ Supersonic inlet Normal shock wave Starting Dynamic simulation ^＋

分类号 V235.213 [航空宇航科学与技术—航空宇航推进理论与工程]

引文网络
相关文献

参考文献10

1Amy Chicatelli, Tom T Hartley. A method for gen-erating reduced order linear models of supersonic inlet [ R ]. NASA Contractor Report 198538, 1997.
2Sarantopoulos A. Development of transfer functions for partial differential equations with propulsion of the system applications [ D ]. University of Akron, 1994.
3Vivek Sanghi, Kishore Kumar S, Sundararajan V, et al. Engine-airframe integration during conceptual design for military application [ J]. Journal of Aircraft, 1998, 35 (3).
4Douglas G MacMartin. Dynamics and control of shock motion in a near-isentropic inlet[ R]. AIAA 2002-2943.
5Ohshima T,Kanabe K. Control of the intake shock-position in the test rig for ramjet engine[ R]. AIAA 97-2885.
6Kojima T, Tanatsugu N, Sato T, et al. Experimental study on inlet control system for hy-personic flight [ C ]. 22nd International Symposium on Space Technology and Science, Morioka , Japan,2000.
7Ashun Umair, Merchant Ali, Paduano James, et al. Design of an actively stabilized, near-isentropic supersonic inlet[ C]. 16th AIAA Computational Fluid Dynamics Conference, Orlando, FL, 2003.
8Kenneth Thomas Moore. Optimal sensor placement for control of a supersonic mixed-compression inlet with variable geometry [ D ]. University of Cincinnati, 1998.
9Umair Ahsun, Ali Merchant, James D Paduano, et al. Design of an actively stabilized near-isentropic supersonic inlet [ J ]. Journal of Propulsion and Power, 2005,21 (2).
10Wen Bao, Xiaoling Wu, Daren Yu, et al. Computation platform of SPT dynamic characteris-tics based on simulink [ C ]. 7^th Biennial Conference on Engineering Systems Design and Analysis, Manchester, United Kindom ,2004.

同被引文献19

1常军涛,鲍文,于达仁,曲亮.一维超声速进气道运动激波的动态仿真[J].导弹与航天运载技术,2007(4):48-51. 被引量：2
2Fry R S. A Century of Ramjet Propulsion Technology Evolution[ J]. Journal of propulsion and power, 2004, 20 ( 1 ) :27-58.
3Himmel S C. Some Control Considerations for Ram-Jet Engines[J]. NACA RM-E52F10, 1952.
4Oh J Y, Ma F, Hsieh S Y, et al. Interactions Between Shock and Acoustic Waves in a Supersonic Inlet Diffuser [ J]. Journal of Propulsion and Power, 2005, 21 (3) : 486-495.
5Park I S, Kim S K, Yeom H W, et al. Control-Oriented Model for Intake Shock Position Dynamics in Ramjet Engine [ J]. Journal of Propulsion and Power, 2011, 27 (2) :499-502.
6Willoh R G. A Mathematics Analysis of Supersonic Inlet Dynamic[R]. NASA TN D-4969, 1968.
7Hurrell H G. Analysis of Shock Motion in Ducts During Disturbances in Downstream Pressure [ R ]. NACA, TN4090,1957.
8Varner M O, Martindale W R, Phares W J, et al. Large Perturbation Flow Field Analysis and Simulation for Supersonic Inlets Final Report [ R]. NASA CR 174676, 1984.
9Kopasakis G, Connolly J W. Shock Positioning Controls Design for a Supersonic Inlet[ R]. A1AA 2009-5117.
10He B C, Chang J T, Bao W, et al. Supersonic Inlet Dynamics Model Based on Equilibrium Manifold[ R ]. AIAA 2006-7903.

引证文献1

1秦艳平,李斌,梁俊龙.进气道动态特性的传递函数多项式近似分析[J].推进技术,2013,34(5):583-588.

1车竞,唐硕.高超声速飞行器机身/超燃冲压发动机一体化设计研究[J].实验流体力学,2006,20(2):41-44. 被引量：11
2熊志平,武晓松,夏强.超声速轴对称进气道流场的数值模拟[J].兵工学报,2009,30(1):5-8. 被引量：6
3黄伟,陈广南.推力中止过程一维不定常气相流动数值计算[J].固体火箭技术,1996,19(3):12-16. 被引量：1
4马利锋,李强,秦飞.冲压发动机外压式二元进气道优化设计与流场分析[J].科学技术与工程,2012,20(5):1076-1080.
5蔡飞超,陈凤明,徐东来,杨茂.宽Ma数范围固定几何进气道设计问题研究[J].固体火箭技术,2010,33(2):163-166. 被引量：9
6钮耀斌,王中伟,毛佳,张礼学.基于微分求积法的高超声速机翼蒙皮颤振研究[J].国防科技大学学报,2012,34(2):141-144.
7夏强,武晓松,孙波.超声速轴对称进气道稳定工作范围研究[J].计算机仿真,2009,26(5):68-71.
8Shoufeng SHEN,Changzheng QU,Yongyang JIN,Lina JI.Maximal Dimension of Invariant Subspaces to Systems of Nonlinear Evolution Equations[J].Chinese Annals of Mathematics,Series B,2012,33(2):161-178. 被引量：13
9王丁喜,严传俊.脉冲爆震发动机进气道气动性能的数值研究[J].力学学报,2005,37(6):777-782. 被引量：7
10陈强,陈立红,顾洪斌,张新宇.释热分布对超燃冲压发动机性能的影响及优化[J].推进技术,2009,30(2):135-138. 被引量：11

推进技术

2007年第2期

浏览历史

内容加载中请稍等...

基于SIMULINK的超声速进气道仿真方法被引量：1

参考文献10

同被引文献19

引证文献1

相关作者

相关机构

相关主题

浏览历史

基于SIMULINK的超声速进气道仿真方法 被引量：1

参考文献10

同被引文献19

引证文献1

相关作者

相关机构

相关主题

浏览历史

基于SIMULINK的超声速进气道仿真方法被引量：1