He Hong-qing, Hou Xiao, Cai Ti-min, Wu Xing-ping. An lmplicit Algorithm of Thin Layer Equations In Vlscous Transonic,Two-Phase Nozzle Flow[J]. Applied Mathematics and Mechanics, 1994, 15(4): 303-312.
Citation: He Hong-qing, Hou Xiao, Cai Ti-min, Wu Xing-ping. An lmplicit Algorithm of Thin Layer Equations In Vlscous Transonic,Two-Phase Nozzle Flow[J]. Applied Mathematics and Mechanics, 1994, 15(4): 303-312.

An lmplicit Algorithm of Thin Layer Equations In Vlscous Transonic,Two-Phase Nozzle Flow

  • Received Date: 1992-09-18
  • Publish Date: 1994-04-15
  • Omitting viscosity along flow direction,we have simplified the dimensionless N-Sequations in arbitrary curved coordinate system as the thin layer equations.Using theimplicit approximate-factorization algorithm to solve the gasphase governing equ-ations and the characteristic method to follow the tracks of particles,we then obtainedthe full coupled numerical method of two-phase.transonic,turbulent flow.Here,particle size may be grouped,the subsonic boundary condition at entry of nozzle is ireatedby quasi-characteristic method in reference plane and the algebraic model is used forturbulent flow.These methods are applied in viscous two-phase flow.calculation of rocket nozzle and in the prediciton of thrust and specific impulse for solid propellant rocket motor.The calculation results are in good agreement with the measurerment values.Moreover,the influences of different particle radius,different particle mass fraction and particle size grouped on flow field have been discussed,and the influences of particle two-dimensional radial velosity component and viscosity on specific impulse ofrocket motor have been analysed.The method of this paper possesses the advantage of saving computer time.More important,the effect is more obvious for the calculation of particle size being grouped is more obvious.
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  • [1]
    Shang,1.S.,one-and Two-Phase Nozzle Flows,AIAA 80-272.
    [2]
    方丁酉,用时间相关法计算跨音速流场,空气动力学学报,〔2)(1985).
    [3]
    Beam,R.M.and R.F.Warming,An implicit finite different algorithms for hyperbolic systems in conservation law form,J.Comput.Phy.,22(1976).
    [4]
    Dash,S.M.,D.E.Wolf.R.A.Beddinf and H.S.Pergament.Analysis of two-phase flow processes in rocket exhaust plumes,J.Spacecraft Rockets,22(3)(1985).
    [5]
    Coakley,T.J.and J.M.Champeny,Numerical Simulation of ComPressible,Turbulent.Two-Phase Flow,AIAA 85-1666.
    [6]
    方丁酉,两相跨音速喷管流动,宇肮学报.(3)(1987).
    [7]
    Steger,J.L.,Implicit finite different simulation of flow about arbitrary two-dimensional geometries.AIAAJ.,16(7)(1978).
    [8]
    张涵信、余楚泽、陆林生、马占奎,超音速、高超音速粘性气体分离流动的数值解法,力学学报,(4)(1981).
    [9]
    Barger,M.E.,Performance Prediction for Solid Rocket Motor Using a Particle Size Change Model,AIAA 81-1577.
    [10]
    Baldwin,B.S.and H.Lomax,Thin Layer Approximation and Algebric Model for Separated Turbulent Flows,AIAA 78-257.
    [11]
    Brown,E.F.and G.L.Hamilton,A survey of methods for exhaust-nozzle flow analysis,J.Aircraft,13(1)(1976).
    [12]
    Hwang,C.J.and G.C.Chang.Numerical steady of gas particle flow in a solid rocket nozzle.AIAA J.,26(6)(1986).
    [13]
    张远君译,《气体一颗粒流基础》,国防工业出版社(1986).
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