Numerical studies on erosive burning in cylindrical solid propellant grain

被引：0

作者：

K. Srinivasan

S. Narayanan

O. P. Sharma

机构：

[1] Indian Institute of Technology Madras,Department of Mechanical Engineering

[2] Indian Institute of Technology Kanpur,Department of Aerospace Engineering

来源：

Heat and Mass Transfer | 2008年 / 44卷

关键词：

Burning Rate; Turbulent Boundary Layer; Ammonium Perchlorate; Core Flow; Composite Propellant;

D O I：

暂无

中图分类号：

学科分类号：

摘要：

This paper addresses erosive burning of a cylindrical composite propellant grain. Equations governing the steady axisymmetric, chemically reacting boundary layer are solved numerically. The turbulence is described by the two equation (k-ɛ) model and Spalding’s eddy break up model is employed for the gas phase reaction rate. The governing equations are transformed and solved in the normalized stream function coordinate system. The results indicate that the dominant reaction zone lies within 20% of the boundary layer thickness close to the wall. The sharp gradient of the temperature profile near the wall is found responsible for bringing the maximum heat release zone near the surface and hence enhancement in the burning rate. The model reproduces the experimental observation that erosive burning commences only above a threshold value of axial velocity.

引用

页码：579 / 585

页数：6

共 23 条

[1]

Corner J(1947)The effect of turbulence on heterogeneous reaction rates Trans Faraday Soc 43 635-681

[2]

Green L(1954)Erosive burning of some composite solid propellants Jet Propulsion 24 9-386

[3]

Klimov AM(1975)Erosive burning of propellants Combust Explosion Shock Waves 11 678-128

[4]

Lengelle G(1975)Model describing the erosive combustion and velocity response of composite propellants AIAA J 13 315-236

[5]

Yamada K(1976)Simulative study on the erosive burning of solid rocket motors AIAA J 14 1170-811

[6]

Goto M(1978)Reacting turbulent boundary layer approach to solid propellant erosive burning AIAA J 16 898-42

[7]

Beddini RA(1980)Aerothermochemical analysis of erosive burning in a laboratory solid rocket motor AIAA J 18 1346-undefined

[8]

Beddini RA(1981)Erosive burning of condensed materials in an acoustic field Combust Explosion Shock Waves 17 383-undefined

[9]

Vilyunov VN(1982)Turbulent flow analysis of erosive burning of cylindrical composite solid propellants AIAA J 20 122-undefined

[10]

Isaev Yu M(1997)Universal behavior in erosive burning of solid propellants Combust Flame 109 224-undefined

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