Influence of the geometry of the nozzle on the characteristics of an exhaust jet

被引：0

作者：

Buzykin O.G. ^{[1
]}

Kogan M.N. ^{[1
]}

Kucherov A.N. ^{[1
]}

机构：

[1] N. E. Zhukovskii Central Aerohydrodynamic Institute, 140180, Moscow Region

来源：

Journal of Engineering Physics and Thermophysics | 2006年 / 79卷 / 3期

关键词：

Mach Number; Stokes Equation; Main Duct; Exit Section; Cocurrent Flow;

D O I：

10.1007/s10891-006-0122-1

中图分类号：

学科分类号：

摘要：

Two solutions for the parameters of a turbulent exhaust jet of a dual-duct engine - the traditional solution within the framework of Prandtl equations of the type of boundary-layer equations and calculation of the near-range field within the framework of the Navier-Stokes equations with subsequent calculation within the framework of the Prandtl equations for large distances - have been compared. It has been shown that the influence of the real geometry of the nozzle exit section, including the shift of the center body and the main duct forward from the exit section of the cold secondary duct, can be allowed for by correcting the constant of the source term in the differential equation for turbulent kinematic viscosity. © Springer Science+Business Media, Inc. 2006.

引用

页码：456 / 466

页数：10

共 14 条

[1] Abramovich G.N., Girshovich T.A., Krasheninnikov S.Yu., Et al., Theory of Turbulent Jets [in Russian], (1984)
[2] Abramovich G.N., Applied Gas Dynamics [in Russian], PART 1, (1991)
[3] Kozlov V.E., Sekundov A.N., Smirnova I.P., Axisymmetric turbulent compressed jet in a subsonic cocurrent flow, Problems of Turbulent Flows [in Russian], pp. 171-177, (1987)
[4] Kucherov A.N., Molleson G.V., Condensation wake in a nonisobaric jet, Inzh.-fiz. Zh., 74, 5, pp. 29-32, (2001)
[5] Kashevarov A.V., Kucherov A.N., Molleson G.V., Dependence of the optical characteristics of the condensation trail on the laws of distribution of the parameters of a nonisobaric exhaust jet at the nozzle cut exit section, Opt. Atmos. Okeana, 14, 5, pp. 418-423, (2001)
[6] Aviation. Encyclopedia [in Russian], (1994)
[7] Loitsyanskii L.G., Mechanics of Liquids and Gases [in Russian], (1973)
[8] Yakhot V., Orszag S.A., Tangam S., Gatski T.B., Speziale C.G., Development of turbulence models for shear flows by a double expansion technique, Phys. Fluids, A4, 7, pp. 1510-1520, (1992)
[9] Kovasznay L.S.G., Structure of the turbulent boundary layer, Phys. Fluids., 10, 9 PART 2, pp. 25-30, (1967)
[10] Nee V.M., Kovasznay L.S.G., Simple phenomenological theory of turbulent shear flows, Phys. Fluids, 12, 3, pp. 473-484, (1969)

← 1 2 →