Journal of Space Science and Technology

Journal of Space Science and Technology

Approximate Viscous Shock-Layer Analysis of Axisymmetric Bodies in Perfect Gas Hypersonic Flow

Authors
S. Ghasemloo
S. Noori
Abstract
In this paper, an approximate axisymmetric method is developed which can reliably calculate fully viscous hypersonic flow over blunt-nosed bodies. In this method, a Maslen’s second-order pressure expression is used instead of the normal momentum equation. The combination of Maslen’s second-order pressure expression and viscous shock layer equations is developed to accurately and efficiently compute hypersonic flow fields of perfect gas around blunt-body configurations. The results show that, this combination leads to more accurate solutions and less extensive computer run times in the preliminary design environment. Furthermore, the utility of Cebeci-Smith turbulence model is adequate for application to long slender bodies. The results of these computations are found to be in good agreement with available numerical and experimental data.
Keywords
Approximate
Aerodynamic heating
HypersonicFlow
Perfect Gas

Article Title Persian

Approximate Viscous Shock-Layer Analysis of Axisymmetric Bodies in Perfect Gas Hypersonic Flow

Authors Persian

S. Ghasemloo
S. Noori
Abstract Persian

In this paper, an approximate axisymmetric method is developed which can reliably calculate fully viscous hypersonic flow over blunt-nosed bodies. In this method, a Maslen’s second-order pressure expression is used instead of the normal momentum equation. The combination of Maslen’s second-order pressure expression and viscous shock layer equations is developed to accurately and efficiently compute hypersonic flow fields of perfect gas around blunt-body configurations. The results show that, this combination leads to more accurate solutions and less extensive computer run times in the preliminary design environment. Furthermore, the utility of Cebeci-Smith turbulence model is adequate for application to long slender bodies. The results of these computations are found to be in good agreement with available numerical and experimental data.

Keywords Persian

Approximate
Aerodynamic heating
HypersonicFlow
Perfect Gas
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Journal of Space Science and Technology
Volume 7, Issue 1 - Serial Number 18
شماره پیاپی 18
Spring 2014
Pages 41-48

  • Receive Date 26 August 2014
  • Revise Date 05 February 2024
  • Accept Date 19 April 2016
  • First Publish Date 19 April 2016