Numerical Analysis on Thermal Non-equilibrium and Multidimensional Laser-Supported Detonation Wave Propagating through a Diatomic Gas

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概要

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• A scheme of numerical analyses available for the LSD wave has been constructed. As a typical analysis model, which is expected to realize the laser propulsion systems, axisymmetric-nozzle-geometry is applied. In the numerical analyses on LSD, especially, laser absorption model and thermal-nonequilibrium model are very important to describe physically detail processes. For thermal-nonequilibrium model, 2-temperature (heavy particles temperature and electron temperature) model has been applied because the electronic mode is firstly excited in laser absorption and a thermal non-equilibrium state easily arises. In this paper, attention is paid for the numerical method for LSD waves propagating through a diatomic gas: hydrogen, nitrogen or oxygen, which is the representation of the gases existing in the nature and is expected to have an economical advantage for a propellant.

著者

• SHIRAISHI Hiroyuki

  Department of Mechanical Engineering, Daido Institute of Technology

関連論文

• Numerical Analysis of Effects of Incident Laser Wavelength on Thermal Nonequilibrium Laser-supported Detonation Wave
• Numerical Analysis on Thermal Non-equilibrium and Multidimensional Laser-Supported Detonation Wave Propagating through a Diatomic Gas
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