2015
DOI: 10.1088/0022-3727/49/1/015201
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Advanced validation of CFD-FDTD combined method using highly applicable solver for reentry blackout prediction

Abstract: An analysis model of plasma flow and electromagnetic waves around a reentry vehicle for radio frequency blackout prediction during aerodynamic heating was developed in this study. The model was validated based on experimental results from the radio attenuation measurement program. The plasma flow properties, such as electron number density, in the shock layer and wake region were obtained using a newly developed unstructured grid solver that incorporated real gas effect models and could treat thermochemically … Show more

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Cited by 42 publications
(31 citation statements)
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“…Generally, because effective CFD algorithms for supersonic flow (compressible) and subsonic flow (incompressible) are largely different, it is desirable to use solvers suitable for the compressible and incompressible flows from the viewpoint of computational cost and accuracy. In the present study, RG-FaSTAR v2.0.0 [23] for the supersonic flow region and FrontFlow/red (FFR) Ver.3.1 [24] for subsonic flow are adopted, respectively. RG-FaSTAR is a high-enthalpy flow solver that incorporates real gas effects and thermochemical nonequilibrium and is a version of the fast unstructured CFD code FaSTAR [25], originally developed by JAXA.…”
Section: Software Packagesmentioning
confidence: 99%
“…Generally, because effective CFD algorithms for supersonic flow (compressible) and subsonic flow (incompressible) are largely different, it is desirable to use solvers suitable for the compressible and incompressible flows from the viewpoint of computational cost and accuracy. In the present study, RG-FaSTAR v2.0.0 [23] for the supersonic flow region and FrontFlow/red (FFR) Ver.3.1 [24] for subsonic flow are adopted, respectively. RG-FaSTAR is a high-enthalpy flow solver that incorporates real gas effects and thermochemical nonequilibrium and is a version of the fast unstructured CFD code FaSTAR [25], originally developed by JAXA.…”
Section: Software Packagesmentioning
confidence: 99%
“…Physical model and numerical method used in this plasma flow simulation are basically the same as those used in Takahashi's work [5], except for part numerical scheme and calculation conditions. Here, brief explanation about the present plasma flow model are presented.…”
Section: Plasma Flow Modelingmentioning
confidence: 99%
“…These physical and numerical models are implemented in the high-enthalpy flow solver RG-FaSTAR [5]. RG-FaSTAR is a version of the fast unstructured CFD code FaSTAR [28] originally developed by JAXA that incorporates real gas effects.…”
Section: Software Packagementioning
confidence: 99%
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