Masahito Mizuno scite author profile

Radiation spectroscopy of high-enthalpy flows in a 110-kW-class inductively coupled plasma wind tunnel is conducted to improve the accuracy of the radiation code and to measure the flow properties in the test section of the wind tunnel in detail. Imaging spectroscopy is done to obtain radial profiles of emission spectra at a single moment, from which the radial distribution of the emission intensity is determined by the inverse Abel conversion. The molecular temperature and the chemical species concentration are determined by the spectrum fitting method through the use of the radiation code, SPRADIAN2. To accomplish better agreement between the numerical predictions and experiments, the theoretical model and the spectroscopic data for the radiation code are replaced with more accurate data to reflect the recent experimental and theoretical results. As a result, the radial distributions of the temperature, the concentration of the impurities as well as the major chemical components, and the flow enthalpy are accurately determined for nitrogen and air flows in the test section of the wind tunnel.

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Evaluation of Surface Catalytic Effect on TPS in 110kW ICP-heated Wind Tunnel

Ito

Kurotaki

Sumi

et al. 2005

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Comprehensive Characterization of Test Flows in 110-kW Inductively-Coupled-Plasma Heater

Fujita¹,

Suzuki²,

Mizuno³

et al. 2008

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Masahito Mizuno

Influences of Electrical Conductivity of Wall on Magnetohydrodynamic Control of Aeroynamic Heating

Experimental and Numerical Investigation of Catalytic Efficiency of Atomic Oxygen Recombination on TPS Surfaces

Spectroscopic Flow Evaluation in Inductively Coupled Plasma Wind Tunnel

Evaluation of Surface Catalytic Effect on TPS in 110kW ICP-heated Wind Tunnel

Comprehensive Characterization of Test Flows in 110-kW Inductively-Coupled-Plasma Heater

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