Nobuhiko Atsuchi scite author profile

Effective generation of chemical reactive species in thermal plasmas has been required in the field of material processing and waste treatment. The effect of oxygen injection into argon induction plasmas was investigated by numerical analysis without chemical equilibrium assumptions. Reaction kinetics rates of the dissociation and recombination of oxygen as well as the ionization were taken into account. The transport properties were estimated using higher-order approximation of the Chapman-Enskog method for required accuracy. Oxygen dissociation and heat flux to a torch wall can be controlled by oxygen injection location. Therefore, suitable oxygen injection needs to be chosen according to the application requirement. The present modeling would give more precise information and provide the guidance for the rational design of new material processing with effective reactive gas injection into plasmas.

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904 Effect of Oxygen Injection on Chemically Non-Equilibrium Argon Induction Plasma Flows

Shigeta¹,

Atsuchi²,

Watanabe³

2005

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Nobuhiko Atsuchi

Modeling of non-equilibrium argon–oxygen induction plasmas under atmospheric pressure

Two-temperature chemically-non-equilibrium modeling of argon induction plasmas with diatomic gas

Modeling of non-equilibrium argon–hydrogen induction plasmas under atmospheric pressure

Numerical Investigation of a Local Oxygen Injection Effect on Argon Induction Plasmas Using a Chemically Non-Equilibrium Model

904 Effect of Oxygen Injection on Chemically Non-Equilibrium Argon Induction Plasma Flows

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