A three-dimensional FLUENT-based turbulent model is developed to simulate the physical behavior of an inductively coupled plasma torch working at atmospheric pressure and reproducing the actual geometry of the commercial Tekna Plasma Systems Inc. PL-35. Particular attention has been focused on the detailed modeling of the inlet gas section region, showing its effects on the predicted argon plasma temperature and velocity fields.

D. Bernardi, V. Colombo, E. Ghedini, A. Mentrelli (2005). 3-D Turbulent Modeling of an ICPT With Detailed Gas Injection Section. IEEE TRANSACTIONS ON PLASMA SCIENCE, 33, 426-427 [10.1109/TPS.2005.845322].

3-D Turbulent Modeling of an ICPT With Detailed Gas Injection Section

COLOMBO, VITTORIO;GHEDINI, EMANUELE;MENTRELLI, ANDREA
2005

Abstract

A three-dimensional FLUENT-based turbulent model is developed to simulate the physical behavior of an inductively coupled plasma torch working at atmospheric pressure and reproducing the actual geometry of the commercial Tekna Plasma Systems Inc. PL-35. Particular attention has been focused on the detailed modeling of the inlet gas section region, showing its effects on the predicted argon plasma temperature and velocity fields.
2005
D. Bernardi, V. Colombo, E. Ghedini, A. Mentrelli (2005). 3-D Turbulent Modeling of an ICPT With Detailed Gas Injection Section. IEEE TRANSACTIONS ON PLASMA SCIENCE, 33, 426-427 [10.1109/TPS.2005.845322].
D. Bernardi; V. Colombo; E. Ghedini; A. Mentrelli
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11585/19311
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