Numerical simulations of the trajectory and heating history of powders injected with a carrier gas into inductively coupled plasma torches working at atmospheric pressure have been performed in the framework of a 3–D FLUENT -based model, taking into account the effects of coupling between particles and plasma. In this paper, we present a selection of the results obtained for different operating conditions of the torch and for different characteristics of the injected particles.
D. Bernardi, V. Colombo, E. Ghedini, A. Mentrelli, T. Trombetti (2004). 3-D numerical simulation of fully-coupled particle heating in ICPTs. THE EUROPEAN PHYSICAL JOURNAL. D, ATOMIC, MOLECULAR AND OPTICAL PHYSICS, 28, No. 3, 423-433 [10.1140/epjd/e2004-00012-8].
3-D numerical simulation of fully-coupled particle heating in ICPTs
COLOMBO, VITTORIO;GHEDINI, EMANUELE;MENTRELLI, ANDREA;TROMBETTI, TULLIO
2004
Abstract
Numerical simulations of the trajectory and heating history of powders injected with a carrier gas into inductively coupled plasma torches working at atmospheric pressure have been performed in the framework of a 3–D FLUENT -based model, taking into account the effects of coupling between particles and plasma. In this paper, we present a selection of the results obtained for different operating conditions of the torch and for different characteristics of the injected particles.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
