An experimentally verified three-dimensional non-stationary fluid model of unloaded atmospheric pressure inductively coupled plasmas

Abstract: A three-dimensional non-stationary numerical model of spectrochemical and technological inductively coupled plasma (ICP) systems is presented in the paper. The model considers the ICP as a gaseous media (with temperature-dependent electric conductivity) interacting with electromagnetic field generated by inductive coil. The model is based on simultaneous solution of the Maxwell’s and gas flow equations together with the energy equation coupled-together by corresponding source terms and material properties to t… Show more

“…Tsivilskiy et al 79 developed a 3D, non-stationary numerical model of an ICP by considering the gas, as a temperature-dependent conductor, interacting with the inductive field. Thus, they were able to simultaneously solve Maxwell’s equations in conjunction with gas-flow and energy equations to take into account the effect of Joule heating and the Lorentz force on gas flow.…”

Atomic spectrometry update: review of advances in atomic spectrometry and related techniques

“…Tsivilskiy et al 79 developed a 3D, non-stationary numerical model of an ICP by considering the gas, as a temperature-dependent conductor, interacting with the inductive field. Thus, they were able to simultaneously solve Maxwell’s equations in conjunction with gas-flow and energy equations to take into account the effect of Joule heating and the Lorentz force on gas flow.…”

Atomic spectrometry update: review of advances in atomic spectrometry and related techniques

Optimizing the Design of an HF Plasma Discharge Powder Processing System for Enhanced Tail Flame Stabilization: A Mathematical Modeling Approach

Multiscale modeling of powder materials processing for additive manufacturing in inductively coupled plasma