K. Charrada et al., 2-TEMPERATURE, 2-DIMENSIONAL FLUID MODELING OF MERCURY PLASMA IN HIGH-PRESSURE LAMPS, Journal of physics. D, Applied physics, 29(9), 1996, pp. 2432-2438
This paper deals with a two-temperature, two-dimensional modelling of
a mercury high-pressure plasma stabilized by walls. We consider here a
plasma composed of neutral particles, singly ionized positive ions an
d electrons. Both electron and heavy particle energies are supposed to
follow Maxwell distribution functions at different temperatures. More
over, the electrons were supposed to be carried by the heavy particles
in their laminar convection movement. Hydrodynamic conservation equat
ions are then solved by using a 2D semi-implicit finite element scheme
. After validation the model is used to discuss deviations from therma
l equilibrium due to external are parameters such as are current and p
ressure. These deviations are expressed as differences between electro
n and heavy particle temperatures. Our results confirm quantitatively
for the first time the existence of thermal equilibrium deviations in
such types of discharge. These deviations could be significant in many
cases, especially when current or pressure is relatively low. Further
more, we show that, in such types of discharge, the hot core is always
closer to thermal equilibrium than the outer discharge jacket.