The combined effect of the power and the carrier gas flow rate on excitation temperature, electron number density, ionic-to-atomic line intensity ratios and departure from local thermal equilibrium has been studied in an axially-viewed plasma with introduction of different amounts of wet aerosols, partially desolvated aerosols or dry vapours, according to empirical modelling and experimental design methods. Under robust conditions (1500 W and a carrier gas flow rate of 0.7\u20130.85 L/min), an increase in water loading led to an improvement in the plasma excitation properties, while desolvation caused degradation. In contrast, under non-robust conditions, the plasma was no longer able to tolerate an increase in water loading and desolvatio...
We present a detailed analysis of an argon inductively coupled plasma in terms of electron density a...
An atmospheric pressure plasma jet generated in Ar with water vapor is investigated. It is shown tha...
The electron energy distribution function (EEDF) plays an essential role in non-equilibrium low-temp...
The combined effect of the power and the carrier gas flow rate on excitation temperature, electron n...
The effect of hydrogen from hydrides generation in a radially-viewed inductively coupled plasma opti...
In plasma spraying, hydrogen is widely used as a secondary working gas besides argon. In particular ...
The excitation temperature and electron number density have been measured for end-on-view ICP discha...
A study is presented on the influence of water as aerosol on the electron density of an argon induct...
In applications of atmospheric-pressure plasma jets, due to the limitations of common power supplies...
Abstract Control of the plasma chemistry is essential for the effectiveness of atmosp...
In recent years, plasma discharge in liquid medium has been a topic of immense interest. Theoretical...
This paper reports on the influence of the carrier gas flow rate and observation height on electron ...
A new approach to evaluating departures from local thermal equilibrium (LTE) in the inductively coup...
We treat the kinetics of the three dominant species in a hydrogen plasma expansion, which was studie...
Numerical modelling and experimental measurements are used to investigate hydrogen plasmas in the MA...
We present a detailed analysis of an argon inductively coupled plasma in terms of electron density a...
An atmospheric pressure plasma jet generated in Ar with water vapor is investigated. It is shown tha...
The electron energy distribution function (EEDF) plays an essential role in non-equilibrium low-temp...
The combined effect of the power and the carrier gas flow rate on excitation temperature, electron n...
The effect of hydrogen from hydrides generation in a radially-viewed inductively coupled plasma opti...
In plasma spraying, hydrogen is widely used as a secondary working gas besides argon. In particular ...
The excitation temperature and electron number density have been measured for end-on-view ICP discha...
A study is presented on the influence of water as aerosol on the electron density of an argon induct...
In applications of atmospheric-pressure plasma jets, due to the limitations of common power supplies...
Abstract Control of the plasma chemistry is essential for the effectiveness of atmosp...
In recent years, plasma discharge in liquid medium has been a topic of immense interest. Theoretical...
This paper reports on the influence of the carrier gas flow rate and observation height on electron ...
A new approach to evaluating departures from local thermal equilibrium (LTE) in the inductively coup...
We treat the kinetics of the three dominant species in a hydrogen plasma expansion, which was studie...
Numerical modelling and experimental measurements are used to investigate hydrogen plasmas in the MA...
We present a detailed analysis of an argon inductively coupled plasma in terms of electron density a...
An atmospheric pressure plasma jet generated in Ar with water vapor is investigated. It is shown tha...
The electron energy distribution function (EEDF) plays an essential role in non-equilibrium low-temp...