Pintassilgo et al., 2015 - Google Patents
On the different regimes of gas heating in air plasmasPintassilgo et al., 2015
View PDF- Document ID
- 9395525433753300175
- Author
- Pintassilgo C
- Guerra V
- Publication year
- Publication venue
- Plasma Sources Science and Technology
External Links
Snippet
Simulations of the gas temperature in air (N 2–20% O 2) plasma discharges are presented for different values of the reduced electric field, E/N g, electron density ne, pressure and tube radius. This study is based on the solutions to the time-dependent gas thermal balance in a …
- 238000010438 heat treatment 0 title abstract description 172
Similar Documents
| Publication | Publication Date | Title |
|---|---|---|
| Zhu et al. | Fast gas heating of nanosecond pulsed surface dielectric barrier discharge: spatial distribution and fractional contribution from kinetics | |
| Pintassilgo et al. | On the different regimes of gas heating in air plasmas | |
| Pintassilgo et al. | Study of gas heating mechanisms in millisecond pulsed discharges and afterglows in air at low pressures | |
| Popov | Pulsed nanosecond discharge in air at high specific deposited energy: fast gas heating and active particle production | |
| Kozák et al. | Evaluation of the energy efficiency of CO2 conversion in microwave discharges using a reaction kinetics model | |
| Komuro et al. | Numerical simulation for production of O and N radicals in an atmospheric-pressure streamer discharge | |
| Popov | Vibrational kinetics of electronically-excited molecules in nitrogen discharge plasma | |
| Kelly et al. | Generation of reactive species by an atmospheric pressure plasma jet | |
| Gudmundsson et al. | A benchmark study of a capacitively coupled oxygen discharge of the oopd1 particle-in-cell Monte Carlo code | |
| Sharma et al. | Fully coupled modeling of nanosecond pulsed plasma assisted combustion ignition | |
| Aleksandrov et al. | Kinetics of low-temperature plasmas for plasma-assisted combustion and aerodynamics | |
| Silva et al. | A reaction mechanism for vibrationally-cold low-pressure CO2 plasmas | |
| Colonna et al. | Non-equilibrium vibrational and electron energy distributions functions in atmospheric nitrogen ns pulsed discharges and μs post-discharges: the role of electron molecule vibrational excitation scaling-laws | |
| Santos et al. | Microwave capillary plasmas in helium at atmospheric pressure | |
| Body et al. | A volume-averaged model of nitrogen–hydrogen plasma chemistry to investigate ammonia production in a plasma-surface-interaction device | |
| Aleksandrov et al. | Plasma decay in air and O2 after a high-voltage nanosecond discharge | |
| Pintassilgo et al. | Power transfer to gas heating in pure N2 and in N2–O2 plasmas | |
| Perillo et al. | Studying the influence of nitrogen seeding in a detached-like hydrogen plasma by means of numerical simulations | |
| Komuro et al. | Simulation of pulsed positive streamer discharges in air at high temperatures | |
| Kosarev et al. | Nanosecond discharge ignition in acetylene-containing mixtures | |
| Levko et al. | Fluid versus global model approach for the modeling of active species production by streamer discharge | |
| Petrov et al. | Controlling the electron energy distribution function of electron beam generated plasmas with molecular gas concentration: II. Numerical modeling | |
| Zhong et al. | Calculation of electron-impact ionization cross sections of perfluoroketone (PFK) molecules CxF2xO (x= 1–5) based on Binary-Encounter-Bethe (BEB) and Deutsch-Märk (DM) methods | |
| Naidis | Efficiency of generation of chemically active species by pulsed corona discharges | |
| Kadochnikov et al. | Thermally nonequilibrium effects in shock-induced nitrogen plasma: modelling study |