A computational study of a laminar methane–air flame assisted by nanosecond repetitively pulsed discharges
Journal of Physics D: Applied Physics, 2024•iopscience.iop.org
Nanosecond repetitively pulsed (NRP) discharges have been considered a promising
technique for enhancing combustion efficiency and control. For successful implementation, it
is necessary to understand the complex plasma–combustion interactions involving
chemical, thermal, and hydrodynamic pathways. This paper aims to investigate the
mechanisms enhancing a laminar methane–air flame assisted by NRP discharges by high
fidelity simulations of the jet-wall burner employed in a previous experimental study. A …
technique for enhancing combustion efficiency and control. For successful implementation, it
is necessary to understand the complex plasma–combustion interactions involving
chemical, thermal, and hydrodynamic pathways. This paper aims to investigate the
mechanisms enhancing a laminar methane–air flame assisted by NRP discharges by high
fidelity simulations of the jet-wall burner employed in a previous experimental study. A …
Abstract
Nanosecond repetitively pulsed (NRP) discharges have been considered a promising technique for enhancing combustion efficiency and control. For successful implementation, it is necessary to understand the complex plasma–combustion interactions involving chemical, thermal, and hydrodynamic pathways. This paper aims to investigate the mechanisms enhancing a laminar methane–air flame assisted by NRP discharges by high fidelity simulations of the jet-wall burner employed in a previous experimental study. A phenomenological plasma model is used to represent the plasma energy deposition in two channels:(1) the ultrafast heating and dissociation of
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