Analysis of the mechanisms of stable flame propagation in a cross-flow reactor
Authors: Yarkov A.V. | Published: 08.09.2021 |
Published in issue: #9(62)/2021 | |
DOI: DOI: 10.18698/2541-8009-2021-9-734 | |
Category: Physics | Chapter: Chemical physics, combustion and explosion | |
Keywords: flow reactor, combustion stabilization, cross flow, methane-air mixture, flame front propagation velocity, flame interaction with vortices |
Finding the combustion limits of a gas suspension based on hydrogen with water microdroplets
Authors: Lobov K.S. | Published: 26.08.2021 |
Published in issue: #8(61)/2021 | |
DOI: DOI: 10.18698/2541-8009-2021-8-726 | |
Category: Physics | Chapter: Chemical physics, combustion and explosion | |
Keywords: combustion of a depleted hydrogen-air mixture, water droplets, combustion in a channel, combustion in a flow reactor, combustion limits, fire safety, continuous two-speed two-temperature model, numerical simulation |
Formation of directed particle flows during a gas mixture burning in a channel
Authors: Sadokhina T.D. | Published: 08.11.2018 |
Published in issue: #10(27)/2018 | |
DOI: DOI: 10.18698/2541-8009-2018-10-398 | |
Category: Physics | Chapter: Chemical physics, combustion and explosion | |
Keywords: microparticles spraying, gas-thermal spraying, detonation spraying, deflagation-to-detanation transition (DDT), combustion wave, burning in a channel, coating efficiency, Navier-Stokes equation |
Experimental investigation of the excited radicals’ role in inhibiting the ignition of the hydrogen-oxygen mixtures
Authors: Korshunova M.R., Mikheeva E.Yu. | Published: 18.09.2018 |
Published in issue: #9(26)/2018 | |
DOI: DOI: 10.18698/2541-8009-2018-9-374 | |
Category: Physics | Chapter: Chemical physics, combustion and explosion | |
Keywords: shock tube, inhibiting, hydrogen-oxygen mixtures, ignition, nonequilibrium radiation, electron-excited radicals, reflected shock wave, ignition delay |
Numerical simulation of aluminium particle aerosol combustion employing a probability density function
Authors: Shchetinin G.A. | Published: 30.10.2017 |
Published in issue: #11(16)/2017 | |
DOI: DOI: 10.18698/2541-8009-2017-11-204 | |
Category: Physics | Chapter: Chemical physics, combustion and explosion | |
Keywords: ignition, combustion, powdered metal fuels, probability density function |