Effect of a uniform electric field on soot in laminar premixed ethylene/air flames

“…From then on, the effects of electric fields on the flames have been extensively studied by experimental and theoretical investigations. Till now, several types of flames such as Bunsen flame [2,3], jet flame [4,5], flat flame [6,7], counter-flow flame [8,9] and tribrachial flame [10] have been reported, using DC (direct-current) [11,12] or AC (alternating-current) [13,14] electric fields. Results indicated that combustion characteristics, including flame propagation [15], flame stabilization [16], heat release [17], flammability limits [18], and combustion products [19,20] and so on, can be markedly modified via the interaction between electric fields and ions generated in combustion.…”

Effects of electric field intensity and distribution on flame propagation speed of CH4/O2/N2 flames

“…From then on, the effects of electric fields on the flames have been extensively studied by experimental and theoretical investigations. Till now, several types of flames such as Bunsen flame [2,3], jet flame [4,5], flat flame [6,7], counter-flow flame [8,9] and tribrachial flame [10] have been reported, using DC (direct-current) [11,12] or AC (alternating-current) [13,14] electric fields. Results indicated that combustion characteristics, including flame propagation [15], flame stabilization [16], heat release [17], flammability limits [18], and combustion products [19,20] and so on, can be markedly modified via the interaction between electric fields and ions generated in combustion.…”

Effects of electric field intensity and distribution on flame propagation speed of CH4/O2/N2 flames

“…In that regard, the design of new fuels [5], the addition of exhaust gases to the combustion process [6], and the combustion control by electrical fields [7] has led to some success.…”

Dual magnetic effects on soot production in partially premixed flames

“…However, using in-situ strategies looks like an increasingly promising method. Examples are the design of new fuels [8], addition of exhaust gases to the combustion process [9], or combustion control by electrical fields [10]. Interestingly, none of these 3 strategies utilises magnetic fields.…”

Modification of sooting tendency by magnetic effects