Thrust generation by pulse combustion of gas in a submerged chamber

Medvedev, R. N.; Drozhzhin, A. P.; Teslenko, V. S.

doi:10.1016/j.ijmultiphaseflow.2016.04.001

Cited by 10 publications

(2 citation statements)

References 12 publications

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“…The use of microwave radiation, high-power lasers and corona discharges seems to be unattractive, due to the low efficiency of such systems [19,20]. Nevertheless, the volumetric plasma ignition of the fuel mixture has undeniable advantages [21][22][23], allowing it to be used not only in detonation engines, but also in traditional internal combustion engines for boosting the speed or reducing nitrogen oxide emissions due to significant increasing the combustion rate, as well as for stabilizing combustion in a supersonic flow [24].…”

Section: Introductionmentioning

confidence: 99%

Multi-point ignition of air/fuel mixture by the initiated subcritical streamer discharge

et al. 2022

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Section: Introductionmentioning

confidence: 99%

Multi-point ignition of air/fuel mixture by the initiated subcritical streamer discharge

et al. 2022

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“…Обеспечение полного сгорания топлива в двигателях внутреннего сгорания и газотурбинных установках, уменьшение содержания вредных веществ в выхлопных газах, снижение потребления топлива и повышение мощности двигателей, требует разработки новых и совершенствования существующих систем поджигания горючей смеси. Основная проблема при разработке систем зажигания топливных смесей состоит в необходимости повышения надежности воспламенения без существенного повышения энергетических затрат на процесс зажигания [1].…”

Section: Introductionunclassified

Воспламенение Топливной Смеси С Помощью Многоточечного Импульсного Искрового Разряда При Различных Начальных Условиях

Булат¹,

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Grachev³

et al. 2021

Журнал Технической Физики

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The development of efficient and reliable systems for the ignition of air/fuel mixtures is of interest for many practical applications associated with the use of combustion devices. To increase the total surface of the flame, ensure the reliability of ignition, increase the rate of combustion in the volume of the chamber and the completeness of combustion of the combustible mixture, multi-point ignition of the air/fuel mixture using several pulsed spark discharges is used. A comparison of the characteristics of combustion products in the working chamber when using different numbers of igniting spark discharges is made based on the data of a physical experiment. Measurements are carried out at various ignition points of the mixture, initial mixture pressures, and air/fuel ratios. The values of the air/fuel ratio used in the experiment are in the range, the boundaries of which are the lower and upper concentration limits of the ignition of the propane-air mixture.

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Pulsed combustion of fuel–air mixture in a cavity above water surface: modeling and experiments

et al. 2021

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Thrust generation by pulse combustion of gas in a submerged chamber

Cited by 10 publications

References 12 publications

Multi-point ignition of air/fuel mixture by the initiated subcritical streamer discharge

Multi-point ignition of air/fuel mixture by the initiated subcritical streamer discharge

Воспламенение Топливной Смеси С Помощью Многоточечного Импульсного Искрового Разряда При Различных Начальных Условиях

Pulsed combustion of fuel–air mixture in a cavity above water surface: modeling and experiments

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