И.Р. Галиев scite author profile

И.Р. Галиев

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Использование Хемиионизации Для Расчета Температуры Углеводородного Пламени

Шайкин¹,

Галиев²

2018

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Представлена функциональная зависимость максимальной температуры углеводородного пламени от электронного тока (обусловленного хемиионизацией пламени), ширины зоны турбулентного горения, количества и состава топливовоздушной смеси в камере сгорания переменного объема. Сравнение температуры, рассчитанной по предлагаемой формуле, с экспериментальными данными показало, что при коэффициенте избытка воздуха от 0.8 до 1.15 сходимость составляет более 85%. Результаты работы могут быть использованы для прогнозирования и мониторинга ионизационным зондом максимальной температуры пламени в камере сгорания двигателя внутреннего сгорания и других энергетических установок.

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О Связи Ширины Зоны Турбулентного Горения С Составом Топлива, Давлением, Скоростью Распространения И Электропроводностью Пламени

Шайкин¹,

Галиев²

2020

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The results of an experimental study of the relationship between the width turbulent combustion zone (TCZ) and composition of the composite fuel (hythane), the maximum pressure in combustion chamber of variable volume, the propagation velocity and electrical conductivity of the turbulent flame are presented. It was revealed that the width TCZ has a characteristic dependence on the composition of hythane. It was experimentally found that, despite a change coefficient of excess air, hydrogen concentration in the fuel, turbulence intensity and type of fuel (hythane and gasoline), the dependences of width TCZ on the turbulent flame propagation velocity and electrical conductivity of the flame, as well as the dependence maximum pressure on width, remain unchanged TCZ. The results of the work can be used in the design and development of energy-efficient and low-emission combustion chambers.

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