Experimental and mathematical simulation of auto-ignition of iron micro particles

Автор: Leschevich Vladimir Vladimirovich, Penyazkov Oleg Glebovich, Rostaing Jean-Christophe, Fedorov Alexander Vladimirovich, Shulgin Alexey Valentinovich

Журнал: Вестник Южно-Уральского государственного университета. Серия: Математика. Механика. Физика @vestnik-susu-mmph

Рубрика: Математика

Статья в выпуске: 2 т.5, 2013 года.

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The experimental and numerical studies of autoignition and burning of iron microparticles in oxygen were introduced. Parameters of high-temperature gas environment were created by rapid compression machine. Powders with a particle size 1-125 microns were studied at the oxygen pressure of 0,5-28 MPa and the temperature of 500-1100 K. Ignition delay time was measured by registration of radiation from the side wall of the combustion chamber and by measuring the pressure on the end wall. Critical auto-ignition conditions are determined according to size of the particles, oxygen temperature and pressure. For description of ignition mechanisms a punctual semiempirical simulator was introduced. The simulator gave the opportunity to describe the experimental data on dependence of ignition delay time of iron particles on the ambient temperature, taking into account correlations of critical ignition temperatures with pressure.

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Iron micro particles, oxygen, rapid compression machine, ignition delay time, mathematical simulation

Короткий адрес: https://sciup.org/147158781

IDR: 147158781

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