Abstract
A computational-experimental method for the investigation of photochemical and thermal effect on a methane-ethylene flow was developed to determine the saturation intensity of ethylene in the high-temperature region up to 1000-1200 K at a pressure near 1 atm. This method included experiments on radiation absorption and a developed numerical model of the cell. Saturation intensity Is found at 700 K for three power values, 60, 35 and 12 W, was equal to 55, 40 and 20 W/cm2, respectively. The analytical relation was proposed for calculating the saturation intensity from experimental data. The calculation results obtained within both approaches are well consistent with each other.
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