Case Studies in Thermal Engineering (Aug 2024)
Experimental study on the ignition delay characteristics of pyrolysis gas from kerosene with hydrogen peroxide addition
Abstract
The ignition issue of the hypersonic aircraft remains a challenging task due to the extremely short residual time of milliseconds. To study the potential candidate of hydrogen peroxide for ignition enhancement, the ignition delay times of pyrolysis gas with the addition of 0–5000 ppm hydrogen peroxide were experimentally measured and quantitatively analyzed at temperatures of 833.8–962.1 K, equivalence ratios of 0.5–1.5, pressures of 31.9–48.8 bar, and the dilution of 45 vol% Ar. A novel injection system based on a Laval nozzle was designed to well atomize and evaporate the liquid hydrogen peroxide. The experimental results showed that the enhancing effect of hydrogen peroxide was proceeded by three stages, in which the decreasing efficiency gradually weakened with the increase of additive fraction. The ignition delay times of pyrolysis gas dramatically shortened by 66.1 % with 1000 ppm of hydrogen peroxide. Only a decrement of 19.1 % was obtained as the additive fraction increased from 1000 to 4000 ppm. The decline at 4000–5000 ppm even reduced to 2.0 %. It is suggested to add no more than 1000 ppm of hydrogen peroxide from the perspective of the highest acceleration efficiency on the ignition delay times of pyrolysis gas.
