Integrated Liquid-Fuel-Injector/Plasma-Igniter for Scramjets

Abstract: A newly designed liquid fuel (kerosene) aeroramp injector/plasma igniter was tested in cold flow using the Virginia Tech supersonic wind tunnel at Mach 2.4. The liquid fuel (kerosene) injector is flush wall mounted and consists of a 2 hole aeroramp array of impinging jets that are oriented in a manner to improve mixing and atomization of the liquid jets. The two jets are angled downstream at 40 degrees and have a toe-in angle of 60 degrees. The plasma torch used nitrogen and air as feedstocks and was placed do… Show more

“…Only one report can be detected in the past literature in which an effect of initial radical concentration on ignition of C 3 H 8 /air mixtures was investigated (Buriko et al [16]) by numerical analysis of ignition delay time. Though the group of Cross et al [17] developed a PJ torch of a simulated cracked JP-7 feedstock and also conducted ignition tests of kerosene by the PJ torch igniter in a supersonic airflow [18], the degree and the mechanism of ignition enhancement effect of the PJ torch igniter for large-hydrocarbon fuels are unclear. Sensitivity to the addition of radicals strongly depends on the oxidation mechanism of each fuel and the fuel structure, and therefore detailed analysis including a full chemicalreaction scheme of the fuel oxidation is required.…”

Suitability of C2-, C3-Hydrocarbon Fuels for Plasma Ignition in High-Speed Flow

“…Only one report can be detected in the past literature in which an effect of initial radical concentration on ignition of C 3 H 8 /air mixtures was investigated (Buriko et al [16]) by numerical analysis of ignition delay time. Though the group of Cross et al [17] developed a PJ torch of a simulated cracked JP-7 feedstock and also conducted ignition tests of kerosene by the PJ torch igniter in a supersonic airflow [18], the degree and the mechanism of ignition enhancement effect of the PJ torch igniter for large-hydrocarbon fuels are unclear. Sensitivity to the addition of radicals strongly depends on the oxidation mechanism of each fuel and the fuel structure, and therefore detailed analysis including a full chemicalreaction scheme of the fuel oxidation is required.…”

Suitability of C2-, C3-Hydrocarbon Fuels for Plasma Ignition in High-Speed Flow

Flame establishment and flameholding modes spontaneous transformation in kerosene axisymmetric supersonic combustor with a plasma igniter

Dual-frequency plasma promoting flameholding in a supersonic combustion chamber