SU1548605A1 - Method of igniting a double-component liquid fuel - Google Patents

Abstract

The invention relates to the field of energy and can be used to ignite a fuel, the components of which are in a liquid state and are separated from each other before ignition. The invention makes it possible to increase the reliability of ignition. One of the components of the fuel is evaporated in the auxiliary gas stream, and the mixture is accelerated in the accelerating nozzle and sent to the resonator. After the resonator is heated, another fuel component is injected into the flow between the accelerating nozzle and the resonator. 1 il.

Description

The invention relates to energy and can be used to ignite a fuel whose components are in a liquid state and are separated from each other before ignition.

The aim of the invention is to increase reliability.

The drawing shows a diagram for implementing the proposed method of ignition.

Example. A stream of liquid nitrogen is introduced into the gaseous oxygen stream with a temperature of 293 K, simulating the lean fuel component. Ratio. the flow rate of liquid nitrogen and oxygen 1: 5. Liquid nitrogen is introduced into the pipeline through the side hole, and then it evaporates and is carried away by the oxygen flow to the booster nozzle 1, with which the acoustic resonator 2 is installed. The resonator is heated to an external surface temperature of 600 K, then in the area between the 25 booster nozzle and kerosene is injected into the resonator. In this case, flame is ejected almost simultaneously from the resonator. The supply pressure of the gas mixture is 18.5 bar, and the supply pressure of kerosene is 13 bar.

Claims (1)

The claims ι The method of ignition of a liquid two-component fuel by accelerating auxiliary gas in the accelerating nozzle, feeding it into the cavity of the acoustic resonator with the excitation of shock waves and heating to the ignition temperature of the fuel, so that In order to increase reliability, one of the fuel components is evaporated in the auxiliary gas stream in front of the booster nozzle, and the other component is fed between the booster nozzle and the resonator, after heating to the ignition temperature.