SU806990A1 - Pusation combustion chamber - Google Patents

Description

(54) PULSING COMBUSTION CAMERA

maximizing the absorption of acoustic energy when the phase of the reflection coefficient changes inappropriately.

The ripple pressure adjustment includes frequency and amplitude adjustment.

1. Frequency adjustment: In the initial position, the pistons 9 and 10 are aligned and in the middle position. The required excitation frequency is determined by simultaneously moving the combined pistons in cylindrical tubes 8. In the event that constant phase conditions in the combustion zone are to be maintained, the ratio of the displacement should be proportional to the speed of sound in the respective waveguides.

2. The amplitude is adjusted by changing the phase conditions at the combustion zone and by changing and absorbing the acoustic energy in the cylindrical tubes 8. The adjustment order — the pistons 9 and 10 are in the cylindrical tubes 8 at the position corresponding to the desired frequency. By moving the pistons 9 and 10, located at the outlet of the chamber body 1, to the combustion zone, and the other piston 9 and 10, located at the entrance to the housing 1. (or placed in the zone of the annular cavity 6) from the Sealy combustion zone, vice versa) the lengths waveguides and, accordingly, the magnitude of the phase of the reflection coefficient. The relative magnitude of the displacement must be such that the excitation frequency remains constant.

in the case when it is necessary to reduce the amplitude of oscillations, or to ensure a stable mode of operation, additional adjustment is made with the help of pistons 9, the movement of which is made independently of the movement of pistons 10. Next to successive approximations, they are set to a position where they absorb acoustic energy maximum. When the frequency deviates from the set one, it is adjusted using the pistons 10.

Claims (1)

Invention Formula A pulsating combustion chamber, comprising a housing with fuel and oxidant supply connections, is necessary so that, in order to expand the limits of controlling the oscillation regime parameters, a shell with an input bent to the periphery is installed in the chamber along its axis, an eagle closely adjoining the walls of the chamber and forming a central channel and. annular cavity., communicated respectively with s.pipekami supply of fuel and air, and the camera body at the exit and inlet, as well as in the area of the annular cavity is equipped with cylindrical tubes with pairs of pistons, one of which is located on the side of the chamber, made in the form of a set of grids the second - in the form of a solid cylinder Sources of information taken into account during the examination 1. USSR Author's Certificate No. 348821, cl. F 23 C 3/02, 1970.