SU1553795A1 - Annular combustion chamber - Google Patents

Abstract

The invention makes it possible to reduce the irregularity of the temperature field at the outlet of the annular combustion chamber by intensifying the mixing of secondary air with the combustion products. During the operation of the combustion chamber, the secondary air enters the combustion tube 2 through an axial vane swirler 5, by means of which the front and rear portions 3 and 4 of the inner shell of the flame tube 2 are connected and the annular gap 7 formed between the output edge of the front portion 3 and the ledge 6, formed on the rear part 4 behind the swirler 5. Secondary air also flows through the pipes 9 installed in the holes 8 located behind the ledge evenly around the circumference. In the flame tube 2, the secondary air jet interacts with a flow of combustion products moving in the direction of the chamber exit. In this case, the radial fan twisted jet emanating from slit 7, penetrating into the combustion products both under the action of centrifugal forces and due to kinematic energy, pushes the flow of combustion products to the peripheral region of the flame tube 2, increasing the penetration depth of the radial jets emanating from the nozzles 9, and generally improving the efficiency of mixing the secondary air with the combustion products. 2 Il.

Description

The invention relates to gas turbines, in particular to annular combustion chambers.

The purpose of the invention is to reduce the unevenness of the temperature field at the output of the combustion chamber by the intensity of mixing the secondary air with the combustion products.

Figure 1 shows the annular combustion chamber, a longitudinal section; “And FIG. 2 - sections AA and BB in FIG. one.

The combustion chamber contains a housing and a heat pipe installed therein 2, the inner shell of which consists of the front and rear parts 3 and 4 interconnected by means of an axial vortex vortex | 5, adjacent to the inner and outer surfaces of the rear and front parts 4 and 3 sides. The rear part 4 of the shell is provided with a ledge 6 located behind (an avihritel 5 and forming an annular gap 7 with the exit edge of the front part 3) and along the holes 8 located behind the ledge 6 evenly around the circumference, and provided with holes 8 by nozzles 9 for the supply of secondary air. At the inlet 8, the heat pipe 2 has a front-mounted device tO.

When the combustion chamber is operated, one kacTb of incoming air at its entrance flows into the fire tube 2 through the front-toe device 10, forming behind it a reverse current in which the fuel is burned. The other Part of the air is secondary air - Enters the flame tube 2 through the swirler 5 and the annular gap 7,

as well as through nozzles 9 as a jet system consisting of a radial fan spun jet flowing out of the slit 7 and radial jets flowing out of nozzles 9. In the flue pipe 2 secondary air jets interact with the flow of combustion products moving towards the exit of the combustion chamber . In this case, the radial fan twisted jet penetrating into the combustion products, both under the action of centrifugal forces and due to kinetic energy, pushes the flow of combustion products to the peripheral region of the flame tube 2, increasing the depth of penetration of the radial jets and increasing it. in general, the efficiency of mixing secondary air with combustion products.

Claims (1)

Invention Formula An annular combustion chamber, comprising a body and a heat pipe installed therein, the inner shell of which consists of the front and rear parts interconnected by an axial spatula evaporator adjacent to the inner and outer surfaces of the rear and front parts of the shell, respectively. the fact that, in order to reduce the uneven temperature of the floor at the outlet of the combustion chamber, the rear part of the shell is made with a ledge located behind the swirler and forming the front part with the output edge STI annular slot, and a belt of holes located behind the ledge uniformly over of circles and is provided mounted in apertures nozzles for supplying secondary air. Aa 6-6