RU2001123648A - METHOD FOR MIXING IN A CAMERA (GAS GENERATOR) OF A LIQUID ROCKET ENGINE AND FUEL INJECTORS (OPTIONS) FOR IMPLEMENTING THE METHOD - Google Patents

Claims (21)

1. The method of mixture formation in the chamber (gas generator) LRE, using oxygen as an oxidizing agent, based (method) on the supply of oxidizing and reducing medium (for example, oxygen and hydrocarbon fuel) through nozzles into the firing space of the chamber (gas generator) in the form of an external ring stream ( for example, hydrocarbon fuel) inside which an oxidizing stream is placed (for example, gaseous oxygen), characterized in that the oxidizing and reducing media are supplied in the form of a single three-layer a jet, wherein the intermediate layer is an annular jet of oxidizing medium, which is externally covered by an outer layer, which is an annular jet of a reducing medium, and the inner layer is a circular jet of a reducing medium, covered by a specified jet of oxidizing medium.  2. The method according to p. 1, characterized in that the gas-generating gas with excess oxygen is used as the oxidizing medium, and hydrocarbon fuel (for example, kerosene) is subsequently replaced with hydrogen as the reducing medium of the external ring jet, and the internal is used as the reducing medium jets use hydrogen.  3. The method according to p. 1, characterized in that the gas-generating gas with excess oxygen is used as the oxidizing medium, hydrogen is used as the reducing medium of the outer ring jet, and hydrocarbon fuel (for example, kerosene) is used as the reducing medium of the inner jet subsequently replaced with hydrogen.  4. The method according to p. 1, characterized in that the gas-generating gas with excess oxygen is used as the oxidizing medium, and hydrogen is used as the reducing medium of the outer ring jet and the inner jet.  5. The method according to p. 4, characterized in that the gas-generating gas with excess oxygen is used as the oxidizing medium, and the hydrocarbon fuel (for example, kerosene) is used as the reducing medium of the outer ring jet and the inner jet.  6. A fuel nozzle of a LRE chamber (gas generator) containing a tubular body having an axial inlet and outlet with a main axial channel, and also at least on one pylon a blind tube fixed coaxially to the body inside, made integrally with the pylon and the tubular body, and in the pylon at least one inlet through hole has been made, extending along the pylon from the outer surface of the nozzle to the axial channel in the deaf tube from the side of its deaf end, while the channel of the deaf tube is formed from the exit side of its deaf an axial channel, and the inlet side - the inlet through-hole in the pole, characterized in that the main axial passage of the tubular body between the pylon and the outlet directed performed tangentially with respect to the nozzle axis through-holes extending from the outer surface of the nozzle to the intersection with the main axial passage.  7. The fuel nozzle according to claim 6, characterized in that the main axial channel of the tubular body on the outlet side is made with stepwise expansion, and tangential openings intersect the expanded part of the main axial channel in the place of stepwise expansion.  8. The fuel nozzle according to claim 7, characterized in that the blank tube is fixed coaxially to the body inside it on two pylons radially directed and equally spaced around the circumference, inside each of which are two inlet openings transverse with respect to the axis of the nozzle.  9. The fuel nozzle according to claim 6, characterized in that the blind tube is fixed inside the housing on two pylons radially directed and equally spaced around the circumference, inside each of which there are two inlet openings transverse with respect to the axis of the nozzle, and inside the tubular housing at the place of stepwise expansion made a pipe located coaxially between the housing and the blank tube, while between the pipe and the tubular body is formed an annular end pocket, the open side directed towards the exit and from the housing, the tangential apertures extend from the outer surface of the nozzle to the intersection with the annular mechanical pocket.  10. The fuel injector according to claim 8, characterized in that it is made of two parts, input and output, connected by a weld, and the pylons are located in its output part.  11. The fuel nozzle according to claim 10, characterized in that for the convenience of assembly and soldering of the chamber (gas generator), the tubular body is equipped with an annular thickening.  12. A fuel nozzle of a LRE chamber (gas generator) containing an axial inlet and outlet tubular body with a main axial channel, and also at least on one pylon a blind tube fixed coaxially to the body inside it, made integrally with the pylon and the tubular body, and in the pylon at least one inlet through hole has been made, extending along the pylon from the outer surface of the nozzle to the axial channel in the deaf tube from the side of its deaf end, while the channel of the deaf tube is formed from the exit side of its deaf m axial channel, and from the input side - an input through hole in the pylon, characterized in that inside the tubular body, in the place of stepwise expansion, a pipe is made coaxially between the pipe body and the blank tube, and an annular end pocket is formed between the pipe and the pipe body, the open side directed towards the exit from the housing, and from the blind end of the pocket, the holes extend from the outer surface of the nozzle to the intersection with the annular end pocket.  13. The fuel nozzle according to claim 12, characterized in that the side holes extending from the outer surface of the nozzle to the intersection with the pocket are made equal, equally spaced around the circumference, directed radially to the axis of the nozzle.  14. The fuel nozzle according to claim 12, characterized in that the lateral openings extending from the outer surface of the nozzle to the intersection with the pocket are made equal, equally spaced around the circumference, directed at an acute angle toward the exit of the nozzle.  15. The fuel nozzle according to claim 12, characterized in that the lateral openings extending from the outer surface of the nozzle to the intersection with the pocket are made equal, equally spaced around the circumference, directed at an acute angle toward the blind end of the pocket.  16. A fuel nozzle of a LRE chamber (gas generator) containing an axial inlet and outlet, a tubular body with a main axial channel, and also at least one pylon, a blind tube fixed coaxially to the body inside, made integrally with the pylon and the tubular body, the pylon has at least one inlet through hole extending along the pylon from the outer surface of the nozzle to the axial channel in the blind pipe from the side of its blind end, while the channel of the blind pipe is formed from the exit side of its blind m axial channel, and on the inlet side - an inlet through hole in the pylon, characterized in that the fuel nozzle is equipped with a nozzle on the outlet side, and between the nozzle and the tubular body there is a regenerative cooling path for the nozzle, and the outlet from the regenerative cooling path of the nozzle is located at the output end nozzles, and the entrance is at the opposite end of the nozzle, for example, by making radial holes in the nozzle, and in the nozzle the blind pipe channel is in communication with the regenerative cooling path of the nozzle, for example measures due to the location of the pylons of the tubular body within the area of overlap of the tubular body by the nozzle.  17. The fuel nozzle according to claim 16, characterized in that the regenerative cooling path of the nozzle is made with longitudinal finning on the outer surface of the tubular body.  18. The fuel nozzle according to claim 16, characterized in that the regenerative cooling path of the nozzle is made with spiral fins on the outer surface of the tubular body.  19. The fuel nozzle according to claim 16, characterized in that on the outer surface there is a protective, for example, chromium-plated 40 thickness. . 50 microns.  20. The fuel nozzle according to Claim 16, characterized in that the nozzle is mated to the tubular body in steps with an increased diameter on the outlet side of the nozzle, with finning at each stage of the nozzle tubular body and an annular collector formed between the steps.  21. A fuel nozzle of a LRE chamber (gas generator) containing an axial inlet and outlet tubular body with an axial channel, and also on at least one pylon, a blind tube fixed coaxially to the body inside, made integrally with the pylon and the tubular body, moreover, in the "pylon "at least one inlet through hole is made, extending along the pylon from the outer surface of the nozzle to the axial channel in the blind pipe from the side of its blind end, while the channel of the blind pipe is formed from the exit side of it by a blind axial channel, and on the input side, an input through hole in the pylon, characterized in that the fuel nozzle is equipped with a nozzle on the output side, a regenerative cooling path for the nozzle is made between the nozzle and the tubular body, the outlet from the regenerative cooling path of the nozzle located at the output end of the nozzle, and the entrance is at the opposite end of the nozzle, for example, by making radial holes in the nozzle, and in the nozzle the blind pipe channel from the input side is disconnected from the nozzle regenerative cooling path and, for example, due to the location of the pylons in the main axial channel of the tubular body from the input side outside the nozzle overlap section of the tubular body.