RU2015132757A - FIRE PIPE OF THE COMBUSTION CHAMBER FOR A TUBULAR-RING GAS-TURBINE ENGINE AND A METHOD FOR PRODUCING SUCH FIRING PIPE - Google Patents

Claims (28)

1. The flame tube of the combustion chamber for a tubular-annular gas turbine engine, containing: annular wall and a cooling channel formed in said wall and extending from the input end of the flame tube to the output end of the flame pipe; moreover, the property of the cooling channel varies along the length of the cooling channel. 2. The flame tube of the combustion chamber according to claim 1, wherein the circumferential position of the cooling channel changes along the longitudinal axis of the flame tube. 3. The flame tube of the combustion chamber according to claim 2, in which the cooling channel takes a curved shape. 4. The flame tube of the combustion chamber according to claim 2, in which the cooling channel takes a spiral shape. 5. The flame tube of the combustion chamber according to claim 1, in which the diameter of the cooling channel is not constant along its length. 6. The flame tube of the combustion chamber according to claim 1, in which the surface roughness of the cooling channel is not constant along its length. 7. The flame tube of the combustion chamber according to claim 1, in which the cross-sectional shape of the cooling channel is not constant along its length. 8. The flame tube of the combustion chamber according to claim 1, in which the cross-sectional shape of the cooling channel includes a multi-petal shape. 9. The combustion chamber containing the flame tube of the combustion chamber according to claim 1. 10. A method of manufacturing a flame tube of a combustion chamber for a tubular-annular gas turbine engine, said method comprising: determination of the expected heat transfer requirements along the flame tube of the combustion chamber; forming a cooling channel in the flame tube of the combustion chamber using a structure molding process and controlling the molding process so as to change the property of the cooling channel along the length of the cooling channel based on the expected heat transfer requirements. 11. The method according to p. 10, in which the molding process includes a process of electrochemical processing. 12. The method of claim 10, wherein the molding process includes a three-dimensional printing process. 13. The method according to p. 10, further comprising changing the circumferential position of the cooling channel along the longitudinal axis of the flame tube. 14. The method according to p. 13, in which the cooling channel takes a spiral shape. 15. The method according to p. 10, further comprising controlling the molding process so that the diameter of the cooling channel is not constant along its length. 16. The method according to p. 10, further comprising controlling the molding process so that the surface roughness of the cooling channel is not constant along its length. 17. The method according to p. 10, further comprising controlling the molding process so that the cross-sectional shape of the cooling channel is not constant along its length. 18. The method according to p. 10, further comprising controlling the molding process so that the cross-sectional shape of the cooling channel includes a multi-petal shape. 19. The flame tube of the combustion chamber for a tubular-annular gas turbine engine, comprising: annular wall and a cooling channel formed in said wall and extending from the input end of the flame tube to the output end of the flame pipe, moreover, the property of the cooling channel varies along the length of the cooling channel and the cooling channel is formed by a process selected from the group consisting of an electrochemical processing process and a three-dimensional printing process.