RU2000124312A - PRE-MIXING CHAMBER FOR GAS TURBINES - Google Patents

Claims (12)

1. Pre-mixing chamber (10) for gas turbines, where the gas turbine is a type that contains at least one compressor connected to the turbine, and a combustion chamber, where the pre-mixing chamber (10) has a tapering part (12) located so as to accelerate combustion inside the combustion chamber, the pre-mixing chamber (10) has a plurality of pipes (19) with openings (20) made therein, which are open inside the combustion chamber on the front of the pre-mixing chamber (10), to create a series of kindling ignition flames that are adjusted accordingly to stabilize the main flame initiated inside the combustion chamber, characterized in that the front region of the tapering part (12) of the premixing chamber (10) has at least one annular groove (23) located at the holes (20), which are in the pipes (19).  2. Pre-mixing chamber (10) according to claim 1, characterized in that the annular groove (28) has a cross section of a substantially "V" -shaped shape.  3. Pre-mixing chamber (10) according to claim 2, characterized in that each of the pipes (19) ends in a region that contains a vertex of a “V” -shaped cross section.  4. Pre-mixing chamber (10) according to claim 1, characterized in that at least one first surface (30) of the tapering part (12) has a partial protective coating, while on the second surface (31) of the tapering part (12), which also contains a groove (28), the protective coating 31 is applied in its entirety.  5. Pre-mixing chamber (10) according to claim 4, characterized in that the first surface (30) is spaced apart from the groove (28).  6. Pre-mixing chamber (10) according to claim 1, characterized in that the tapering part (12) is connected in one piece to the body (11) of the pre-mixing chamber.  7. Pre-mixing chamber (10) according to claim 1, characterized in that it comprises a column-type support (29), inside which there is a channel (22) for introducing gaseous fuel into the pre-mixing chamber 10.  8. Pre-mixing chamber (10) according to claim 7, characterized in that inside the column-type support (29) there is a second channel (19) for introducing auxiliary fuel, which ends in a distribution chamber (27), which in turn is connected to pipes (19).  9. Pre-mixing chamber (10) according to claim 1, characterized in that a mixture stream is formed inside the tapering part (12), which is optimal for subsequent combustion, said mixture stream being formed using at least one rotor (23), which creates the corresponding turbulence in the liquid mixture.  10. Pre-mixing chamber (10) according to claim 1, characterized in that the holes (20) that are in the pipes (19) are located at an equal distance in the annular direction relative to the housing (11) of the pre-mixing chamber (10). 11. Pre-mixing chamber (10) according to claims 1 and 2, characterized in that the groove (28) has an area of connection with the pipes (19), which is essentially inclined, namely, has the shape of a cone with at least one angle T at an apex selected from a range of predefined values, and specifically, from 115 ^o in hexadecimal terms to 85 ^o in hexadecimal terms.  12. Pre-mixing chamber (10) for gas turbines, where the gas turbine is a type that contains at least one compressor connected to the turbine, and a combustion chamber, where the pre-mixing chamber (10) has a tapering part (12) located so as to accelerate combustion inside the combustion chamber, and where the injector for liquid fuel supplied through the corresponding pipe is connected to the pre-mixing chamber (10), characterized in that the front region of the tapering part (12) of the pre-mixing chamber of mixing it has at least one annular groove (28).