RU2013123451A - TURBINE PROTECTIVE SHELL COOLING UNIT (OPTIONS) AND GAS-TURBINE SYSTEM - Google Patents

Abstract

1. A turbine containment cooling unit for a gas turbine system, comprising: an inner containment piece located in a turbine section of the gas turbine system and adjacent to a hot gas path therein, wherein said inner containment piece includes a base portion in direct contact with said path hot gas; and at least one fin projecting radially from said base portion and positioned adjacent to at least one cavity configured to receive a cooling flow from a cooling source, said cooling flow passing through a main channel of said fin to cool said inner containment member .2. The turbine containment cooling unit according to claim 1, also including a first side part channel located inside the first side part, and a second side part channel located inside the second side part. The turbine containment cooling unit of claim 2, wherein said main channel extends from said first side channel to said second side channel, wherein said cooling flow is transferred between said first side channel and said second side channel by passing through the mentioned main channel.4. The turbine containment cooling unit according to claim 2, also including a leading edge of said inner containment part and a trailing edge of said inner containment part. The turbine containment cooling unit according to claim 2, also including at least one front channel, ra

Claims (20)

1. The cooling unit of the protective shell of the turbine for a gas turbine system, including: a part of the inner protective shell located in the turbine section of the gas turbine system and near the hot gas path inside it, while the said part of the inner protective shell includes a base part in direct contact with said hot gas path; and at least one rib protruding radially from said base portion and located near at least one cavity configured to receive a cooling stream from a cooling source, said cooling stream passing through a main channel of said rib to cool said inner protective shell component . 2. The cooling unit of the turbine containment shell according to claim 1, further comprising a channel of the first side part located inside the first side part and a channel of the second side part located inside the second side part. 3. The turbine containment cooling unit according to claim 2, wherein said main channel extends from said first side channel to said second side channel, said cooling stream being transferred between said first side channel and said second side channel passing through said main channel. 4. The turbine containment cooling unit according to claim 2, further comprising a leading edge of said inner protective envelope part and a trailing edge of said inner protective envelope part. 5. The turbine containment cooling block according to claim 2, further comprising at least one front channel located near the leading edge and at least one rear channel located near the trailing edge, wherein said main channel extends from said at least one front channel to said at least one rear channel. 6. The turbine containment cooling unit according to claim 5, wherein said at least one front channel extends from said first side channel to said second side channel, said at least one rear channel extends from said first side channel parts to said channel of the second side part. 7. The turbine containment cooling unit according to claim 5, wherein said cooling stream flows freely between the at least one channel of the first side part, the at least one channel of the second side part, the at least one front channel, at least one the rear channel and the main channel in a continuously interconnected cooling flow loop. 8. The cooling unit of the turbine containment shell according to claim 1, further comprising a plurality of channels extending from said at least one cavity to said main channel for directing said cooling stream to said main channel. 9. The turbine containment cooling unit according to claim 1, wherein said main channel includes at least one gap forming a plurality of main channels. 10. The cooling unit of the protective shell of the turbine for a gas turbine system, including; a part of the inner protective shell located in the turbine section of the gas turbine system and near the hot gas path inside it, while the said part of the inner protective shell includes a leading edge and a trailing edge located at the rear of the said part of the inner protective shell relative to said leading edge; a base portion extending from said leading edge toward said trailing edge, wherein said base portion is in direct contact with said hot gas path; and a rib protruding from the first side portion toward the second side portion and in a radial direction from said base portion, said rib comprising a main channel extending between said first side portion and a second side portion, and is configured to receive a cooling stream from a cooling source. 11. The turbine containment cooling unit of claim 10, wherein said rib is at least partially surrounded by said at least one cavity configured to receive said cooling stream from a cooling source. 12. The cooling unit of the turbine containment shell according to claim 11, further comprising a plurality of channels extending from said at least one cavity to said main channel for directing said cooling stream to said main channel. 13. The turbine containment cooling unit of claim 12, wherein said plurality of channels are through drilled holes. 14. The turbine containment cooling block according to claim 12, further comprising a channel of the first side part located inside the first side part and a channel of the second side part located inside the second side part, wherein said main channel extends from said channel of the first side part to said channel of the second side part, and said cooling stream is transferred between said channel of the first side part and said channel of the second side part by passing through said main channel. 15. The cooling unit of the turbine containment shell according to claim 14, further comprising at least one front channel located near the leading edge and at least one rear channel located near the trailing edge. 16. The turbine containment cooling unit according to claim 15, wherein said at least one front channel extends from said first side channel to said second side channel and said at least one rear channel extends from said first side channel to said channel of the second side part. 17. The turbine containment cooling unit according to claim 15, wherein said cooling stream flows freely between said at least one channel of the first side part, at least one channel of the second side part, at least one front channel, at least one the rear channel and the main channel in a continuous circuit flow cooling. 18. Gas turbine system, including: a compressor for distributing the cooling stream under high pressure; a turbine housing supporting a turbine containment unit for receiving a cooling stream for cooling it; a part of the inner protective shell, including a leading edge, a trailing edge, located axially behind the said leading edge, and a base part connecting said leading edge with said trailing edge; and a fin located between said leading edge and trailing edge and extending between the first side part and the second side part, wherein said rib includes a main channel configured to receive a cooling stream for cooling said part of the inner containment. 19. The gas turbine system of claim 18, further comprising a channel of a first side portion located inside a first side portion and a channel of a second side portion located inside a second side portion, wherein said main channel extends from said channel of the first side portion to said second channel the side part, and said cooling stream is transferred between said channel of the first side part and said channel of the second side part by passing through said main channel. 20. The gas turbine system of claim 18, wherein said rib is at least partially surrounded by said at least one cavity configured to receive a cooling stream from a cooling source.