A combined cycle power plant generally comprises a gas turbine power facility, a heat recovery steam generator, a steam turbine power facility, and an existing boiler. The power generation plant further comprises a system for introducing steam, which is generated in the heat recovery steam generator
A combined cycle power plant generally comprises a gas turbine power facility, a heat recovery steam generator, a steam turbine power facility, and an existing boiler. The power generation plant further comprises a system for introducing steam, which is generated in the heat recovery steam generator and the existing boiler, to the steam turbine of the steam turbine power facility through steam lines, which extend from the existing boiler and heat recovery steam generator and are then joined together, and a system for causing a line, which is arranged on a downstream side of a condenser provided in the steam turbine power facility, to branch off into feedwater lines, and supplying condensed water condensed by the condenser into the heat recovery steam generator and the existing boiler.
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A combined cycle power plant generally comprises a gas turbine power facility, a heat recovery steam generator, a steam turbine power facility, and an existing boiler. The power generation plant further comprises a system for introducing steam, which is generated in the heat recovery steam generator
A combined cycle power plant generally comprises a gas turbine power facility, a heat recovery steam generator, a steam turbine power facility, and an existing boiler. The power generation plant further comprises a system for introducing steam, which is generated in the heat recovery steam generator and the existing boiler, to the steam turbine of the steam turbine power facility through steam lines, which extend from the existing boiler and heat recovery steam generator and are then joined together, and a system for causing a line, which is arranged on a downstream side of a condenser provided in the steam turbine power facility, to branch off into feedwater lines, and supplying condensed water condensed by the condenser into the heat recovery steam generator and the existing boiler. r flange leg engages no less than 50% of the surface area of the respective one of said doorstop jamb surfaces. 5. The cladded door frame system of claim 1, further comprising: a) a kerf formed in each of said doorstop jamb surfaces for retaining a weather stripping. 6. The cladded door frame system of claim 1, wherein: a) said cladding strips are made of steel. 7. The cladded door frame system of claim 6, wherein: a) said cladding strips are made of galvanized steel. 8. The cladded door frame system of claim 7, further comprising: a) a protective coating on each cladding strip. 9. The cladded door frame system of claim 8, further comprising: a) a decorative pattern formed in each of said decorative portions. 10. The cladded door frame system of claim 1, wherein: a) each one of said brickmolds extends along a respective one of said jamb surfaces facing toward said exterior side. 11. The cladded door frame system of claim 10, wherein: a) each one of said brickmolds is orthogonally oriented with a respective one of said jambs. 12. The cladded door frame system of claim 11, wherein: a) each of said brickmolds extends over most of a surface of said respective one of said jamb surfaces facing toward said exterior side. 13. The cladded door frame system of claim 1, wherein: a) each one of said second outer flange legs entirely covers a respective one of said second brickmold surfaces. 14. The cladded door frame system of claim 1, wherein: a) each one of said cladding strips is elastically deformable such that said cladding strip is snapped into position upon a respective one of said frame members for frictional engagement therewith. 15. A one-piece cladding strip for extending along and protecting surfaces of one of first, second and third frame members defining a door opening, the first frame member having a first side jamb and a first brickmold extending along the first side jamb, the second frame member having a second side jamb and a second brickmold extending along the second side jamb, the third frame member having a header and a header brickmold extending along the header, each of the side jambs and the header having a first frame surface facing an exterior side of the door opening, a second frame surface providing a door stop and facing an interior side of the door opening, and a third frame surface facing the door opening, each of the brickmolds including a first brickmold surface facing the door opening, a second brickmold surface facing away from the door opening, and a third brickmold surface facing the exterior side of the door opening, said one-piece cladding strip comprising: a) an inner flange having a first leg at least partly engaging the first frame surfaces, a second leg engaging most of a surface area of the second frame surface, and a body portion at least partly engaging the third frame surface, said first inner flange leg being orthogonally joined to said body portion, said body portion being orthogonally joined to said second inner flange leg, said first and second inner flange legs being oriented parallel to one another; and b) an outer flange having a first leg engaging the first brickmold surface, a second leg engaging the second brickmold surface and a decorative portion spaced from the third brickmold surface to define a gap, said first outer flange leg being orthogonally joined to said decorative portion, said decorative portion being orthogonally joined to said second outer flange leg, said first and second outer flange legs being oriented parallel to one another; wherein i) said first inner flange leg is joined orthogonally to said first outer flange leg, ii) said cladding strip being elastically deformable such that said cladding strip is snapped into position upon one of the frame members for frictional engagement therewith, and ii) said cladding strip is made of metal. 16. The elongate cladding strip of claim 15, wherein: a) said se cond inner flange leg engages no less than 50% of the surface area of the respective one of said second frame surfaces. 17. The elongate cladding strip of claim 16, wherein: a) said cladding strip is made of steel. 18. The elongate cladding strip of claim 17, wherein: a) said cladding strip is made of hot dip galvanized steel. 19. The elongate cladding strip of claim 18, further comprising: a) a coat of paint on all exteriorly disposed surfaces of each cladding strip. 20. The elongate cladding strip of claim 19, further comprising: a) a decorative pattern rolled into each of said decorative portions. 21. The elongate cladding strip of claim 15, wherein: a) said inner and outer flanges are roll formed. 22. An elongate cladding strip for protecting surfaces of one of first, second and third frame members defining a door opening, the first frame member including a first side jamb and a first brickmold extending along therewith, the second frame member including a second side jamb and a second brickmold extending along therewith, the third frame member including a header and a header brickmold extending along therewith, each one of the brickmolds being oriented orthogonally to a respective one of the side jambs and header along a surface thereof that faces toward an exterior side of the door opening, said elongate cladding strip comprising: a) an inner flange engageable with a respective one of the side jambs and the header, said inner flange having first and second legs connected to opposite ends of a body portion, said first inner flange leg engageable with a surface of the respective one of the side jambs and the header that faces an exterior side of the door opening, said second inner flange leg engageable with most of a surface area of a door stop surface of the respective one of the side jambs and the header, said body portion engageable with a surface of the respective one of the side jambs and the header that faces a door opening; and b) an outer flange engaging a respective one of the brickmolds, said outer flange having first and second legs connected to opposite ends of a decorative portion, said first outer flange leg engageable with a surface of the respective one of the brickmolds that faces toward the door opening, said second outer flange leg engageable with a surface of the respective one of the brickmolds that faces away from the door opening, said decorative portion spaced from a surface of the respective one of the brickmolds that faces towards an exterior side of the door opening to define a gap; wherein: i) said elongate cladding strip being elastically deformable such that said elongate cladding strip is snapped into position upon one of the frame members for frictional engagement therewith, and ii) said elongate cladding strip is made of metal. 23. A method of installing a cladding strip on a door frame having first, second and third frame members defining a door opening, the first frame member including a first side jamb and a first brickmold extending along therewith, the second frame member including a second side jamb and a second brickmold extending along therewith, the third frame member including a header and a header brickmold extending along therewith, each one of the brickmolds being oriented orthogonally to a respective one of the side jambs and header along a surface thereof that faces toward an exterior side of the door opening, each of the side jambs and the header having a door stop surface that faces toward an interior side of the door opening and that abuts against a door mounted in the door opening, each of the brickmolds having a surface facing away from the door opening, said method comprising: a) providing an elongate metal cladding strip that includes i) an inner flange engageable with a respective one of the side jambs and the header, the inner flange having first and second legs connected to opposite ends of a body portion, the first inner fl
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이 특허에 인용된 특허 (10)
Briesch Michael S. (Orlando FL) Costanzo Michael A. (Akron OH), Combined combustion and steam turbine power plant.
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Rancruel, Diego Fernando; Viscome, Drake Joseph; Fadde, Elizabeth Angelyn; Atwell, Ashlee Nicole; Conger, Kyle Joseph, System and method for heat recovery steam generators.
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