RU2062943C1 - Surface condenser of steam - Google Patents

Abstract

FIELD: power production. SUBSTANCE: device has housing 1, which is filled with boiler water, C-shaped steam tubes 2, which are located in radial direction and have differ horizontal parts, and feeding tube 3 and exhausting tube 4. Housing 1 has compensating condenser tubes 5, in which input and output parts of tubes 2 are fixed and are connected to distributing collector 6 and gathering collector 7. Steam tubes 2 are connected to steam source which has greater temperature than after second stage of steam heater or are used as first steam run tubes. Steam tubes 2 having lesser length of horizontal ends are connected to steam supply with lesser temperature, for example, after triple steam cooling or they are used as second steam run tubes. Condenser has drain 8. EFFECT: decreased temperature difference in points where tubes are connected. 3 dwg

Description

 The invention relates to heat engineering and can be used in boilers containing desuperheaters operating on boiler water.

Known surface desuperheater containing a boiler filled body with a radially located inside it "C" -shaped steam pipes, the inlet and outlet horizontal sections of which are fixed in the fittings mounted on the housing [1]
A disadvantage of the known design is the increased thermal stresses in the places of fastening of the steam pipes due to various thermal expansions of the latter and the housing.

 At the same time, in the places of fastening of steam pipes having a greater horizontal outreach of the ends and, due to this, having partial self-compensation, some thermal stresses occur, and in the places of fastening of the pipes with a smaller horizontal outreach, much greater. This is especially noticeable in sections in which hotter steam is supplied.

 The aim of the invention is to reduce thermal stresses in places of fastening of steam pipes.

 The goal is achieved by the fact that in a surface desuperheater, mainly two-flow, containing a body filled with boiler water with C-shaped steam pipes located inside it, the inlet and outlet horizontal ends of which are fixed in the fittings installed on the body, steam pipes with a large outhang of horizontal ends are connected to the source higher temperature steam. The desuperheater can be made single-threaded, but two-way steam. In this case, pipes with a large horizontal extension of the ends are used as steam pipes of the first, hotter stroke.

 With the claimed design of the desuperheater, the thermal stresses at the points of fastening of the steam pipes are reduced for steam pipes with a large overhang of the horizontal ends due to partial self-compensation, for steam pipes with a lower overhang due to a smaller difference in the temperature elongations of the walls of the casing and the pipes.

 In FIG. 1 shows a dual-flow desuperheater, a longitudinal section; in FIG. 2 and 3 show embodiments of nodes I and II in FIG. 1 for a single-flow and two-pass steam desuperheater.

 The surface desuperheater comprises a casing 1 filled with boiler water, C-shaped steam tubes 2 radially arranged in it with horizontal sections of different lengths and a supply 3 and a discharge 4 pipes. The housing 1 is equipped with compensating fittings-shirts 5, in which the inlet and outlet horizontal sections of pipes 2 are fixed, united by distributing 6 and prefabricated 7 collectors. Steam pipes 2 with a large horizontal outflow of horizontal ends are connected to a steam source with a higher temperature, for example after the second stage of a superheater, or are used as pipes of the first steam stroke. Steam pipes with a smaller overhang of horizontal ends are connected to a steam source with a lower temperature, for example, after the first stage of a three-stage superheater, or are used as pipes of the second steam stroke. The desuperheater is equipped with drainage 8.

 Surface desuperheater operates as follows.

 Boiler water from the drum water volume is fed through pipe 3 into the internal cavity of the housing 1. Superheated steam from the distributing 6 collectors enters the steam pipes 2. Passing through them through the water volume of the housing 1, the steam is cooled by the boiler water, which at the same time boils, forming a steam-water mixture creating natural circulation in the desuperheater circuit. Cooled steam from the prefabricated collector 7 is sent for further overheating or to the consumer, and the steam-water mixture through the pipe 4 is discharged into the boiler drum.

 Due to the different temperatures of the walls of the housing 1 and the steam pipes 2, thermal stresses occur in the fastening points of the latter in the nozzles 5, which are partially suppressed due to self-compensation of pipes with a large horizontal extension of the ends and partially reduced as a result of lower temperature elongations of the pipes with a smaller horizontal extension of the ends when passing along nim steam with a lower temperature. YYY2

Claims (1)

 A surface desuperheater, mainly two-flow, containing a body filled with boiler water with C-shaped steam pipes radially located inside it, the inlet and outlet horizontal ends of which are fixed in the fittings mounted on the housing, characterized in that the steam pipes with a large horizontal reach of the ends are connected to the steam source with a higher temperature.

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