SU327857A1 - V.G.SUPRUNOV, B.F.TITOV, AND A.TARANKOV invention - Google Patents

Description

This invention relates to steam generating aggregates used primarily in nuclear power plants.

Steam generators are known that contain separation devices and bundles of heating spiral pipes embedded in water and steam volumes, wound on vertical cylindrical collectors.

The disadvantage of such steam generators is that to increase the temperature of the superheated steam, a significant increase in the height of the superheater and, consequently, of the entire steam generator is required.

The purpose of the invention is to provide a countercurrent movement of the heating and heated media. This is achieved by the fact that the superheater bundle is divided by concentric partitions into annular sections.

The collectors are the lower end of the evaporative and upper collector. the end of the collector of the superheater bundles are located respectively 5. outside the lower and upper bottoms of the housing, the steam generator.

In order to reduce the dimensions of the steam generator, the pipeline for supplying the coolant to the steam heating and evaporative bundles is connected to cylindrical manifolds, which is a supporting metal structure for the evaporator and superheater bundles and separator devices.

The drawing shows the proposed steam generator, a longitudinal section.

0 The steam generator includes a housing I, inside of which are located an evaporative 2 and a superheater 3 beams. The superheater beam has a few 32 first 4 and second 5, the heat exchange surface of the evaporator and the superheater is made up of twisted coils of the same length; The ends of the evaporator coils are embedded in the inlet 6 and outlet 7 collectors, and the ends of the steam superheater pipes in the inlet 8 and outlet 9 collectors. Between the evaporator and the steam boiler, there is a distribution chamber 10 of the heat transfer fluid with nozzles II and 12, respectively, of the input and output of the heat transfer fluid passing through the body of the steam generator; Inside the chamber there is a cylindrical partition wall 13 connected to external partition walls 14 and 15. The evaporative bundle is surrounded by a cylindrical fence 16 forming an annular channel 17 for circulating boiler water mixing with feed water entering through the distribution manifold 18 and the inlet port (fitting) 19 Inter; The distribution chamber and the superheating beam are located on devices 20 and 21 of primary and secondary separapia, respectively. In the second stage of the superheater to provide a countercurrent, there is an annular gap 22 formed by two cylindrical separantically arranged partition walls 23 and 24. In the upper part of the housing there is an iib branch pipe for steam discharge and a manhole 26 connected to the superheater collector and intended for inspection and repair seals the ends of the steam superheater pipes in the manifold. At the bottom of the bottom there is a hatch 27 connected to the evaporator collector and intended for inspecting and repairing the sealing points of the ends of the evaporator pipes in the collector. The evaporator coolant collector through the transition shell 28 is rigidly fixed with the lower bottom of the housing, and the steam superheater collector through the transition shell 29 - with the upper bottom of the housing. The steam generator works as follows. The coolant through the pipe II and the distribution chamber 10 enters the inlet manifolds 6 and 8 of the evaporator and the superheater, respectively, from where it is sent to the evaporator 2 and the superheater 3 beams. After passing through the heat exchange surface of the evaporator and the superheater, the heat is collected in the output collectors 7 and 9 of the evaporator and the steam heater, respectively, and then the outlet pipe 12 enters the outlet nozzle 12, Feed water is fed into the steam generator through the tapper 19 and through the distributor 18. channel 17, from where it enters the vaporizing beam 2; The evaporation beam is heated to a boiling point, and the generated steam enters the primary separation device 20 and then into the secondary separation device 21. After the secondary separation, the saturated steam enters the first stage 4 of the superheater, and then goes along the annular slot 22 to the second stage 5 of the superheater. From the steam generator, the heated steam is discharged through the steam pipe 25. Thus, this embodiment of the steam generator allows to reduce the size, to facilitate access to the collectors and the conditions for repairing heating surfaces. PRIORITY 3 ABOUT AND I. A steam generator containing separation devices and beams of heating spiral pipes embedded in water and steam volumes, wound on vertical cylindrical collectors, differs from the fact that providing a countercurrent dBikeni heating and heated media, the superheater beam is divided by concentric partitions into ring sections. 2; The steam generator according to claim I, characterized in that, in order to facilitate access to the collectors, the lower end of the evaporator collector and the upper end of the steam superheater TQ beams are located respectively outside the lower and upper bottoms of the steam generator housing. 3. The steam generator according to claim I. and 2, characterized in that, in order to reduce the size, the pipeline for supplying coolant to the steam superheater and evaporative bundles is attached to cylindrical manifolds, which is the supporting metal structure for the evaporation and superheater bundles and separation devices.