SU1688027A1 - Steam generator - Google Patents

Abstract

The invention relates to energy and m. used in low pressure and low capacity steam generators. 2 The purpose of the invention is to increase the reliability of the circulation of the heated medium and reduce its size. For this, the feed water heater connected to the feed pipe 5 is made in the form of heat exchange pipes 6 installed in the descending pipes 2 and the dispensing pipe 7 placed in the exhaust manifold 4 and connected to the pipes 6. At the same time, in the collector 4 steam generated in pipes 1, which improves the separation of steam and reduces the size of the collector 4. Due to the condensation of steam trapped in the desiccation pipe 2, the pipes 6 do not improve circulation of the heated medium in the evaporation circuit, 1, p. f-ly, il.

Description

. The invention relates to energy and can be used in steam generators of low pressure and low productivity.

The purpose of the invention is to increase the reliability of the circulation of the heated medium and reduce the size

The drawing schematically shows a steam generator.

The steam generator contains an evaporation circuit formed by lifting pipes 1 and lowering pipes 2 connected to the inlet manifold 3 and the outlet manifold 4 of the heated medium. The steam generator also contains a feed water heater connected to the feed pipe 5, connected to the evaporation circuit and made in the form of heat exchange pipes 6 and distribution pipes 7. The pipes 6 are installed in the drain pipes 2 of the evaporation circuit, and the pipe 7 'is located in the outlet manifold 4 of the latter, made perforated in length and connected to heat-exchanged pipes 6 of the feed water heater.

In addition, the steam generator includes a steam manifold 8 connected to the outlet manifold 4 by means of pipes 9. In the steam manifold 8 there is a steam filter 10 and a baffle plate 11 mounted under the filter 10.

Each heat exchange pipe 6 of the feedwater heater can be plugged from the side of the inlet manifold 3. In this case, circulation tubular inserts 12 are installed inside the pipes 6. The steam manifold 8 is connected via an overflow pipe 13 to the inlet manifold 3 of the evaporative circuit.

The steam generator operates as follows.

When heat is supplied to the riser pipes 1, steam is generated, which, together with unevaporated water, enters the discharge manifold 4. In the collector 4, water is separated from the steam. Water through the pipes 2 is lowered into the manifold 3. and steam through the pipes 9 is sent to the steam collector 8. The steam generator is fed through the pipeline 5. A part of the feed water is lowered through the circulation inserts 12 and then heated in the annular gaps formed by these inserts 12 and pipes 6 .

The heated part of the feed water is mixed with the rest of the feed water, then the resulting mixture · ”, not heated to boiling, is distributed through the pipe 7 along the length of the collector 4. At the same time, part of the steam generated in the pipes is condensed in the collector 4. the collector 4 improves the separation of steam in it, allows you to reduce the dimensions of this collector 4 and reduce the size or number of pipes 9. At the same time, reducing the steam content in the collector 4 reduces the capture of steam in the downpipes 2, which improves the circulation of heating medium in the evaporation circuit, which improves even more due to the condensation of steam on the pipes 6, which nevertheless fell into the lowering pipes 2.

The steam from the collector 4 through pipes 9 rises to the steam manifold 8, where it passes through the baffle plate 11 and the filter 10. The filter 10 retains moisture drops trapped in the steam. In this case, moisture flows down the walls of the collector 8 again into the pipes 9 or is drained along the pipe 13 into the collector 3. In addition, the pipes 6, if they are muffled from the side of the collector 3, also serve as traps of contaminants in the feed water, which eliminates clogging perforation of the pipe 7 and the entire evaporation circuit. Rinsing steam with feed water ensures low salinity. and the sheet 11 and the filter 10 increase the quality of the generated steam by reducing its zlosogo content.

Claims (2)

Claim 1. A steam generator containing an evaporation circuit, a feed water heater and a steam manifold, the first of which is formed by lifting and lowering pipes connected to the inlet and outlet manifolds of the heated medium, the second is connected to the feed pipe and connected to the evaporation circuit, and the third is connected to the exhaust manifold characterized in that, in order to increase the reliability of circulation of the heated medium and reduce the size, the feed water heater is made in the form of heat exchange and distributing t K, the first of which is mounted in the evaporating circuit downcomer pipes, and the second manifold arranged in offtake latter is perforated along the length and connected to the heat exchange tubes feedwater preheater. 2. The steam generator according to claim 1, characterized in that it further comprises a steam filter disposed in the steam manifold.