SU1629686A1 - Evaporator - Google Patents

Abstract

This invention relates to a power system and can be used in multi-stage evaporators. The purpose of the invention is to improve the reliability of the evaporator in operation and to improve the quality of condensate by reducing vibrational and erosive wear and rational distribution of steam. The evaporator includes a housing 1 with a heating section (HW) 3 installed with a gap 2 with a Housing 1 installed with horizontal guiding partitions (LR) 4. A condensate collector (CS) 6 is connected to the lower part of the annular space (MP) 5 HS 3 The evaporator contains the pipe (P) 8 for supplying heating steam and the pipe 12 for supplying condensate. The evaporator is equipped with a perforated shell 13, covering P 8 inside the MP 5, a perforated lid 14 placed on the COP 6, and a perforated stiffening partition 15 installed in the lower part of the HS 3. The open end of the P 8 is located in the middle of the height of the HS 3, and its side surface 16 within HS 3 is perforated. NP 4 is installed with a variable pitch, increasing from top to bottom, with the pitch between the downstream NP 4 being twice as large as the pitch between the adjacent upstream ones. The pipe 12 is wound up in the cavity of the COP 6. and its output section 17 is perforated and placed in the MP 5 above the COP 6. 1 Il. IO K H; O 00 a

Description

The invention relates to a power system and can be used in multi-stage evaporation plants.

The aim of the invention is to increase the reliability of the evaporator and improve the quality of the condensate by reducing vibrational and erosive wear and rational distribution of steam.

The drawing shows the evaporator design.

The evaporator comprises a housing 1 with a heating section 3 installed therein with a clearance 2 with a housing 1 with horizontal guiding partitions 4. A condensate collector 6 with a condensate outlet 7 is connected to the lower part of the annular space 5 of the heating section 3. The evaporator contains a heating steam supply pipe 8, a non-condensable gas exhaust pipe 9 connected to the upper part of the annular space 5, a feed water outlet pipe 10 from the gap 2, a feed water supply pipe 11 installed tangentially below the condensate collector 6, and a condensate water pipe 12 .

The evaporator is provided with a perforated shell 13 ,. covering the nozzle 8 for supplying heating steam inside the annular space 5, perforated cover 14 placed on the condensate collector 6, and perforated stiffening partition 15 installed in the lower part of the heating section 3. The open end of the steam supply nozzle 8 is located in the middle of the height of the heating section 3 and its side surface 16 within section 3 is perforated.

The horizontal partitions 4 are installed with variable pitch, increasing from top to bottom, with the step between the two lower partitions 4 being twice as large as the spacing between adjacent upper ones, the Nozzle 12 condensate inlet is introduced into the cavity of the condensate collector 6, and its outlet section 17 is perforated and placed in the annular space 5 above the condensate collector.

The pipes of the heating section 3 are connected to the upper 18 and lower 19 tube plates. Above the heating section 3, steam-flushing sheets 20 and a louvered separator 21 are installed.

The evaporator works as follows.

The primary heating steam enters through the nozzle 8 and enters the lower part of the annular space 5 of section 3 through the open end and the holes of the perforated surface 16. Raising between the pipes of section 3 from the bottom up, the steam condenses and the non-condensable gases are removed from the upper part of the annular space 5 through pipe 9. When the steam moves upwards, the condensate is deaerated and its overcooling is prevented before collecting in the condensate collector 6, which improves the quality of the condensate leaving the evaporator. Installing the baffles with a doubling step from top to bottom results in the formation of vapor compartments with a volume ratio of 1: 2: 4: 8. This helps to maintain approximately the same and close to optimal steam velocities in all compartments. The perforated partition 15 provides rigid mounting of the tubes in the lower compartment and thus reduces the vibration wear of the tubes.

In the space above the condensate collector 6, superheated condensate from the heating section of the upstream evaporator enters through the pipe 11 and its perforated outlet section 17. This condensate stream is divided into steam and water in the interstitial space 5 above the condensate collector 6. From the latter, all condensate is directed to the heating section of the subsequent evaporator or to the condensate collection tank through pipe 7.

The feed water is fed into the evaporator tangentially through the pipe 11 and is discharged through the pipe 10. The secondary steam generated from it is cleaned, dried on the sheets 20 and the separator 21, respectively, and then discharged from the evaporator housing 1.

The perforated cover 14 limits the dynamic effect of steam on the condensate in the condensate collector 6.

For real devices it is advisable to use certain ratios of dimensions and the degree of perforation. Thus, it is proposed to use a shell diameter of 13 and 1.1 times the diameter (d) of the perforated surface 16. The diameter of the condensate collector 6 should be 1.3 d, its height, And 3d. The perforation area of the upper zone of the surface 16 should be approximately 4-d2, the lower 8-d2, and the shell 13-8 d2.

Claims (1)

Invention Formula An evaporator comprising a housing with an installed in it with the formation of a gap with the last heating section with horizontal guiding partitions, to the lower part of the annular space of which a condensate collector with a condensate discharge pipe, a heating steam supply pipe, a non-condensable gas discharge pipe connected to the upper part of the annular space, a feed water outlet pipe from the gap, a feed water supply pipe installed tangentially below the condensate collector, and a condensate supply pipe that is different from improving evaporator reliability and improving condensate quality by reducing vibrational and erosive wear and rational distribution of steam; the evaporator additionally provided with a perforated shell covering the steam supply pipe inside the annular space, with a perforated cover placed on the condensate0 five the collector, and a perforated stiffness partition installed in the lower part of the heating section, the open end of the steam supply pipe is located in the middle of the height of the heating section, and its side surface is perforated within the section, the horizontal partitions are installed with variable pitch, increasing from top to bottom, with the step between two the lower partitions are twice as large as the spacing between adjacent upper layers, the condensate supply pipe is wound into the cavity of the condensate collector, and its output hydrochloric portion is perforated and positioned in the annulus above the condensate trap.