SU1073551A1 - Shell-and-tube heat exchanger (versions) - Google Patents

Abstract

1. A shell-and-tube heat exchanger containing tube bundle sections housed in a shell, secured in tube plates, located between the mixing chamber sections and inlet and outlet nozzles of tube and annular space media, characterized in that, in order to improve reliability, each tube bundle section is enclosed in the shell forming with the corresponding tube plates, the end gaps and mounted on the casing by means of annular partitions, moreover, the pipe of the input of the annular space medium is connected to the casing between the partitions of the first section in the course of the movement of this medium, and the partition most distant from the second section is designed as a separator. - 5 (L 00 ate SL

Description

2. A shell-and-tube heat exchanger containing tube bundle sections dispersed in the shell, secured in tube plates located between the mixing chamber sections and inlet and outlet nozzles of the tube and annular space, characterized in that, in order to improve reliability, in the annular space of the first section along the way

In addition, a separating partition located between pipe plates of this section is additionally placed in the environment of this space in front of the nozzle, and the second section is enclosed in a shell fixed on the casing by means of an annular partition and forming end gaps with the pipe plates.

The group of inventions relates to heat and power engineering, in particular to heat exchangers for heat recovery of corrosive heat transfer fluids, and can be used in the energy and chemical industries. Heat exchangers are known, comprising a housing with nozzles for supplying and discharging gases, in which a tube bundle and a cylindrical shell placed between the shell and the tube bundle are placed (1. The disadvantage of this heat exchanger is the possibility of moisture from the flow in the annulus of the tube bundle. Closest to The invention is a shell-and-tube heat exchanger containing tube bundle sections housed in a shell, fixed in tube plates, located between the mixing chamber sections and nozzles. input and output of pipe and Jsl environment of space 2. The disadvantage of this heat exchanger is the presence in the flow of condensed moisture, which leads to an increase in size and reduces the reliability of the heat exchanger as a whole. The purpose of the group of inventions is to improve reliability. is achieved by the fact that in a shell-and-tube heat exchanger, there are sections of tube bundles placed in the shell, fixed in tube plates, located between the sections of the mixing chamber and the nozzle tube and annular space input and output, each section of tube bundles is encased in a shell forming end gaps with corresponding tube plates and fixed to the casing by means of annular partitions, with the annulus input nipple connected to the casing between the partitions of the first section as the medium moves and the partition farthest from the second section is designed as a separator. The goal set in accordance with the second embodiment of the invention is achieved by the fact that in a shell-and-tube heat exchanger, there are sections of tube bundles placed in a casing, fixed in tube plates, between the sections a mixing chamber and nozzles of the inlet and outlet of the tube and annular media, first a section along the movement of the medium of this space in front of the nozzle of its entry is additionally placed a separating partition located between the tube plates of this section, and the second and the section is enclosed in a shell fixed on the casing by means of an annular partition and forming end gaps with tube plates. FIG. 1 schematically shows a shell-and-tube heat exchanger, the first option; in fig. 2 - the same, the second option. The shell-and-tube heat exchanger contains sections 2 and 3 of tube bundles placed in shell 1, fixed in tube plates 4, 5 and 6, 7, respectively, between mixing sections 2 and 3 of the mixing chamber 8 and nozzles of inlet 9, 10 and outlet II, 12 and annular spaces. According to the first embodiment of the invention, each section 2 and 3 of the tube bundles is enclosed in the shells 13 and 14, which with the corresponding tube plates 4, 5 and 6, 7 form end gaps 15, 16 and 17, 18 and are fixed to the casing I by means of annular partitions 19, 20 and 21, the inlet pipe 10 of the annular space medium is connected to the casing I between the partitions 19 and 20 of the first section 2 in the direction of movement of this medium, and the "furthest from the second section 3 partition 19 is designed as a separator. According to the second embodiment of the invention, in the annular space of the first section 2, in the course of the movement of the medium of this space, in front of the nozzle of its inlet 10, there is additionally placed a separating partition 22 located between the pipes

Claims (2)

1. Shell-and-tube heat exchanger containing sections of tube bundles located in the casing, fixed in tube boards, a mixing chamber located between the sections and the inlet and outlet pipes of the medium of the tube and annular space, characterized in that, in order to increase reliability, each section of tube bundles is enclosed in a shell forming end gaps with corresponding tube boards and secured to the casing by means of annular partitions, and the pipe for introducing the annulus is connected to the casing at the partitions of the first section in the direction of movement of this medium, and the partition farthest from the second section is made in the form of a separator. (rig1 10/3551 2. Shell-and-tube heat exchanger containing sections of tube bundles located in the casing, fixed in tube boards, a mixing chamber located between sections and inlet and outlet pipes of the medium of the pipe and annular space, characterized in that, in order to increase reliability, in the annular space of the first section is in the course of the movement of the medium of this space, a separating partition located between the tube plates of this section is additionally placed in front of the inlet pipe, and the second section is enclosed in a shell flange on the casing by means of an annular partition and forming end gaps with tube boards.