SU1132137A1 - Shell-and-tube condenser - Google Patents

Abstract

1. COIL AND TUBE CAPACITOR, mainly for corrosive heat-transfer fluids, comprising a cylindrical body, a bundle of heat exchanging tubes mounted in the body, reinforced in tube plates, the upper part of which is made up of concentrically arranged parts connected by a compensator, supply and discharge connections of heat carriers placed on the cores of the heat sinks placed on the hooks of the connectors connected by a compensator, inlets and outlets for heat transfer media, placed on the ends of the hooks on compensators placed on the hooks of the compensators connected to the compensator, supply and discharge connections for heat transfer fluids placed on the ends of the hooks located on the ends of the hooks. and in the bottom of the housing along the axis of the latter and on its wall, distribution chambers connected to the inlet and outlet pipes of the heat transfer fluid will distribute battening sleeve is mounted coaxially with the housing and .ohvatyvayuschuyu tube bundle, characterized in that, in order povsheni reliability and economy, the gas flow distribution chamber in the form vsholnena axis situated .po pipe body with a lower end plugged with drenazhiktm otversty-. and a perforated upper part into which the lower part of the gas inlet pipe is partially inserted, while the drainage outlet is located above the gas outlet pipe. 2. A capacitor according to claim 1, characterized in that the cylindrical shell is fixed to the bottom (Pne pipe tube board. 3. The capacitor according to claim 1, about T l and C due to the fact that a drain hole is made in the lower tube plate, to the tube space with an additionally installed drainage drainage pipe.

Description

The invention relates to heat engineering and can be used in condensers; the condensation of water vapor from corrosive gases in the production of acid.

A shell-and-tube condenser is known, comprising a housing with nozzles 1 {supply and removal of heat carriers (cooling coolant gases), a tube bundle with two pipe cores, a gas flow distribution chamber, filled in the form of a pipe with a lower end jammed, on the side of the heat carrier entering the inter-annulus 1.

This design reduces the aerodynamic resistance to gas

flow through the annulus, however, during operation, the heat exchange tubes placed coaxially to the nozzle for introducing the coolant into the annulus

the section between the tube plate and the plugged gas distribution tube) is destroyed by erosion and corrosion of the tubes, while the remaining elements of the condenser, including most of the tubes of the tube bundle, remain operational.

Failure of the tubes results in a decrease in the performance of installations in which this structure is used.

Known shell-and-tube kovdensator, mainly for corrosion-active fluids, containing a cylindrical body, placed in the body of the bundle of heat exchanger tubes, mounted on tube plates,

the upper part of which is made up of concentrically placed parts, compensator joints, coolant inlet and outlet pipe, placed on the lid and bottom of the body along its axis and on its wall distribution chambers connected to the coolant inlet and outlet pipes, installed coaxially housing .and covering the bundle of pipes 121.

A disadvantage of the known heat exchanger (kkndenshopa) is in TOMj that when using corrosive heat-transfer agents containing water vapor, structural elements exposed to the dynamic effects of gases due to corrosion and erosion fail

leads to frequent stops and requires replacement of damaged components and, accordingly, reduces the reliability and efficiency of the installation.

The purpose of the invention is to increase the reliability and efficiency of the structure.

This goal is achieved by the fact that in a shell-and-tube condenser, mainly for corrosive heat-transfer agents, containing 1 cylindrical housing, placed in the housing a bundle of heat exchange tubes fixed in tube plates, the upper part of which is made of concentrically distributed parts connected by a compensator, inlet pipes and removal of coolants placed on the lid and in the bottom of the body along the axis of the latter and on its wall, distribution chambers connected to the inlet and outlet connections heat axles, a cylindrical distribution shell, installed coaxially to the casing and an enveloping tube bundle, a gas flow distribution chamber is provided in the form of a pipe located along the casing axis with an E-lower end With a drain hole and a perforated upper part, in which the lower part of the gas supply pipe is partially inserted, This drainage outlet is located above the gas outlet.

The barrel shell is attached to the bottom tube plate.

A drainage hole is made in the lower tube plate that connects the annular space with an additionally installed drainage drainage pipe.

The drawing schematically shows a shell-and-tube capacitor.

The condenser comprises a housing 1 with an upper pipe 2 and lower 3 boards, in which a bundle of pipes 4 and nozzles 5 and 6 supply and discharge a heat carrier along the annular space, located along the axis of the housing 1, are fixed. A cylindrical distributing shell 7 is fixed along the perimeter of the pipe board 3 A distribution chamber 8 with a branch pipe 9 for supplying a cooling heat carrier formed by the bottom of the housing 1 and a tube plate 3 is fixed on its lower part. Under the branch pipe 5 there is a gas distribution chamber 10 ha3. A new flow, made in the form of a pipe 11 with a plugged lower end with a drainage hole 12 and a perforated upper part, into which the lower part of the nozzle 5 is partially inserted. A pipe board 3 is attached to the body 1 with the key 13 through the intermediate ring 14. Intertube space tube bundle 4 is reported with the pipe 15 drainage drainage. To remove dead zones, annular partitions can be placed in the annular space 16. On the pipes 5 and 6 and the housing 1, compensating devices 17 can be placed. To eliminate the gas-pillow, the jaw 13 is equipped with an air vent 18. The condenser works as follows. Corrosive gas carrying droplet moisture through the pipe 5 enters the gas distribution chamber 10, in which, due to a change in the direction of flow and decrease. the velocity is separated and drip moisture is removed through the drain hole 12. From the chamber 10, the gas enters the annulus of the condenser. Lying off with the liquid flows through the tubes 4 of the beam and the drainage pipe 15 is removed. Then the gas from the annular space enters the pipe 6 and is discharged outside the apparatus. 7 . 4 Cooling coolant through the pipe 9 enters the distribution chamber 8 and then into the pipes 4, from which, after cooling the gas in the annular space, enters the branch pipe of the outlet. To avoid incomplete filling of the tube space of the pipes 4 with a cooling coolant, a cylindrical distribution shell 7 is fixed along the perimeter of the tube board 3, and to increase the reliability of the housing 1 by reducing the corrosion rate of the metal with condensed moisture of the coolant, the tube bundle 4 is covered with a shell 7 fixed on the lower tube plate 3, with which the temperature of the metal of the housing 1 is reduced. Thus, the use of avoidance will reduce the specific thermal load on the surface RUB 4 placed on the heat transfer fluid inlet, the flow rate of the heat medium in said zone; to separate and remove droplet moisture from the heat carrier flow, which will increase the condenser reliability by reducing the speed and, consequently, weakening the erosion fracture of the tube bundle and local overheating of the pipe metal at the heating coolant inlet, which increases the reliability and, accordingly, the design efficiency.

13

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input1

18

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eight

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Claims (3)

1. A SKIN-TUBED CONDENSER, mainly for corrosive heat transfer fluids, comprising a cylindrical housing, a bundle of heat-exchange tubes mounted in tube tubes, the upper of which is made up of concentric placed parts connected by a compensator, heat supply and outlet pipes placed on the cover and in the bottom of the housing along the axis of the latter and on its wall, distribution chambers connected to the inlet and outlet pipes of the coolant, a cylindrical distribution a beech nut installed coaxially to the body and covering the tube bundle, characterized in that, in order to increase reliability and economy, the gas flow distribution chamber is made in the form of a pipe located along the axis of the body with a plugged lower end with a drainage hole and a perforated upper part, into which the lower part of the gas supply pipe is partially introduced, while the drainage outlet is located above the gas pipe. 2. The capacitor according to claim 1, characterized in that the cylindrical shell. Fixed on the lower tube plate. 3. The condenser according to claim 1, characterized in that a drainage hole is made in the lower tube plate connecting the annular space with an additionally installed drainage pipe. 1 1,132,137 2 *