SU1578433A1 - Vertical heat-exchanger - Google Patents

Abstract

The invention relates to heat engineering and can be used, in particular, in the food industry. The purpose of the invention is to increase efficiency by organizing a multi-way movement of the working environment by installing in the annular space vertical partitions 17, 18 and 19, the first of which is placed similarly to the partition 14 in the collecting chamber 8, and the partitions 18, 19 are perpendicular to the partition 17 equally spaced from the axis of the heat exchanger. In this case, the partitions divide the annular space into compartments, the living cross section of which is proportional to the flow rates of the medium. The partition 18 is provided with windows 20, and the partitions 17, 19 are installed with a clearance to the tube plate 9, thereby ensuring the flow of the medium from one compartment to another. The inlet cavity 15 of the chamber 8 is connected to the annular space by the overflow pipe 21. When the heat exchanger is operating, the heated liquid through the collector 12 is fed into the annular channels 13 of heat exchange elements 2 of the type pipe in the pipe. Heating medium through the nozzle 24 is introduced into the annular space, successively bending the partition walls 17, 18, 19, flows around the pipes 4 in two symmetrical flows and flows through the pipelines 21 into the input cavity 15, from where half the tube bundle 3 enters the chamber 7, and from there in the second half of the beam, from which through the output cavity 16 and the nozzle 25 is removed from the apparatus. 4 il.

Description

The invention relates to heat engineering and can be used, in particular, in the food industry.

The purpose of the invention is to increase efficiency by organizing multi-way motion of the working environment.

In Fig.1,2 shows the heat exchanger, General view; on fig.Z - section aa in figure 1; figure 4 - section bB in fig.Z; figure 5 - section bb In figure 3.

The heat exchanger contains a vertical cylindrical body 1 with resistive exchange elements 2 types of a pipe in a pipe, the internal pipes 3 of which are made of external pipes 4. The pipes 3 are fixed in pipe boards 5U6 of overflow

7 and collector 8 cameras, and pipes

4 - in boards 9, 10 forming with boards 5, 6, collectors 11 and 1 / communicated with annular channels 13 of heat exchangers 1, the Collector chamber 8 is divided by a vertical axial partition 14 into two equal cavities — input 15 and output 16.

In the interstitial space, vertical partitions 17.18 and 19 are installed, the first of which is placed similarly to the partition 14, and the partitions 18, 19 are perpendicular to the partition 17 at an equal distance from the heat exchanger axis. The partitions 17, 18, and 19 divide the annular space into compartments, the living section of which is proportional to the flow rates, with the partitions 18 provided with windows 20, and the partitions 1 /, 19 are installed with gaps in relation to the pipe board 9, providing thereby

the ability to transfer the working environment from one compartment to another. The inlet cavity 15 of the collector chamber 8 is connected to the annular space of the overflow pipelines 21 located on opposite sides of the housing 1. The collectors 11, 12 are equipped with inlet pipes 22 and outlet 23 of the heated medium. The input and output of the heating medium is carried out through the pipes 24 and 25.

The heat exchanger operates as follows.

The heated fluid through the pipe 22 and the collector 12 is fed into the annular channels 13 of the elements 2 and through the collector 11 and the pipe 23 is removed from the apparatus.

A heating medium, such as condensate, is introduced through nozzle 24 into the annular space, successively turning off the bulkheads 17, 18 and 19, flows around the pipes 4 in two symmetrical flows and through the bypass pipes 21 enters the inlet cavity 15 of the chamber 8, from where half the beam of pipes 3 enters the overflow chamber 7, and from it into the second half of the tube bundle 3, from which through the output cavity 16 of the chamber 8 and the nozzle 25 is led out of the apparatus.

The design of the heat exchanger provides a high speed of the heating medium due to the reduction of the living cross section of the channels for its passage, turbulization of the flow, elimination of stagnant zones, uniform heat transfer over the entire heating surface. At the same time, two flows are mixed in the inlet cavity of the collector.

which equalizes the temperature over the cross-section of the total flow, and by reducing the hydraulic resistance, an economy of energy resources is achieved.

Claims (1)

Invention Formula A vertical heat exchanger containing heat exchange NYR located in the housing, such as pipe-in-pipe elements, the inner ones are longer than the outer ones and fixed in the tube plates re-flow and collector chambers, and the outer ones in other tube plates that form with the first collectors communicated with annular channels of heat exchange elements, and the collector chamber is equipped with A ticial axial partition dividing it into the inlet and outlet cavities, characterized in that the aim of increasing efficiency by organizing multi-way movement of the working medium in the annular space is also installed vertical partitions with windows for the flow of the medium, one of which is placed similarly to the partition in the collector chamber, and others perpendicular to it at the same distance from the axis of the heat exchanger, while the input cavity of the collector chamber is connected to the annular space by two bypass pipelines located on opposite sides of the hull. Vkonden- That U FIG. I A-l 20 eight