RU2719242C1 - Heat exchanger - Google Patents

Abstract

FIELD: heat exchange equipment.

SUBSTANCE: invention can be used to create heat exchangers. Heat exchanging device housing consists of inlet, central and outlet parts. Central part is made in the form of a hollow cylinder with two bottoms, and inlet and outlet parts are made of several hollow cylindrical shells with one bottom, which are attached to each other. Number of shells of inlet part corresponds to number of shells of outlet part installed in series on both sides of central part of housing so that they form monotonously alternating input cavities of first and second components and monotonously alternating output cavities of first and second components. Heat exchange element is made in the form of several coaxially installed pipes of different diameter and different length. Inlet and outlet parts of first external pipe of heat exchange element are installed in bottoms of central part of housing. Each next tube of heat exchange element is installed in bottoms of inlet and corresponding outlet parts inside previous tube with formation of annular radial gaps between walls of pipes, connected to first or second components cavity. Height of annular cavities uniformly decreases from periphery to center, at that cavities of annular radial gaps of the first and second components are monotonously alternating.

EFFECT: technical result is improvement of technical characteristics and expansion of functional capabilities of heat exchanger.

1 cl, 3 dwg

Description

The invention relates to heat transfer technology and can be used to create heat exchangers.

Known heat exchanger containing a housing consisting of an outer and inner wall mounted coaxially with an annular gap and forming a cavity for the working fluid, inlet and outlet manifolds with nozzles, heat exchange elements made in the form of two-layer cylindrical shells connected to each other and the housing using pylons installed at the ends of the heat-exchange elements, while in the pylons channels are made for the supply and removal of the working fluid (RF patent No. 2569990, Application No.: 2014149786/06 dated 12/09/2014, IPC: F28D 7/10 - protot n).

The specified heat exchanger operates as follows. Heat carrier is supplied to the internal cavity of the heat exchanger. The coolant is evenly distributed in the cavity of the heat exchanger and moves in the annular gaps located between the heat exchange elements and the inner wall of the housing. The working fluid through the inlet pipe enters the inlet manifold and then into the annular gap located between the outer wall and the inner wall of the housing. In the annular gap, the working fluid is divided into two streams. The first flow of the working fluid passes in an annular gap between the outer wall and the inner wall of the housing, heats up and is diverted to the outlet manifold. The second flow of the working fluid flows through the pylons into the annular gaps located between the walls of the heat exchange elements. Passing through the annular gaps, the working fluid is heated, after which the flow through the pylons enters the outlet manifold. In the discharge manifold, two flows of the working fluid are mixed together. The working fluid exits the outlet manifold through the outlet pipe.

The main disadvantages are the complexity of the design, significant overall dimensions due to significant structural gaps between the ring heat exchange elements, uneven heating of the shells caused by the sequence of passage of the coolant from the peripheral shell to the central one, which ultimately reduces the efficiency of the heat exchanger.

The objective of the invention is to remedy these disadvantages, improve technical characteristics and expand the functionality of the heat exchanger.

The solution to this problem is achieved by the fact that in the proposed heat exchanger apparatus containing a cylindrical housing with inlet and outlet nozzles of the input and output of the first and second components located on the housing, heat exchange elements installed inside the housing in a certain order, the cavities of which are connected with the corresponding supply cavities and the removal of components, according to the invention, the housing of the heat exchanger is made up of inlet, central and output parts, while the central part is made in the form of a hollow cylinder with two bottoms, and the input and output parts are made of several hollow cylindrical shells with one bottom fastened together, and the number of shells of the input part corresponds to the number of shells of the output part, mounted in series on both sides of the central part of the body so that they form monotonously alternating input cavities of the first and second components, and monotonously alternating output cavities of the first and second components, while the heat exchange element is made in in the form of several coaxially installed pipes of different diameters and different lengths, with pipes of larger diameter and shorter length forming the peripheral part of the heat exchange element, and pipes of smaller diameter and longer length forming its central part, while the inlet and outlet part of the first outer pipe of the heat exchange element is installed in the bottoms the central part of the body, and each subsequent pipe of the heat-exchange element is installed in the bottoms of the inlet and the corresponding outlet parts inside the previous pipe with the formation m of annular radial gaps between the walls of the pipes connected to the cavity of the first or second components, the height of the annular cavities uniformly decreasing from the periphery to the center, while the cavities of the annular radial gaps of the first and second components are monotonously alternating with each other, while the input and output manifolds of the components are installed with eccentricity.

The invention is illustrated by drawings, where in FIG. 1 shows a general view of a heat exchanger, a longitudinal section, in FIG. 2 - enlarged scale inlet of the heat exchanger; FIG. 3 - the output of the heat exchanger on an enlarged scale.

The heat exchanger comprises a cylindrical body 1 with inlet 2, 3 and output 4, 5 inlet and outlet pipes of the first and second components located on the housing 1. The body of the heat exchanger is made up of inlet, central and outlet parts. In the input and output parts of the housing 1 are installed input 6 and output 7 nozzles. The central part is made in the form of a hollow cylinder 8 with two bottoms, and the input 9 and output 10 parts are made of several hollow cylindrical shells 11 with one bottom, fastened together. The number of shells 11 of the input part corresponds to the number of shells 11 of the output part installed sequentially on both sides of the central part of the housing 8 so that they form monotonously alternating input cavities of the first and second components, and monotonously alternating output cavities of the first and second components.

The heat exchange element 12 is installed inside the housing and its cavities are connected with the respective cavities for supplying and removing components. The heat exchange element 12 is made in the form of several coaxially mounted pipes of different diameters and different lengths. Pipes 13 of larger diameter and shorter length form the peripheral part of the heat exchange element, and pipes 14 of smaller diameter and larger length form its central part. The inlet and outlet of the first outer pipe are installed in the bottoms of the central part of the housing. Each subsequent pipe of the heat-exchange element is installed in the bottoms of the inlet and corresponding output parts inside the previous pipe with the formation of radial radial gaps 15 or 16 between the walls of the pipes connected to the cavity of the first or second components. The cavities of the annular radial gaps 15 of the first and 16 second components monotonously alternate with each other.

The proposed heat exchanger operates as follows.

The first component is fed into the inlet pipe 6 and to the inlet pipes 3, evenly alternating with the inlet pipes 2 of the second component and enters through the Central cavity of the heat exchange element 12 and alternating annular gaps 15 to the output part, in particular, to the pipes 5 and 7.

The second component is fed into the nozzles 2, evenly alternating with the supply nozzles of the first component 3, enters the annular cavities 16 and is supplied to the outlet nozzles 4. Thus, a continuous jet of the first component — a hollow jet of the second component — a hollow jet of the first component — is hollow jet of the second component, etc. by the number of hollow cylindrical shells 11.

Such an effect on the component flows and their transformation into hollow annular jets makes it possible to reduce the transverse characteristic size and increase the heat transfer area, which, ultimately, will improve the overall efficiency of the heat exchanger ..

The feed direction of the first and second components can be both incidental when feeding them in one direction, or opposite, when feeding towards each other.

Changing the height of the annular cavities from the periphery to the center will ensure the required uniform distribution of the components.

The installation of input and output manifolds of components with an eccentricity will ensure the required uniform distribution of components.

Using the proposed technical solution will improve the technical characteristics and expand the functionality of the heat exchanger.

Claims (1)

A heat exchanger comprising a cylindrical housing with inlet and outlet nozzles of the input and output of the first and second components located on the housing, heat exchange elements installed inside the housing in a specific order, the cavities of which are associated with the respective cavities of the input and output components, characterized in that the heat exchange housing the apparatus is made up of the input, central and output parts, while the central part is made in the form of a hollow cylinder with two bottoms, and the input and output hours These are made of several hollow cylindrical shells with one bottom, fastened together, and the number of shells of the input part corresponds to the number of shells of the output part installed sequentially on both sides of the central part of the housing so that they form monotonously alternating input cavities of the first and second components and monotonously alternating output cavities of the first and second components, while the heat exchange element is made in the form of several coaxially installed pipes of different diameters and of different lengths, with pipes of a larger diameter and a shorter length form the peripheral part of the heat exchange element, and pipes of a smaller diameter and a larger length form its central part, while the inlet and outlet parts of the first outer pipe of the heat exchange element are installed in the bottoms of the central part of the body, and each the subsequent pipe of the heat exchange element is installed in the bottoms of the inlet and the corresponding outlet parts inside the previous pipe with the formation of annular radial gaps between the walls of the pipes connected with the cavity of the first or second components, the height of the annular cavities uniformly decreasing from the periphery to the center, while the cavities of the annular radial gaps of the first and second components are monotonously alternating with each other, while the input and output manifolds of the components are eccentric.

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