DE2841482A1 - RING GAP HEAT TRANSFER WITH TWO OR MORE CONCENTRICALLY ARRANGED PIPES - Google Patents

Description

Annular gap heat exchanger with two or more tubes arranged concentrically one inside the other

Field of application of the invention

The invention relates to an annular gap heat exchanger two or more concentrically arranged thin-walled tubes for the flow of heat exchangers liquid, viscous and pasty media. 10

Characteristics of the known technical solutions

Annular gap heat exchangers with two or more tubes arranged concentrically in one another are known where the pipes involved in the heat transfer are smooth · These annular gap heat transfer devices are used Due to its high compressive strength, it is preferably used for heat transfer tasks where a high Operating pressure is required.

Due to the smooth design of the tubes, however, only one relative to other known heat exchangers low heat transfer efficiency achieved.

Object of the invention
25th

The aim of the invention is to overcome the disadvantages of the known Exclude the state of the art and through a simple and cheap device to achieve an increase in the heat transfer performance

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28-4 ΊΑ82

Η ·

Explain the essence of the invention

The essence of the invention consists in the effective design the heat transfer pipes involved in the new heat transfer and thus a significant increase in the heat transfer capacityj combined with a decrease in the specific material consumption per heat output unit.

According to the invention this is achieved in that the concentrically arranged tubes have annular or spiral corrugations. Pipes can be included Ringfoermigen .Wellungen be assigned to one another or They can be combined with smooth-walled tubes * Furthermore, tubes with spiral-shaped corrugations can be arranged one below the other assigned or combined with smooth-walled or ring-shaped tubes

The corrugations arranged in a ring or spiral shape in the concentrically arranged tubes are designed in such a way that the distance between the tubes is equal to or greater than the height of the corrugations outer pipe, which creates longitudinal ring-shaped or spiral-shaped channels

Depending on the end to be realized. Heat transfer task is it is also possible to use smooth tubes combined with tubes with ring-shaped or spiral-shaped corrugations, however, at least one tube of the annular gap heat exchanger has annular or spiral corrugations must · The spiral-shaped transverse to the flow direction · the corrugations of the heat transfer pipes are as single or multi-turn spirals formed, these with the on the heat transfer involved pipes in the same and / or run in opposite directions · the pipes with fluorine to flow direction single or multi-course spiral-shaped opposing corrugations designed so that the distance between

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the concentrically arranged tubes is equal to the height of the corrugations, there is a mutual punctiform support of the corrugations and thus at the same time a brightening of the rigidity of the annular gap waerneuebertragers.

By, the inventive training of the heat transfer involved in one another concentrically arranged tubes is achieved that at relatively low Flow velocities in the ring-shaped flow channel and low pressure losses, high heat transfer values achieved v / earth related to a heat transfer task As a result, compared to annular gap heat exchangers with smooth pipes, a lower Cost of materials to fulfill the same heat transfer tasks necessary is.

Execution example

In the following, the invention will be based on an exemplary embodiment be explained «It shows

Pig · 1 concentrically arranged one inside the other

Tubes with ring-shaped or spiral-shaped arranged corrugations 25

Pig · 2 - Pig. 5 arrangements of concentric within each other

arranged tubes that are both smooth and ring-shaped or spiral-shaped Corrugations are formed. 30th

Pig. 6 concentrically arranged one inside the other

Tubes with a spiral shape running in opposite directions running corrugations, in which the corrugations of the superimposed Support pipes at points.

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284-482

The Ringspal twaermeueb bearer consists of Fig. 1 3 tubes arranged concentrically inside one another, all 3 tubes arranged in a ring or spiral shape Have corrugations «The distance between the pipes is greater than the wave height, so that long The direction of flow creates ring-shaped canals

In Pig · 2 to Pig. 5 are possible combinations shown by smooth-walled tubes with corrugated tubes. The corrugated tubes can be ring-shaped as well as spiral corrugations »

In Pig 6 an annular gap heat exchanger is shown, whose tubes have spiral corrugations. Because the spirals of the pipes run in opposite directions and the distance between the tubes is equal to the height of the corrugations, there is a point-wise abutment the corrugations of the tubes lying one above the other. The spiral-shaped corrugation can be designed with one or more threads.

When the medium flows through the annular flow channel of the annular gap heat exchanger are constant at relatively low flow velocities as a result Change of cross-section and direction of the annular gap and the resulting high turbulence high numbers and thus achieved high heat transfer rates These are in contrast to the previously known designs of the annular gap heat transfer device with smooth walls Pipes by several times ho rather

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Claims (8)

Pat ent ans pr ue marriage 1 · Annular gap heat exchanger with two or more nested ones concentrically arranged thin tubes for the flow of water exchanging water, viscous and pasty media, characterized »that these tubes have ring-shaped or spiral-shaped corrugations, whereby the assignment of tubes with annular partitions with each other and in combination with smooth-sided Pipes are made, or pipes with spiral V / elutions are assigned to one another or combined with smooth-walled tubes. 2. Annular gap heat transfer device according to item 1, characterized by concentrically arranged with transverse to the flow direction annular or spiral arranged corrugations, which are designed so that 'the distance (2) between the pipes (1) is greater than the Iioehe (3) of the Corrugations.
20th 3. Ringspaltv / aermeuebertrager according to item 1, characterized in that the running transversely to Stroemungsrichtung corrugations are formed as mono- or melirgaengige spirals and extend these spirals on all involved in the heat transfer * ¹ tubes (1) in the same / or the opposite direction. 4. Annular gap heat exchanger according to points 1, 2 and 3, characterized in that the tube (7) is smooth, and the tubes (5) and (6) with an annular shape arranged corrugation is provided, 5. Annular gap / aerine transmitter according to points 1, 2 and 3, characterized in that the tubes (5) and (7) are smooth are formed and the tube (6) is provided with an annular arranged corrugation. 909827/0607 6. Ring paltwaermeueb carrier according to points 1, 2 and 3, characterized in ₉ that the tubes (6) and (T) are smooth and the tube (5) is provided with an annular corrugation. 7. Annular gap heat transfer according to points 1, 2 and 3, characterized in that the tube (5) is smooth is and the tubes (6) and (7) with annular arranged corrugations are provided. 8. Annular gap heat exchanger according to point 1 and 3 »thereby indicates that the distance (2) between the concentrically arranged tubes (1) is equal to the The height (3) of the corrugations is and the opposing ones spiral-shaped corrugations formed in one or more passages support each other in a punctiform manner. 909827/0607