SU836502A1 - Helical heat exchanger - Google Patents

Description

(54) SPIRAL HEAT EXCHANGER

I

This invention relates to shell-and-tube heat exchangers and can be used in the chemical industry. power engineering, and in air conditioning systems.

The closest in terms of design and functionality to the described heat exchanger is a spiral heat exchanger containing a casing with spiral tubular sections placed inside it and a pipe installed along its axis divided by a partition into compartments connected to the inlet and outlet sections of sections equipped with Ci adapters The arrangement in such a construction of the junctions of the spirals of the first or last section with the collectors on only one of the halves of the cross section of the pipe has limited It is possible to increase the flow area for flow of heat transfer fluid flowing within the pipe at a given value teploperedayushey surface. In addition, the design of the heat exchanger does not allow the creation of more than two flow paths, the heat transfer fluid flowing in the pipes.

The purpose of the invention is to unify the design of the heat exchanger and facilitate installation and dismantling.

This is achieved by the fact that the partition is installed perpendicular to the axis of the pipe, and the adapters are located inside the casing.

FIG. I depicts the described heat sink, a longitudinal section; in fig. 2 - section A-A of FIG. I.

The heat and cover contains a casing I with spiral-shaped sections 2, 3, 4, .5 of single-running or multiple-running tubular spirals 6 that are worn inside the inside; , 15, 16. The connection points of the sheets to the compartments are evenly placed on the tube 7, both in its cross-section and along its height (length), and both with the corridor and the staggered arrangement of the connecting points on the pipe wall can always be achieved normal position of the spirals ploobmennika. The heat exchanger operates as follows. The heat carrier flowing inside the pipes is supplied through compartment 8 to section 2, then through adapter 13 enters section 3, from where it goes to compartment 9. Then the coolant flows through section 4, next adapter 14, section 5, and through heat exchanger . The second coolant moves parallel to the axis of the heat exchanger in the annular interdigit space bounded by the walls of the casing I and the tube-7. The described heat exchanger is universal, since it is possible to vary both the number of tubular spiral sections and the number of spiral entries over wide limits, and flow areas for the heat transfer fluid flowing inside the pipes, to ensure the intensity of heat transfer due to the possibility of choosing 8

Fug. / 2 4 the optimal number of flow of the coolant with the maximum compactness of the heat exchanger, and with a lightweight installation and dismantling process, since the adapters are placed inside the casing. Formula of the invention The spiral heat exchanger, comprising a casing with spiral tubular sections placed inside it and a pipe installed along its axis divided by a partition into compartments connected to the inlet and outlet sections of sections equipped with adapters, characterized in that in order to unify and facilitate installation and demo work, the partition is installed perpendicular to the pipe axis, and the adapters are located inside the casing. Sources of information taken into account during the examination I. Author's certificate of SS SR No. 557251,) 7 / O4, 1974.

A- A

- Xf

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FIG. 2

Claims (1)

Claim A spiral heat exchanger containing a casing with spiral tubular sections located inside it and a pipe installed along its axis, divided by a partition into compartments connected to the inlet and outlet sections of the sections equipped with transitions. kami, with the fact that, in order to unify and facilitate installation and dismantling, the partition is installed perpendicular to the axis of the pipe, and the adapters are located inside the casing.