SU1672190A1 - Shell-and-tube heat exchanger - Google Patents

Abstract

The invention relates to heat engineering and can be used, in particular, in the cooling devices of diesel locomotives. Intensification of heat exchange by providing a transverse flow around the tube bundle is achieved by performing transverse partitions 4 dividing the annular space into compartments 5 and overlapping the flow area of the casing 1, and installing the plugs 6 in the cylindrical bypass manifold 3 at an angle to its axis. At the same time, the opposite sides of the plugs 6 are in contact with the inner surface of the collector 3 in the zones adjacent to it of the partitions 4. When the heat exchanger is working, the annular medium is fed through the nozzle 12 into the first compartment 5, transversely flows around the pipes 2 and through the radial holes 7 enters A plug 6 through the opening 7 into the next compartment 5. In this way, the whole annular space, the medium through the nozzle 13, is led out of the apparatus. The design provides only a transverse flow around the tube bundle, which intensifies the heat exchange, thereby increasing the efficiency of the power plant. 3 il.

Description

The invention relates to heat engineering and may be used; in particular, in cooling devices of diesel locomotives.

The purpose of the invention is to intensify heat exchange by providing a transverse flow past a tube bundle.

FIG. 1 schematically shows the proposed heat exchanger; in fig. 2 — node I in FIG. one; in fig. 3 - section aa in fig. 1.

The shell-and-tube heat exchanger contains a shell 1 with a bundle of tubes 2 dispersed in it, arranged in concentric rows around the central-sided bypass manifold 3 for the inter-tube medium installed along the cvn ear cup 1, and across them

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torus / 3. per21f1 | L MI i shed - ozhuha 1 and rchptsg-ltn mvzhtrubnpe space ate insulated compartments 5. Inside the collector 3, Cinderella 6 is installed at an angle to its axis. Cinderella 6 is in contact with the inner side of the collector 3 in areas with - mmkan to its outer surface of adjacent partitions 4. On the lateral surface of the collector 3 in the zone of each compartment 5 are radial holes 7. Heat and ampoules with collector chambers 8, 9 for pipe floor and pipes 10, And, respectively, for its input and output, as well as nozzles 12, 13 for input and withdrawal of the annular medium.

The heat exchanger operates as follows.

The cooling medium through the pipe 10 is fed into the pipe 2, exchanges heat with the annular medium and through the pipe 11 is removed from the apparatus

In the annular space of the first compartment 5, a coolant is fed through the nozzle 12, is washing the pipes 2 transversely and through the openings 7 enters the collector 3,

where the inclined plug 6 is guided through an opening 7 located above it into the intertemporal space of the second compartment 5, where the pipes 2 also cross laterally and

through the hole 7 under the plug 6, again into the manifold 3, and from there into the next compartment 5, the passage in the same way. all compartments 5 annular space. From the last compartment 5, the medium is output through

Pa cuttings 13.

The proposed design of the heat exchanger provides only the transverse flow around the tube bundle, which intensifies the heat exchange, reducing the

the cost of diesel power to the cooling device and increasing the economical power plant as a whole.

Claims (1)

Invention Formula A shell-and-tube heat exchanger containing a bundle of tubes arranged in concentric rows around a cylindrical bypass manifold for an annular medium installed along the axes of the casing, and transverse partitions adjacent to the collector, dividing the annular space into compartments, with part of the partitions covering the casing through passage, caps in the collector, and on its lateral surface in the area of each compartment there are radial openings, characterized in that the purpose of intensifying the process of heat exchange by providing a cross-flow around the tube bundle, the rest of the transverse partitions also made the flow section of the casing and the plug ovleny Manifold at an angle to its axis, in contact with opposite sides with its inner surface in the areas adjacent the adjacent partitions.  J / b Fi.Z