SU561073A1 - Regenerative-recuperative heat exchanger - Google Patents

Description

one

The invention relates to heat exchangers used in heat engineering and in B cryogenic technology, in particular in helium, refrigerator and liquefaction plants.

Regenerative-recuperative heat exchangers are known, containing a package connected to the collectors in the form of alternating and rigidly connected nets of high thermal conductivity metal, and spacers of low thermal conductivity material with openings for the passage of media.

The disadvantages of the known heat exchangers are high flow resistance resulting from an aerodynamically unfavorable flow profile, which is a system of curved, interlaced cylinders in the transverse flow, as well as low thermal characteristics.

The purpose of the invention is to eliminate these disadvantages.

This is achieved by the fact that the grids are made of sheet and their holes are formed by bridges turned at an angle (L to the plane of the grid, 60-90, and each grid is rotated relative to an angle of fb t not exceeding 90 °.

FIG. Figure 1 shows a heat exchanger mesh, with shaped holes formed by bridges; in FIG. 2, A, FIG. one; in fig. 3 is a section BB of FIG. 2; in fig. 4 - the second possible variant of the heat exchanger mesh; in fig. the view of FIG. four; in fig. 6 is a cross-section of the FIG. five; in fig. 7 — pack of meshes alternating with spacers; in fig. 8 the same, with slit-shaped channels, plan view; in fig. 9 — pack of meshes alternating with spacers; Fig.10to the same, With the channels of a square shape, a view in plan; in fig. 11 is a packet of meshes alternating with spacers; Fig.12to same, with round-shaped channels (annular), view in plan; in fig. 13 Bilateral arrangement of grids in a packet at ft О °; in fig. 14 shows the relative position of the grids in the packet with / E "90 (according to the second embodiment).

Claims (3)

The heat exchanger contains grids 1 with shaped holes, connected by bridges 2, having a given width L and height И, spacers 3, having a different geometric shape and forming channels 4 and 5 for working media. The heat transfer in the proposed heat exchanger is carried out as follows. The heat exchange medium and the passage through 4 packages and the flow around the wall transfer heat to them (convective heat transfer). The heat produced by the nets due to their thermal conductivity is transferred to the channels 5, through which it passes and heats when flowing around the nets. The proposed design of the regenerative regenerative heat recovery heat exchanger allows, with the same overall dimensions as the known ones, to reduce the cold loss from regeneration, as well as to have less weight, and the SI can also be several times smaller than the volume. Claim 1. Regenerative-recuperative heat exchanger containing a package in the form of a series of alternating and rigidly soy-inne nets of high thermal conductivity metal and spacers of low thermal conductivity, characterized in that, to intensify the heat exchange process, the nets are made of sheet and their holes are formed by bridges that are rotated at an angle from the plane of the grid. 2. A heat exchanger according to claim 1, characterized in that the angle ω is 60-90 °. 3. A heat exchanger popp. 1, 2, characterized in that each grid is rotated relative to the adjacent angle fi not exceeding 90 Fig t Fig s bv Py.3 9 111 Fie to l Y ; rxr: “: FIG. ff r / tefHtu yg ctfHKti ft 9 flfO fui. /four