SU879240A1 - Plate-type heat exchanger - Google Patents

Description

The invention relates to plate heat exchangers and can be used for heat treatment of viscous microbiological environments.

Known plate heat exchangers, 5 containing a package of pairwise fastened along the perimeter of rectangular flat plates and placed between adjacent pairs of spacer sleeves [1].

However, the known heat exchangers have a small distance between adjacent pairs of plates, which makes it impossible to use them for heat treatment of viscous microbiological media.

The purpose of the invention is the use of a heat exchanger for heat treatment of viscous microbiological media.

The goal is achieved by the fact that spacing grids are additionally installed between adjacent pairs of plates, consisting of longitudinal and transverse elements, the longitudinal elements being in contact with adjacent plates of adjacent pairs, and the transverse elements with a gap relative to them. 25

In FIG. 1 shows a proposed exchanger, a longitudinal section; in FIG. 2 - the same from above; in FIG. 3 - section A — A in FIG. 1; in FIG. 4 — node I of FIG. 1. zo

The heat exchanger contains a package of rectangular plates 1 pairwise fastened around the perimeter and placed between adjacent pairs of spacer sleeves 2. Between adjacent pairs of plates 1, spacer grids are additionally installed, consisting of longitudinal and transverse elements 3 and 4, and the longitudinal elements 3 are installed in contact with adjacent plates 1 adjacent pairs, and transverse 4 - with a gap relative to them. The package of plates 1 is pulled between the end plates 5 and 6 with the help of bolts 7, which pass through the holes in the plates 1, bushings 2 and gaskets 8.

The plates 1 of the package can be made corrugated, and the elements 3 and 4 of the spacer grids can be perforated or also corrugated. For the supply and removal of the working medium, the heat exchanger is equipped with pipes 9 and 10.

The heat exchanger operates as follows.

One of the working media through the pipe 9 enters the cavity formed by the pairs of plates 1, exchanges heat with a viscous microbiological medium washing the plates 1 from the outside, and through the pipe 10 is removed from the heat exchanger. The pressure developed by this medium through the walls of plates I is perceived by the longitudinal elements 3 of the spacer grids, so that the plates 1 do not bulge and retain their shape. In addition, the increased gaps between adjacent pairs of plates 1 allow a viscous microbiological medium to freely circulate between them, flowing around the elements 2 in the longitudinal direction, and the element 3 in the transverse direction, which further intensifies heat transfer.

spaced between adjacent pairs of spacer sleeves, characterized in that, in order to use a heat exchanger for heat treatment of viscous micro5 biological media, spacing grids are additionally installed between adjacent pairs of plates, consisting of longitudinal and transverse elements, with longitudinal elements 10 in contact with adjacent plates adjacent pairs, and transverse - with a gap relative to them.

Claims (1)

Claim A plate heat exchanger comprising a bag of rectangular flat plates that are paired around the perimeter and