SU1332134A1 - Heat exchanger - Google Patents

Description

one

The invention relates to heat exchangers and can be used in chemical industry when heating liquid corrosive media in pressurized volumes without direct influence of the heat transfer medium on the medium,

The aim of the invention is to intensify heat exchange and increase operational reliability during heat treatment of biological objects in corrosive environments.

FIG. 1 shows a heat exchanger general view; in fig. 2 shows section A-A in FIG. one; in fig. 3 shows a section BB in FIG. one; in fig. 4 - heat exchanger, axonometrics.

The heat exchanger includes a housing 1 with nozzles of the inlet 2 and outlet 3 of the heat carrier and a chamber A concentrically located inside the housing with an inlet 5 and an outlet 6 nozzles (not indicated), provided outside with longitudinal ribs 7-14 made for example of copper and contacting with the wall Corps 1. Adjacent ribs, except rib 7, have a gap with opposite end walls of housing 1 with the formation of a zigzag channel. The gaps are made with variable bore, increasing along the coolant. The housing 1 is internally provided with a layer of thermal insulation 15. Chamber 4 is made in the form of a thin-walled cylinder with a conical bottom 16 made of stainless steel. In the chamber 4 inserted mesh container 17 C. biological objects, which is tight to the bottom 16 and fixed by a ring 18 located on the inner surface of the chamber. Upper part of chamber 4 through cap nut 19 soy

five

one

five

0

five

0

342

dinene with metering valve 20, in the lower part with a cap nut 21 with a drain valve 22. The heat exchanger operates as follows

way i

Container 4 is placed in chamber 4 with a bioobject, which is fixed and centered using ring 18. Then aggressive media, Hanpi wep tetrameter osmi, is fed into chamber 4 through the metering valve 20 and filled to a predetermined level by such processing. so that the upper part of the container 17 is immersed in an aggressive environment of .3 - 5 mm. After that, coolant, for example hot air, with a given temperature, is supplied to the housing 1 through the inlet 2 of the inlet. The coolant moves along a zigzag channel formed by the housing wall and ribs 7-14, alternately bathes each edge from both sides and heats the heat exchanger chamber surface 4. In this case, intense thermal diffusion of the corrosive environment is provided, which allows for heat treatment of biological objects to a predetermined temperature. After that, the flow of heat carrier and the heat treatment process is stopped and the medium is discharged through the drain valve 22. P: The conical bottom 16 of the chamber 4 ensures complete discharge of the corrosive medium.

S

The proposed design makes it possible to intensify heat exchange between the media, eliminates the possibility of contact between the heat transfer fluid and the corrosive medium, and increases the operational reliability during heat treatment of biological objects in corrosive media.

Yes

th / yy

18

Fi8,3

Fi.14

Claims (3)

1. HEAT EXCHANGER, comprising a housing with coolant inlet and outlet nozzles and a chamber concentrically placed inside the housing with inlet and outlet nozzles, provided with longitudinal ribs on the outside contacting the housing wall, characterized in that, in order to intensify heat transfer and increase operational reliability during heat treatment biological objects in aggressive environments, a mesh container with biological objects is installed in the chamber, and adjacent ribs, except for one, have a gap with opposite end walls the housing with the formation of a zigzag channel for the coolant, and the gap is made with a variable flow area, increasing along the coolant, and the inside of the housing is provided with a layer of thermal insulation. 2. The heat exchanger according to claim 1, characterized in that the fins are made of plastic from a heat-conducting material. 3. The heat exchanger according to claim 1, wherein the chamber is made in the form of a thin-walled cylinder with a conical bottom, mainly made of stainless steel. gg> S U ap_1332134 A1.