SU985649A2 - Method of heat treating of high-termolabile solutions and pastes - Google Patents

Description

The invention relates to a technique for drying highly thermolabile solutions and pastes of predominantly microbiological origin and may find application in microbiological, medical and other industries.

According to the main author. St. No. 514174, a method is known for heat treating solutions and pastes of predominantly microbiological ^and logical origin by drying them in contact with a capillary-pore sorbent and regenerating the latter, whereby a long body, for example, a tow, is used as a sorbent, and drying is carried out simultaneously with regeneration, which is carried out by placing one end lengthy body in a fluidized bed of an inert dispersed material With 1].

The disadvantages of this method are the low intensity of the process and high energy costs due to the fact that the coolant is supplied only to the outer surface of the long body and the processed coolant with a low moisture content is not used.

The purpose of the invention is the intensification of the process and the reduction of energy consumption, the goal is achieved so that the long body is hollow, and the heat carrier, after fluidizing it with a layer of inert dispersed material, is sent through the latter to the drying zone during regeneration of the long body.

In FIG. 1 shows a setup for implementing the proposed method; in FIG. 2 - section aa nafig. 1.

The installation comprises a drying chamber 1 with wet heat-sensitive material, a regeneration chamber 2 with a fluidized bed of dispersed material placed above the gas distribution grid 3, and a sorbent in the form of hollow capillary-porous bodies 4 mounted on metal heat-conducting tubes 5 having perforations in the drying chamber 1 Section 6, inlet pipes 7 and coolant outlet from the regeneration chamber 2, a pipe 9 connecting the exhaust pipe 8 outlet pipe with a collector 10, distributing 30 pipes. 5.

To intensify the regeneration process of the capillary-porous body 4, a visor 11 is placed above it in the regeneration chamber 2. Capillary-poris? These bodies 4 can be staggered.

Installation for implementing the method of heat treatment of highly thermolabile solutions and .past works as follows.

The drying chamber 1 is filled} with wet material intended for drying. As a long, hollow body (sorbent), tissue or other capillary-porous material can be used. Part of the capillary-porous body is located in chamber 2, where a layer of dispersed material, for example, metal balls, is fluidized by the hot heat carrier supplied under the gas distribution grid 3 through the pipe 7.

In the drying chamber 1 capill, the laparous body 4 collects moisture from the material to be dried, which moves along its capillaries into the regeneration zone. During fluidization of an inert dispersed material, moisture from the sorbent intensively evaporates.

The spent heat carrier from the regeneration chamber 2 is sent to the internal cavities of the tubes 5. As a result of their heating, the heat is supplied to the sorbent and the moisture transfer is accelerated by increasing the difference in temperature and pressure created in the sorbent. In the inner layers of capillary-porous bodies, moisture is heated by transferring heat from the heated tubes 5 and in the form of steam through the perforation 6 is removed from the drying zone.

The application of the proposed method intensifies the dehydration process and provides low specific energy consumption.

Claims (1)

The invention relates to a technique for drying highly thermolabile solutions and pastes predominantly of microbial origin and may be used in microbiological, medical and other industrial sectors. According to the main author. St. 514174 known method of heat treatment of plant. thieves and pastes are predominantly microbial in origin by drying them upon contact with the capillary porous sorbent and regeneration of the latter; a layer of inert particulate material C1. The disadvantages of this method are low intensity of the process and high energy consumption due to the fact that the coolant is supplied only to the outer surface of a long body and the heat treated media with low moisture content is not used. The purpose of the invention is to intensify the process and reduce energy consumption. This goal is achieved by the fact that a long body is made hollow, and the heat carrier after fluidizing it with a layer of inert dispersed material during the regeneration of a long body is directed through the cavity of the latter to the drying zone. FIG. 1 isobrigene plant for carrying out the proposed method; in fig. 2 is a section A-A in FIG. 1. The installation contains a drying chamber 1 with a moist heat sensitive material, a fluidized bed regeneration chamber 2 dispersed material placed 1 ngsch gas distribution grid 3, and a sorbent in the form of hollow capillary-porous bodies 4 mounted on metal heat conductor 1X tubes 5 having in the drying chamber 1, the perforations 6, the inlet pipes 7 and the outlet 8 of the coolant from the chamber 2 of the regeneration and the pipeline 9, connecting the stubs 8 to the outlet of the spent coolant with the collector 10, expand the heat carrier pipe s 5. Process for the intensification of Rege neratsii wick, porous body 4 above it in the regeneration chamber 2 placed koeyrek 11. wick-paint with Tide body 4 can be placed, staggered. The installation for implementing the method of heat treatment of high-thermolable solutions and pastes works as follows. The drying KciMepy 1 is filled with wet material to be dried. A cloth or other capillary-porous material can be used as a lengthy hollow body (sorbent). A part of the capillary-porous body is located in chambers 2, where a layer of dispersed material, for example metal balls, is fluidized by a hot heat carrier supplied under the gas distribution grid 3 through pipe 7. In the drying chamber 1, a capillary porous body 4 takes moisture from the dried material, which moves along its capillaries to the regeneration zone. When fluidizing an inert disperse material, the moisture from the sorbent is intensely evaporated. The spent coolant from the regeneration chamber 2 is directed into the internal cavities of the tubes 5. As a result of their heating, heat is supplied to the sorbent and moisture transfer is accelerated by increasing the temperature difference and pressure generated in the sorbent. In the inner layers of the capillary-porous bodies, the moisture is heated by transferring heat from the heating 1X tubes 5 and in the form of steam through the perforations 6 is removed from the drying zone. The application of the proposed method intensifies the process of dehydration and provides low specific energy consumption. The invention The method of heat treatment of high-thermolable solutions and pastes mainly microbiological origin by the author. St. No. 514174, differing from the fact that, in order to intensify the process and reduce it; energy, the long body is made hollow, and the fluid after fluidizing it inert dispersed material in the process of long-length regeneration, is directed through the cavity of the latter to the drying zone. Sources of information taken into account in the examination of ii. USSR author's certificate 514174, cl. F 26 B 5/16, 1974.