RU2178130C2 - Drying plant - Google Patents

Abstract

FIELD: drying loose materials; biological, chemical, food-processing industries and farming. SUBSTANCE: drying plant has revolving drying drum in form of at least one screen whose meshes increase in way motion of heat-transfer agent but do not exceed size of particles of high-moisture loose material; flow section of pipe used for discharge of heat- transfer agent is adjusted by means of damper; provision is made for condensate drain hole found in lower portion of casing; drum is enclosed in casing provided with at least one hole connected with heat-transfer agent discharge pipe. EFFECT: enhanced efficiency in drying easily deformable loose materials; reduced losses of heat-transfer agent. 2 cl, 3 dwg

Description

 The invention relates to installations for drying bulk materials and may find application in the biological, chemical, food industry and agriculture.

 A device for drying, containing a loading and unloading device, a device for supplying and discharging a coolant is known - a perforated collector forming an annular chamber (see A. S. USSR 1205281, F 26 B 9/06 from 05/27/85, publ. BI 3 from 01/23/87).

 The disadvantage of this device is the inability to dry biological material, since the movement of the dried material is carried out, for example, using the elevator, which can lead to damage to the biological material, in addition, the heat carrier is inefficiently consumed.

 Known drying installation containing a rotating drum, made at least in the form of one mesh, enclosed in a casing and equipped with loading and unloading devices and devices for supplying and discharging coolant, moreover, the casing is made with at least several openings connected by pipes heat transfer fluid (see A.S. USSR 328309, F 26 B 11/04 dated 06/25/70, publ. BI 6, 02.11.72 - prototype).

 The disadvantage of this drying installation is the difficulty of drying biological and other bulk materials with high humidity, as well as the large loss of coolant, since there is a very short contact time of the coolant with the dried material.

 The objective of the invention is to provide conditions for drying easily damaged bulk materials, for example, biological, as well as reducing unproductive losses of coolant. The task is carried out by a drying unit containing a rotating mesh drum enclosed in a casing and equipped with loading and unloading devices and devices for supplying and discharging the heat carrier, the casing being made with at least one opening connected to the pipe for removing the heat carrier, according to the invention, a drum made, at least, in the form of one grid, the cross section of the holes of which increases in the direction of movement of the coolant, but does not exceed the particle size, for example, biological or other of bulk high moisture material to be dried, and the passage section of the pipe for discharging the coolant is regulated by a shutter, wherein the bottom of the casing has an opening for draining condensate.

 A comparative analysis of the proposed solution with the prototype allows you to highlight the features that distinguish the proposed drying installation from the prototype, which meets the criterion of "novelty."

 The analysis of technical solutions did not reveal among them solutions that match the distinguishing features of the proposed drying plant, which meets the criterion of "inventive step".

 This dryer is illustrated by drawings, where in FIG. 1 shows a general installation diagram; in FIG. 2 - mesh drum; in FIG. 3 - shutter.

 The drying installation consists of a loading and unloading device 1, a device for supplying a coolant, for example a heater 2, a device for removing the coolant 3, a drum 4, a mesh 5, a casing 6, holes for removing the coolant 7, pipes for removing the coolant 8, shutters 9, openings to drain condensate 10.

 A drying unit operates as follows.

 Bulk material is poured into the loading device 1, the drum drive (not shown) is turned on, the device for supplying the coolant 2 (for example, an air heater) is supplied with dry hot coolant, when the drum rotates with 4 blades (not shown), the material is poured through which the hot coolant passes . The coolant is saturated with moisture and a device for removing the coolant (for example, a fan) 3 through the mesh 5, openings for the removal of coolant 7 in the casing 6, the pipe 8 is carried outside the dryer. Flaps 9 regulate the intensity of the suction of moist air. The number of openings for the removal of coolant 7 in the casing 6, and, accordingly, of the shutters 9, is performed based on the requirements for the material to be dried and the quality of drying (taking into account the quality composition, initial and final humidity).

 At the beginning of the supply of dry hot coolant in order to preserve heat, the first shutter 9 in the direction of the coolant is maximally covered, as the coolant moves, its moisture saturation increases, so the next shutter 9 opens more than the first, the last shutter 9 is maximally open, since the coolant is saturated with maximum moisture. Thus, uniform drying of bulk material is carried out with minimal loss of coolant. Even greater smoothness and "softness" of drying is achieved by using a mesh drum from a mesh 5 with a variable cross-section (Fig. 2).

 In this case, the cross section of the mesh openings increases in the direction of the coolant motion, but should not be larger than the particle size of the dried material.

 To preserve the heat removed through the mesh 5 of the drum 4, a casing 6 is made, in addition, part of the moisture that is drained through the opening 10 condenses on the casing 6. When the specified moisture content of the bulk material is reached, the coolant flow and the rotation of the drum are stopped and the dried material is unloaded from the discharge holes 1. Next, the cycle repeats.

Claims (1)

 A drying apparatus comprising a rotary mesh drum enclosed in a casing and provided with loading and unloading devices and devices for supplying and discharging a heat carrier, the casing being made with at least one opening connected to a pipe for removing the heat carrier, characterized in that the drum is made at least in the form of a single grid, the cross section of the openings of which increases in the direction of movement of the coolant, but does not exceed the particle size, for example, biological or other loose high-humidity Shiva material and the passage section of the pipe for discharging the coolant is regulated by a shutter, wherein the bottom of the casing has an opening for draining condensate.

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