RU2174099C2 - Active carbon production complex - Google Patents

Abstract

FIELD: production of active carbon from charcoal. SUBSTANCE: complex has apparatus for grinding and sorting of, for example, partially carbonized charcoal, activating furnace, apparatus for producing activating agent and activation container equipped with closure and charging and discharge device mounted on closure. Charging and discharge device is made in the form of tube joined with gas discharge device formed as sleeve with opening and opening stopper, and activating agent supplying device formed as spiral joined to tube. Hollow disk or concentrically diverging hollow bars are arranged in lower part of tube. Spiral, tube and upper part of disk or bars are made perforated, with section of perforations increasing in activating agent flow direction. Section of perforations and number of perforations are calculated from mathematic formula. Complex of such construction allows activated carbon with increased activated adsorption to be produced. EFFECT: simplified construction and improved quality of active carbon. 3 dwg

Description

 The invention relates to the production of activated carbon, in particular to the production of activated charcoal, and can be used in the food, chemical industry and utilities.

 A known installation for the production of charcoal, containing furnace chambers with walls between them, which are installed removable containers for processed wood, furnaces, a system of flues. Each container is made in the form of a container, in the central part of which a perforated flame tube is vertically mounted (see Russian patent N 2027735, C 01 B 1/04, 15/02, 57/02 of 10.27.92, publ. 27.01.95).

 The disadvantage of this device is the inability to use containers for activation.

 A device is known that contains a container for activation, a device for the production of an activating agent (see Russian patent N 2046816, C 10 B 47/46 from 11.30.92, publ. 27.10.95 - prototype).

 This device has a complex system for preparing material for activation, as well as a complex activation system. In addition, on the known device it is impossible to obtain activated carbon with high adsorption activity according to "methylene blue".

 The objective of the invention is to simplify the device for activation and the creation of a complex of means for producing activated carbon with high adsorption activity according to "methylene blue".

The task is carried out by a set of means for producing activated, partially carbonized charcoal, including a device for grinding and sorting, an activation furnace, a device for producing an activating agent, an activation container, according to the invention, the activation container comprises a lid with a loading device located on it and discharge, made in the form of a pipe, combined with a device for the exit of gases, made in the form of a glass with a hole, and the hole closes an ear, a device for supplying an activating agent, made in the form of a hollow spiral mated to a pipe on which a hollow disk or concentrically diverging hollow rays is fixed at the bottom, in addition, the spiral, pipe and the upper part of the disk or rays are perforated, and the cross section and the number of holes is calculated by the formula
A • P = n (a ... a _n ) p,
where A is the bore of the inlet; P is the initial pressure of the activating agent; n is the number of outlet openings; a ... a _n - passage sections of the outlet openings; p is the residual pressure of the activating agent, in addition, the bore sections of the outlet openings increase in the direction of movement of the activating agent.

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

 The analysis of technical solutions did not reveal among them solutions that coincided with the distinguishing features of the proposed set of tools, which meets the criterion of "inventive step".

 This complex is illustrated by drawings, where in FIG. 1 shows a diagram of the complex; in FIG. 2 - container for activation; in FIG. 3 - perforated holes.

 A set of means for the production of charcoal activated carbon consists of a device for grinding and sorting, 1, an activation furnace 2, a device for the production of an activating agent 3, a container for activation 4, a cover 5, a device for loading and unloading 6, a pipe 7, a device for exhausting gases 8, made in the form of a glass with an opening 9, a plug 10, a device for supplying an activating agent 11, a cover 12, a hollow spiral 13, a hollow disk or hollow rays 14, perforations 15, thermocouples 16.

 The device operates as follows.

Partially carbonized charcoal is crushed and sorted to a fraction of 3-6 mm in a device for grinding and sorting 1, is loaded through a device for loading and unloading 6 into a container for activation 4, while the device for the exit of gases 8, consisting of a glass with a hole 9, closed by a plug 10. The activation container 4 is loaded into the activation furnace 2, the cover 12 is removed and the device for supplying the activating agent 11 is connected via, for example, hoses to the device for producing the activating agent 3. When reducing the temperature of the coal in the container 830 ^o C (determined by thermocouple 16), the plug 10 is removed and the hole 9 is opened. The associated gases leaving the activation container 4 are ignited with a torch and an activating agent is supplied, which enters through a hollow spiral 13, pipe 7 and a hollow disk ( concentrically diverging rays) 14, through perforations 15.

The total flow area of the perforation holes is determined by the formula A • P = n (a ... a _n ) • p,
where A is the bore of the inlet; P is the initial pressure of the activating agent; n is the number of outlet openings; a ... a _n - passage sections of the outlet openings; p is the residual pressure of the activating agent.

The initial section of the holes is set, for example 1 mm ² , after a certain distance in the direction of movement of the activating agent, for example every 100 mm, the section is increased by 0.1 mm ² . An increase in the cross section is necessary so that the volume of the outflow of the activating agent with a decrease in pressure as it moves is constant. The activating agent, passing through the perforation holes 15, penetrates the entire thickness of charcoal, conducting its activation. When the temperature of the activated carbon is reduced to 750 ^o C, the steam supply is stopped, the device for supplying the activating agent 11 is disconnected from the device for the production of the activating agent (steam generator) 3 and closed by a cover 12, the plug 10 is placed on the hole 9 of the glass-device for the exit of gases 8 to prevent intake of air (oxygen) into the container for activation 4.

 The carbonation and activation cycle is complete. If necessary, the cycle is repeated in the same sequence as many times as necessary to achieve a given adsorption activity. The container for activation 4 using, for example, electric hoist is removed from the furnace and left in the open air until it cools completely.

Claims (1)

A set of means for activating coal, including a device for grinding and sorting, an activation furnace, a device for producing an activating agent, an activation container, characterized in that the activation container contains a lid with a loading and unloading device located on it, made in the form of a pipe, combined with a device for the release of gases, made in the form of a glass with an opening, the opening being closed by a plug, and a device for supplying an activating agent made in the form of a hollow spiral, adjacent to a pipe on which a hollow disk or concentrically diverging hollow rays is fixed in the lower part, in addition, the spiral, pipe and upper part of the disk or rays are perforated, while the cross-section and the number of holes are calculated by the formula
A • P = n (a ... a _n ) • p,
where A is the bore of the inlet;
P is the initial pressure of the activating agent;
n is the number of outlet openings;
a ... a _n - passage sections of the outlet openings;
p is the residual pressure of the activating agent,
in addition, the cross section of the holes increases in the direction of movement of the activating agent.

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