RU2163737C1 - Combustion unit for radioactive and detrimental biologic objects - Google Patents

Abstract

FIELD: environment control; combustion of solid objects. SUBSTANCE: unit has combustion chamber casing, combustion chamber, air-supply assembly, intake tank provided with discharge assembly accommodating ash container, filtering system using fabric filters, gas-outlet, gas/air, and air-inlet pipelines provided with gate valves, as well as gas-dump assembly. EFFECT: reduced heat emission into surrounding atmosphere; improved original-to-final volume ratio of combusted biologic objects. 2 dwg

Description

 The proposed device relates to the field of environmental protection, and more specifically to the field of processing solid combustible radioactive and hazardous wastes. The most effectively claimed device can be used for burning radioactive and dangerous biological objects (corpses, skeletons of animals) that died as a result of any disaster (from radioactive and toxic substances, infectious diseases or as a result of radiation exposure).

 A device for burning hazardous biological objects (corpses of infectious animals) (1), including a combustion chamber with an inclined hearth having openings for air intake. Above the inclined hearth there is a grate with a fuel burner equipped with a flame divider, above which, in turn, there is a grate for storing combustible biological objects. The lid of the combustion chamber is equipped with a hinged loading hatch and a chimney.

The disadvantages of the known device are
- limited scope, due to the impossibility of its use for the burning of radioactive biological objects;
- reduced reliability of its operation, due to the possibility of stopping the device due to clogging of openings for air intake by the combustion products of the biological object, as well as the cessation of fuel combustion in the fuel burner due to clogging of the conical flame protector by the combustion products of the biological object or flame "outage" (spontaneous cessation of fuel combustion), characteristic for all types of fuel burners.

 A device is known for burning hazardous biological objects (animal corpses) (2), which includes a combustion chamber equipped with a fuel burner with end and opposite side walls. The first cover is pivotally connected to the upper part of one of the end walls of the combustion chamber with an opening made in it, to which a vertical chimney is connected with an exhaust gas afterburner built into it, also equipped with a fuel burner, which is connected by a pipe to the fuel burner of the combustion chamber. Two second covers are pivotally attached to the upper parts of the opposite side walls, and in the closed position all three covers tightly overlap the upper part of the combustion chamber.

A disadvantage of the known device is
- limited scope, due to the impossibility of its use for the burning of radioactive biological objects;
- reduced coefficient of reduction in the volume of burned bioobject due to the absence of a unit for supplying a gaseous oxidizer in the device, as well as the lateral location of the fuel burner in the end wall of the combustion chamber, which does not ensure uniform heating of its entire volume.

 Closest to the technical nature of the claimed device is a device for burning radioactive and dangerous biological objects (3), including a combustion chamber equipped with a loading gateway, nozzle and a rotary grate installed inside it, connected to a receiving tank (ash discharge box) containing an ash container as well as through the gas vents of the combustion chamber with a deposition and afterburning chamber equipped with a nozzle and a gas duct. The deposition and afterburning chamber through the gas duct using a gas exhaust line is connected in series with a heat exchanger, a filtration system with fabric filters, as well as a gas discharge unit containing exhaust devices.

 The known device operates as follows.

 Radioactive and hazardous bio-objects through the loading gateway are loaded onto the rotary grate of the combustion chamber in the area of the nozzle torch. Coarse fractions of aerosols and gaseous products of combustion through the gas vents of the combustion chamber enter the deposition and afterburning chamber, where they are burned and deposited from them unburned solid particles, after which the gaseous products of combustion enter the cooling exchanger first, then to the filtration system with fabric filters for cleaning and discharged into the atmosphere. The ash from the burning of radioactive and dangerous biological objects from the rotary grate goes to the ash container located in the receiving tank (ash discharge box).

The disadvantages of the known device are
- increased heat loss to the environment;
- reduced coefficient of reduction in the volume of burned biological objects (reduced degree of afterburning).

 The advantages of the claimed device are the reduction of heat loss to the environment, as well as an increase in the coefficient of reduction in the volume of burned biological objects.

 These advantages are provided due to the fact that the claimed device comprises a casing of the combustion chamber, a combustion chamber, an air supply unit, a receiving container equipped with an unloading unit, in which an ash container is located, a filtering system with fabric filters, a gas exhaust, gas-air and air intake lines equipped with gates, as well as a gas outlet assembly comprising an exhaust device.

 The casing of the combustion chamber consists of a hinged upper, hinged lower, side and end walls of the casing of the combustion chamber, moreover, a gas outlet channel is made in one of the end walls of the casing of the combustion chamber, and an air supply unit is located on the hinged upper wall of the casing of the combustion chamber, consisting of an air supply pipe with installed on it with a gate.

 The combustion chamber is formed by parts of the folding upper and folding lower walls of the casing of the combustion chamber, as well as the side and end walls of the combustion chamber and has a gas outlet made in its end wall, farthest from the end wall of the casing of the combustion chamber, in which the gas channel is made.

 The casing of the combustion chamber forms with the combustion chamber a surrounding gas chamber and communicating with the combustion chamber by means of a gas outlet.

 The casing of the combustion chamber with its lower hinged wall, made in the form of a metal plate with holes, is connected to a receiving tank equipped with a discharge unit.

 The end wall of the casing of the combustion chamber is connected with its gas outlet via a gas outlet to a filtration system with fabric filters (for example, bag filters), which in turn is connected to a gas outlet unit containing an exhaust device (fan, compressor, etc.).

 The receiving tank via the gas-air line is connected to the gas outlet line, and the air intake line is connected to the gas-air line, and the gate of the gas-air line is located on it between the places of its connections with the gas-outlet and air-intake lines.

Distinctive features of the claimed device is that
- it further comprises a casing of the combustion chamber, consisting of a hinged upper wall of the casing of the combustion chamber, on which an air supply unit is located, consisting of an air supply pipe with a gate mounted on it, a hinged lower wall of the casing of the combustion chamber, made in the form of a metal plate with holes, side walls the casing of the combustion chamber and the end walls of the casing of the combustion chamber, in one of which a gas channel is made;
it further comprises a gas-air line to which an air intake line is connected;
- the combustion chamber is formed by parts of the folding upper and folding lower walls of the casing of the combustion chamber, as well as the side and end walls of the combustion chamber;
- the casing of the combustion chamber is formed with the combustion chamber surrounding the gas chamber;
- the receiving tank is connected to the lower hinged wall of the casing of the combustion chamber, as well as by means of a gas-air line with a gas outlet;
- the gas outlet line is connected at one end to the gas outlet channel of the casing of the combustion chamber, and at the other end to a filtration system with fabric filters;
the gas outlet, gas-air and intake lines are provided with gates located on them, and the gate of the gas-air line is located on it between the places of its connections with the gas and air intake lines;
- the gas outlet of the combustion chamber is made in its end wall, the most remote from the end wall of the casing of the combustion chamber, in which the gas outlet is made;
The proposed device is illustrated by the drawings shown in figures 1 - 2.

 In FIG. 1 shows a General view of the claimed device.

 In FIG. 2 shows a top view in section along A - A of the casing of the combustion chamber and the combustion chamber.

 A device for burning radioactive and dangerous biological objects contains a casing 1 of the combustion chamber, a hinged upper wall 2 of the casing of the combustion chamber, a hinged lower wall 3 of the casing of the combustion chamber, side walls 4 of the casing of the combustion chamber, end walls 5 of the casing of the combustion chamber, gas duct 6 of the casing of the combustion chamber, the combustion chamber 7, the side walls 8 of the combustion chamber, the end walls 9 of the combustion chamber, the gas outlet 10 of the combustion chamber, the gas chamber 11, the air supply unit 12, the receiving tank 13, the discharge node 14 of the receiving tank and a container 15 for ashes, the vapor line 16, gate line 17, a gas outlet, the gas-air line 18, gate line 19, the gas-air, the intake manifold 20, damper 21, the air intake pipe, the filtering system 22 with fabric filters, exhaust device 23, gazosbrosnoy assembly 24.

 The proposed device operates as follows.

Immediately before loading, the hinged upper wall 2 of the casing of the combustion chamber is opened. On the lower hinged wall 3 of the casing of the combustion chamber, combustible radioactive or hazardous biological objects are placed together with powdered metallized fuel (PMT) and coke (4), and then completely open the gate 17 of the exhaust manifold, the gate 19 of the air duct and partially the gate 21 of the intake manifold. After that, the hinged upper wall 2 of the casing of the combustion chamber is closed, the gate of the air supply unit 12 is opened, the exhaust device 23 is turned on and the PMT and coke are remotely set on fire. Most of the exhaust gases generated in this way through the gas outlet 10 of the combustion chamber enters the gas chamber 11 formed by the side walls 4 of the casing of the combustion chamber, the end walls 5 of the casing of the combustion chamber, the side walls 8 of the combustion chamber, the end walls 9 of the combustion chamber, and also parts the upper wall 2 of the casing of the combustion chamber and the hinged lower wall 3 of the casing of the combustion chamber. In the gas chamber 11, the exhaust gases in the process of moving to the gas outlet channel 6 of the casing of the combustion chamber form a gas-insulating layer of uniform density that surrounds the entire side surface of the combustion chamber 7 and which reduces the heat loss of the device into the environment, and the above-mentioned density uniformity of the gas insulating layer is achieved due to the fact that the gas outlet 10 of the combustion chamber is made in its end wall, the most remote from the end wall of the casing 1 of the combustion chamber I, in which the gas outlet channel 6 of the casing of the combustion chamber is made. From the gas chamber 11, most of the exhaust gases through the gas exhaust line 16 enter the filtration system 22 with fabric filters, from where it is discharged into the atmosphere through the gas discharge unit 24, containing the exhaust device 23. A smaller part of the exhaust gases through the lower flap wall 3 of the casing of the combustion chamber enters the receiving tank 13, from where, through the gas-air line 18 and the gas exhaust line 16, it also enters first into the filtering system 22 with fabric filters, and then through the gas discharge unit 24 containing the exhaust device 23, discharged into the atmosphere. At the same time, air from the intake manifold 20 with a partially open gate 21 of the intake manifold, entering the gas-air manifold 18, moves along it into the exhaust manifold 16, where it dilutes and cools the exhaust gases. The specified method reduces the temperature of the exhaust gases at the inlet to the filtration system 22 with fabric filters to 100 - 150 ^o C, which allows to ensure normal operation of the device, because otherwise, the exhaust gases have a temperature of 300 - 400 ^o C, at which the use of fabric filters is not possible, and the use of high-temperature granular filters due to the risk of clogging with the aerosol products of the combustion of radioactive or hazardous biological objects can stop the operation of the claimed device.

 After dehydration and carbonization of the burned radioactive or hazardous biological objects, the gate 19 of the gas-air line is partially closed, and the gate 21 of the air-line is fully opened. As a result of this, a smaller part of the air entering the gas-air line 18 is directed to the gas exhaust line 16 for dilution and cooling of the exhaust gases, and the bulk of the air moves to the receiving tank 13, from where through the lower hinged wall 3 of the casing of the combustion chamber and the dehydrated carbonized products of burning of radioactive or dangerous biological objects enters the combustion chamber 7 already in the form of exhaust gases. In this mode of operation of the device due to the simultaneous supply of air from above and below to the burned radioactive or dangerous biological objects, their final afterburning is achieved. From the combustion chamber 7, the exhaust gases enter the gas chamber 11 and through the gas outlet 16, the filtration system 22 with fabric filters, as well as the gas discharge unit 24 containing the exhaust device 23, are discharged into the atmosphere.

 After the burning of radioactive or hazardous biological objects has ended, the ash residue, by folding the hinged bottom wall 3 of the casing of the combustion chamber, is loaded into the ash container 15, which after filling is removed through the discharge unit 14 of the receiving tank and replaced with a new one, and new radioactive materials are loaded into the combustion chamber 7 or dangerous biological objects.

Tests have shown that
- heat loss of the claimed device is on average 25-30% lower than in the device of the closest analogue;
- the claimed device provides a higher reduction ratio of the volume of burned bioobjects (the reduction coefficient of the volume of burned bioobjects in the inventive device is on average 1.4 - 1.6 times higher than in the device of the closest analogue).

LITERATURE
1. USSR author's certificate N 631749, IPC ² : F 23 G 1/00, op. 11/05/78, BI N 41.

2. US patent N 5339752A, IPC ⁶ : F 23 G 1/00, NKI: 110-194, op.23.08.94.

 3. I. A. Sobolev, L. M. Khomchik, "Disposal of radioactive waste at centralized sites", Moscow, Energoatomizdat, 1983, p.30-32.

4. RF patent N 2106706C1, IPC ⁶ : G 21 F 9/32, F 23 G 7/00, opt. In Bul. 7, 03/10/98.

Claims (1)

 A device for burning radioactive and hazardous biological objects, including a combustion chamber having a gas outlet, a receiving tank in which an ash container is located, a gas exhaust duct, and also a filtering system with fabric filters connected to a gas outlet containing an exhaust device, characterized in that the device additionally contains a casing of the combustion chamber, consisting of a hinged upper wall of the casing of the combustion chamber, on which an air supply unit, consisting of an air supply a pipe with a gate installed on it, a hinged lower wall of the casing of the combustion chamber, made in the form of a metal plate with holes, side walls of the casing of the combustion chamber and the end walls of the casing of the combustion chamber, in one of which a gas outlet channel is made, as well as a gas line to which is connected an intake manifold, the combustion chamber being formed by portions of the hinged upper and hinged lower walls of the casing of the combustion chamber, as well as the side and end walls of the combustion chamber, the casing of the combustion chamber forms a surrounding gas chamber with the combustion chamber, the receiving tank is connected to the lower hinged wall of the casing of the combustion chamber, and also by means of a gas-air pipe with a gas pipe, the gas pipe with one end is connected to the gas pipe of the casing of the combustion chamber, and the other with a filter system with fabric filters, the gas outlet, gas-air and intake lines are equipped with gates located on them, and the gate of the gas-air line is located on it between the places of its connection with the air intake and gas outlet highways, and gas escape combustion chamber hole is formed in its end wall furthest from the end wall of the combustion chamber housing in which is formed a gas outlet duct.

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