RU2106706C1 - Method for burning radioactive and harmful biological entities under field conductions - Google Patents

Abstract

FIELD: environmental control. SUBSTANCE: method involves digging trench with air intake channels. Fire grate is placed on trench bottom and covered with burn-out fabric. The latter is covered with metallized powdered fuel which is, essentially, compound of following composition, mass percent: powdered aluminium-magnesium alloy - 92.0-96.5; alkali metal nitrate powder - 1-5; powder spongy titanium - 1-2; industrial oil - 1.5-3.0. Lumps of activated coke are placed of fuel layer and interlump places are filled with metallized fuel. Biological entity is placed on this layer and filled inside with metallized fuel. On top, biological entity is also covered with activated coke and metallized fuel. Ratio of mass of biological entity to total mass of activated coke and metallized fuel is maximum 1.0-0.2; mass proportion of metallized fuel and activated coke is minimum 1:1. Trench is covered with incombustible porous filtering element and fire is set to compound. EFFECT: improved safety, eliminated pollution of environment with toxic combustion products. 3 cl

Description

 The inventive method relates to the field of environmental protection, and more specifically to the field of processing of radioactive and dangerous biological objects.

 The most effective method is applicable when burning large biological objects in the field. As bioobjects, corpses of animals killed by natural death as a result of exposure to extreme factors or killed due to the danger of the spread of diseases or radioactive contamination of the environment are used.

 A known method of eliminating biological objects, which consists in the fact that biological objects are dried and poured into asphalt or tar [1].

 The disadvantage of this method is its potential danger associated with the possibility of ingress of decomposition products into the atmosphere. Since asphalt or tar does not prevent the decay of biological objects, the accumulated gaseous decomposition products can lead to a breakdown in the integrity of the asphalt or tar shell, which will cause environmental pollution.

 A known method of eliminating biological objects by burning in special furnaces with mechanized feeding of biological objects into the combustion chamber [2].

 The disadvantage of this method is its increased complexity, since it is expected to dry biological objects before burning to more efficiently conduct and reduce the tar content in gaseous products of combustion.

 The closest in technical essence to the claimed method is a method of burning animal carcasses in the field by applying combustible material to them and then setting it on fire, where a powdery low-gas contact heating composition is applied as combustible material, applied to the animal’s corpse from all sides, after which the corpse covered with a metal heat reflector, and combustible material is set on fire. As a powdery low-gas composition of contact heating, bulk powders based on aluminum, magnesium and their alloys are used. In addition, heat-conducting material of aluminum or duralumin is introduced into the corpse of an animal in the form of pins arranged in a checkerboard pattern [3].

The disadvantages of this method are:
increased danger of its implementation, caused by the low chemical resistance of the powdered low-gas composition in the field. Powder of elemental magnesium and aluminum, which are components of a low-gas composition, in the field will interact with air moisture, resulting in the formation of hydrogen, which in a mixture with oxygen can lead to the formation of an explosive mixture;
increased danger of the implementation of the method due to the release of toxic nitrous gases as gaseous products of combustion;
reduced productivity of the method, due to the possibility of complete burning of relatively small masses of bioobjects (up to 150 kg) due to the high burning rate of powdered low-gas composition;
the practical impossibility of using the method for burning biological objects contaminated with radioactive substances, because of the danger of environmental pollution by radioactive aerosol combustion products.

The advantages of the proposed method are:
improving the safety of the implementation of the method by preventing its explosiveness and the danger of environmental pollution by toxic combustion products;
increased productivity of the method;
expanding the scope of the method by ensuring its use in the burning of biological objects contaminated with radioactive substances.

These advantages are achieved due to the fact that:
dig a trench and air intake channels connecting its internal volume through the side walls of the trench with the environment;
the grate is installed at the bottom of the trench so that there is a gap between it and the bottom of the trench;
burned-out fabric with low hydrodynamic resistance is laid on the grate;
a layer of powder metallized fuel of the following composition is poured onto the fabric, wt.%:
Aluminum Magnesium Alloy Powder - 92 - 96.5
Alkali metal nitrate salt powder - 1 - 5
Powdered Sponge Titanium - 1 - 2
Industrial oil - 1.5-3.0
a layer of pieces of activated coke is poured onto a layer of powdered metallized fuel, and the free inter-bite space in the coke layer is filled with metallized fuel powder;
a bioobject (bioobjects) is placed on a layer of activated coke;
powder of metallized fuel (in bulk or in canisters) is placed inside the bioobject (bioobjects);
the space between the walls of the trench and the bioobject (bioobjects) is filled with pieces of activated coke and the inter-musk space is filled with metallized fuel powder;
a layer of lump activated coke is poured onto the bioobject, the inter-lumen space of which is also filled with metallized fuel powder, and the layer of activated coke, in turn, is covered with a layer of powdered metallized fuel from above;
the top trench is closed with a non-combustible porous filter element;
carry out arson of powdered metallized fuel.

 Aluminum-magnesium alloy provides flameless combustion of powdered metallized fuel and is the main calorific value, resistant to atmospheric moisture. Potassium nitrate or sodium is used as the nitric acid salt of an alkali metal, which plays the role of an oxidizing agent in the first stage of ignition of powdered metallized fuel, powdered sponge titanium binds nitrogen oxides released during combustion, and industrial oil is a technological additive that eliminates dusting of metal powders. In addition, industrial oil in combination with potassium or sodium nitrate ensures trouble-free ignition of the mixture, loosens the slag during combustion, which ensures the required porosity for oxygen diffusion. An increase in oil content in excess of 3 wt.% Can lead to the formation of a flame during ignition of a powdered metallized mixture and its rapid combustion, which may not provide ignition of activated coke, and a decrease in its amount below 1.5 wt.% Leads to dusting of powdered metallized fuel.

 When the content in the mixture of alkali metal nitrate is less than 1 wt.%, The mixture is not ignited, but an increase in its amount in excess of 5 wt. % may cause a flaming flame.

 Powdered sponge titanium is designed to bind nitrogen oxides. A sponge titanium content of less than 1.5 wt.% Does not completely bind nitrogen oxides, and a content of more than 3 wt.% Can reduce the burning rate of metallized fuel.

 The main function of powdered metallized fuel is to ensure the ignition of activated coke, which acts as the main fuel for burning bioobjects.

 The use of activated coke as fuel provides a longer burning time than in the prototype. In addition, activated coke, which is a good reducing agent, partially reduces the oxides of magnesium, aluminum, and titanium formed during the combustion of powdered metallized fuel to their metallic state, which in turn increases its burning duration by an average of 25-30% and the duration of the action of sponge titanium as an absorber of nitrous gases. All this makes it possible to completely burn biological objects weighing more than 150 kg in a single cycle and to almost completely clean the exhaust gases from toxic nitrogen oxides.

 In addition to performing its main function, powdered metallized fuel during combustion forms slag, which contains oxides of magnesium, aluminum, magnesium - aluminum and titanium, which, when reacted with hydrogen chloride present in the exhaust gases in addition to nitrogen oxides, neutralize it, and activated Coke partially reduces nitrous gases to elemental nitrogen. In addition, slag well retains aerosol products of combustion, preventing their radioactive forms from entering the environment.

 The presence in the composition of the combustion products of biological objects and powdered metallized fuel of nitrous gases and oxides of magnesium, aluminum, magnesium - aluminum and titanium, which are oxygen carriers, increases the reliability of combustion of activated coke, especially in conditions of lack of atmospheric oxygen.

 Thus, the combination of powdered metallized fuel and activated coke during the burning of biological objects provides chemical and mechanical purification of gaseous products of combustion, reduces the risk of spontaneous cessation of activated coke burning, increases the duration of burning of powdered metallized fuel and increases the efficiency of the absorbing action of sponge titanium. In addition, the absence of elemental magnesium and aluminum in the composition of the powdered metallized fuel ensures the explosion safety of the combustion process.

 The mass ratio of the bioobject (bioobjects) to the total mass of the combined fuel (activated coke and powdered metallized fuel) is not more than 1.0: 0.2 with a mass ratio of powdered metallized fuel and activated coke not less than 1: 1, since with a smaller the content of metallized fuel will not ensure guaranteed ignition of activated coke, and when the ratio between the mass of the bioobject and the mass of the combined fuel is greater than 1.0: 0.2 does not provide complete burning of a bioobject (bioobjects).

 During the verification of the implementation of the method, the fundamental possibility of the destruction of large biological objects by the proposed method was proved. An object weighing more than 150 kg was completely destroyed, to the state of ash without preliminary processing (cutting the object into smaller parts, introducing additional metal rods into the object to increase thermal conductivity, preliminary drying, etc.).

 The inventive method is implemented as follows.

 Dig a trench with dimensions that ensure the presence of gaps between its walls and a bioobject (bioobjects). Along the perimeter of the trench, air intake channels are drilled, connecting its internal volume with the environment through the bottom and side walls of the trench. A grate is installed at the bottom of the trench so that there is a gap between it and the bottom of the trench for the passage of air from the intake channels. A burn-out fabric with low hydrodynamic resistance is laid on the grate, on which a continuous layer of powdered metallized fuel of the composition, wt. %: powder of aluminum-magnesium alloy 93; potassium nitrate 3; powdered sponge titanium 1.5; industrial oil 2.5 cm 2 cm thick, then a layer of pieces of activated coke 5 cm thick, the inter-musk space of which is filled with powdered metallized fuel. A corpse of an animal weighing 500 kg is placed on this layer, in the inner part of which powdered metallized fuel is poured, first covered with a continuous layer of 5 cm thick pieces of activated coke, whose inter-mask space is filled with powdered metallized fuel, and then with a 2 cm thick layer of powdered metallized fuel. After that, pieces of activated coke and metallized fuel powder fill the gap between the walls of the trench and the bioobject. The trench is covered with a non-combustible porous filter element and the powder of metallized fuel is set on fire. The amount of combined fuel is 30% of the mass of the bioobject when the mass ratio of activated coke to metallized fuel powder is 1: 1.

As a result of the experiments, it was found that:
the biological object was almost completely burned (the degree of burning was 95 - 98%) in one cycle without the need for additional consumption of combined fuel or its constituent components;
in the exhaust gases nitrogen dioxide, radioactive aerosols and explosive components were completely absent.

Claims (3)

1. A method of burning radioactive and dangerous biological objects in the field, including applying powdered metallized fuel to a biological object, which contains an aluminum-magnesium alloy and its subsequent arson, characterized in that the trench is pre-dug, with dimensions exceeding the size of the biological object, around the trench drill the air intake channels connecting its internal volume with the environment, set the grate in the bottom of the trench so that there is a gap between it and the bottom, a grate burnable fabric lay, then it is poured onto the metallized layer of powdered fuel, further comprising a nitrate salt of an alkali metal, sponge titanium and industrial oil of the following composition, wt.%:
Aluminum Magnesium Alloy Powder - 92.0 - 96.5
Alkali metal nitrate salt powder - 1 - 5
Powdered Sponge Titanium - 1 - 2
Industrial oil - 1.5 - 3.0
onto which a layer of lumpy activated coke is poured and its inter-lumen space is filled with powdered metallized fuel, then a bioobject is placed on this layer, in which a powdered metallized fuel is placed, after which the bioobject is first covered with a layer of lumpy activated coke, whose inter-muscular space is filled with powdered metallized and then a layer of powdered metallized fuel, the gap between the biological object and the walls of the trench filled with a mixture of lumpy activated coke with powdered metallized fuel with a ratio of the biological object to the total mass of activated coke and powdered metallized fuel of not more than 1.0: 0.2 and the mass ratio between powdered metallized fuel and activated coke not less than 1: 1, after which the trench is covered with a non-combustible porous filter element.  2. The method according to claim 1, characterized in that the potassium nitrate or sodium nitrate is used as nitric acid salts of alkali metals.  3. The method according to p. 1, characterized in that the powdered metallized fuel is placed inside the biological object in bulk or in pencil cases.