RU2147711C1 - Incinerator for burning solid wastes in layers - Google Patents

Abstract

FIELD: reworking and utilization of solid wastes. SUBSTANCE: incinerator has body lined with refractory material, combustion chamber with inclined fixed fire gate made from refractory material and provided with through holes for communicating the working volume of incinerator with oxidizer supply unit for discharge of ash residue. Fire grate is formed by two inclined walls; lower ends of these walls form chute together with hearth. Lower working combustion chamber located above chute has form of equilateral trapezium in vertical section with larger base directed upward. Nozzles are located in through holes of walls. EFFECT: possibility of obtaining maximum surface of reaction of combustion component of wastes; avoidance of slagging-nozzles. 6 cl, 4 dwg

Description

 The invention relates to the field of processing and disposal of solid waste, and more particularly, to the design of a furnace for fire neutralization of solid waste in a layer placed on a grate.

 Known furnace for burning solid waste placed in a layer on the grate, which is also the hearth of the furnace. Waste is burned using the energy of fuel burners and feeding an oxidizing agent into the waste layer (Bernadiner M.N., Shurygin A.P. Fire processing and disposal of industrial waste.- M .: Chemistry, 1990, p. 35, Fig. 2.1).

 The disadvantage of this design is the low degree of fuel use, since combustion is carried out only on the surface of the layer.

 Known furnace for burning solid waste, comprising a housing lined internally with refractory material, a combustion chamber with an inclined fixed grate, made in the form of a monolithic plate made of refractory material, through holes made along its entire length, the axes of which are located horizontally or at an angle to horizon into which drilling pipes are inserted, connected at one end to the oxidizer supply unit, and at the other exit to the working volume of the combustion chamber. A hole for unloading ash is made in the hearth. (RF patent 2100701, F 23 G 5/00, 1997).

 The disadvantages of the known furnace are the low degree of use of the oxidizing agent due to the limited interaction of the oxidizing agent with the combustible components of the waste and the unreliability of the furnace due to clogging of the nozzles with ash and mineral fusible materials.

 An object of the invention is to provide a maximum reaction surface of the combustible component of the waste with the oxidizing agent and eliminating slagging of nozzles for supplying the oxidizing agent in the process of burning the waste.

 The formulated problem is solved due to the fact that in the furnace for layer-by-layer burning of waste, which includes a body lined internally with refractory material, a combustion chamber with an inclined fixed grate made of refractory material with through holes made in it, communicating the working volume of the combustion chamber with a feed unit oxidizer, under with an opening for the discharge of ash residue from the furnace, the grate is formed by two walls inclined in the lower part of the body, installed in such a way the lower ends of the walls form with the trough hearth and the lower working portion of the combustion chamber above the trough is a vertical sectional view of an isosceles trapezium with the larger base facing upward, with the inclined walls formed in the through holes are arranged nozzles.

The inclined walls are installed with the formation between them of an angle of 30-120 ^o .

 Inclined walls and under can be installed with an inclination towards the hole for the release of ash residue from the furnace.

 Inclined walls and under can be made stepwise. And the steps can be made in such a way that each upper step forms a protrusion with a length of 1.0-2.0 of the diameter of the nozzle above the nozzle located below.

 The implementation of the grate in the form of two inclined walls, installed in such a way that their lower ends form a gutter with a hearth, and the lower working part of the combustion chamber above the gutter has a vertical section in the form of an isosceles trapezoid with a large base, facing upwards, increases the completeness of the interaction of the oxidizer with combustible waste components.

 The waste loaded into the furnace, for example, in bags and sacks, hangs in the lower part of the combustion chamber and in the trench and as it burns, they will fall down on the under the furnace.

 The execution of the nozzles through which the oxidizing agent is supplied under the protrusions of the upper steps eliminates the ingress of slag into the nozzles and their clogging. The implementation of the protrusion of less than 1 diameter of the nozzle does not exclude slagging, with a protrusion of more than 2 diameters of the nozzle, the lining is melted.

As shown by experiments on the burning of waste in a pilot installation, the location of the inclined walls forming the grate at an angle of 30-120 ^o is optimal, since an increase in the angle of more than 120 ^o and its decrease of less than 30 ^o reduce the degree of interaction of the oxidizing agent with the waste, and the combustion process slows down. The equipment of the furnace with a moving hearth, as well as the execution of the hearth and walls inclined towards the outlet of the ash residue from the furnace, facilitates the transportation of waste in the furnace and the discharge of the ash residue from it.

The invention is illustrated by drawings, where:
in FIG. 1 - a diagram of the vertical section of the furnace along the hearth;
in FIG. 2 - section of the furnace perpendicular to the longitudinal axis of the hearth of the furnace;
in FIG. 3 - section of the furnace with an inclined hearth;
in FIG. 4 is a cross section of a furnace with a movable hearth.

 The furnace for layer-by-layer burning of solid waste consists of a housing 1 lined inside with refractory brick 2. A hole is made for the waste to be loaded into the furnace wall 3. The grate of the furnace is formed by two inclined walls 4. The ends of the inclined walls 4 form a groove 5 with a hearth 6. A vertical section of the bottom the working part of the combustion chamber has the form of an isosceles trapezoid with a large base facing up. Under 5, it can be made movable relative to the walls 4 or inclined, which ensures the movement of waste loaded into the working volume of the furnace from the loading opening 3 to the opening of the ash pan 7 for unloading the ash residue.

Nozzles 8 are installed in the holes in the walls 4 for supplying an oxidizing agent to the working volume of the furnace. Inclined walls 4 are installed with the formation of an angle between them of 30-120 ^o and can be made both smooth and step. When the walls 4 are made with stepped nozzles 8 are placed in the steps in such a way that each upper step forms a protrusion of 1-2 nozzle diameters above the nozzle below it. This ensures reliable operation of the nozzles without slagging during waste incineration. To maintain a certain temperature in the furnace, it is equipped with fuel burners 9.

 The proposed furnace for the layered burning of solid waste works as follows.

 Waste, for example, medical waste, containing used bandages, cotton wool, disposable syringes, needles, ampoules, vials, rubber tubes, gloves, medicines and others, are packed in bags that are loaded into the working volume of the furnace through opening 3. They are moved along the grate and fall into the chute 6 and under the action of the oxidizing agent supplied to the furnace through the nozzles 8 and the effects of the fuel burner 9 are burned. As it burns, the waste falls between the walls 4 of the grate and settles on under 5. As it accumulates on the hearth 5, the burnt waste in the form of ash moves to the hole 7 and is removed from the furnace. Waste is moved from the feed opening 3 to the outlet 7 either by gravity if the hearth 5 is inclined, or the waste is transported by the hearth itself when it is movable relative to the walls 4 of the grate.

 The implementation of the grate in the form of inclined walls, the lower ends of which form a gutter with a hearth, can significantly increase the surface of the thermal effect of the burners and oxidizer on the waste being burned, and the installation of nozzles in the recesses in the walls eliminates their slagging. The combination of these solutions will significantly increase the rate of waste incineration and the reliability of the furnace. Thus, the use of the proposed technical solution in a pilot installation made it possible to increase the burning rate by 30-50%, and nozzle slagging was completely excluded.

Claims (6)

 1. A furnace for layer-by-layer burning of solid waste, including a housing lined internally with refractory material, a combustion chamber with an inclined fixed grate made of refractory material, with through holes made therein, communicating the working volume of the combustion chamber with the oxidizer supply unit, underneath with an opening for discharging ash residue from the furnace, characterized in that the grate is formed by two walls inclined in the lower part of the casing, installed so that the lower ends of the walls form there is a gutter with a hearth, and the lower combustion chamber above the gutter has a vertical section in the form of an isosceles trapezoid with a large base facing upwards, while nozzles are placed in the through holes made in the walls. 2. The furnace according to claim 1, characterized in that the inclined walls are installed with the formation of an angle between them of 30 - 120 ^o .  3. The furnace according to claim 1, characterized in that the inclined walls and under are installed with an inclination towards the opening for the discharge of ash residue from the furnace.  4. The furnace according to claim 1, characterized in that the inclined walls and under are made stepwise.  5. The furnace according to claim 4, characterized in that the steps are made so that each upper step forms a protrusion of 1 to 2 nozzle diameters above the nozzle below the nozzle.  6. The furnace according to any one of paragraphs.1 to 5, characterized in that under it is made movable relative to the grate.

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