EA016403B1 - Method for combustion solid fuel and device therefor - Google Patents

Abstract

Method for combustion solid fuel and a device therefor relates to heat engineering, in particular, to furnace assemblies with a one-way forced air blow-in and can be applied in heating buildings and different-purpose structures, garbage burning and also solid combustible materials. The invention is aimed at enhancement effectiveness of solid fuel combustion and reducing ash content and toxicity of reused flue gas. The assigned inventive task is characterized in that in the method of combustion solid fuel comprising fuel and air supply downright to the combustion zone where a primary-hot bed is formed, gaseous combustion remains are discharged into atmosphere through a heat exchanger and solid remains are removed from under the combustion zone, wherein an overpressure is created in the combustion zone. A device for combustion solid fuel comprises a housing, a solid fuel receiver with an inlet for its supply to a furnace consisting of a combustion chamber with a channel of forced oxygen-containing g mixture and a grate, a heat exchange chamber with a heat exchanger communicated with a flue pipe, an ash chamber with an ash collector, the combustion chamber is arranged with an annular gap in the ash chamber made together with the heat exchange chamber.

Description

The invention relates to the field of power engineering, in particular to methods of burning solid fuel and combustion devices with one-sided forced blowing, and can be used for heating buildings and structures with solid fuel.

There is a method of burning and dry distillation of solid fuel (RF patent No. 2319065, Р23В 30/00, published on March 10, 2008), which includes placing a portion of the fuel in a chamber, heating it to a temperature of volatile matter, separating the vapor and solid phases and burning the latter in the furnace, whereby before placing the fuel in the chamber, it is heated from the inside above the temperature at which the main mass of volatile substances escapes, and the placement of the fuel in the chamber is accompanied by its stress on the chamber walls.

The disadvantage of the described method of burning solid fuel is its complexity, due to the multi-operational preparation of the fuel to the combustion phase.

The closest to the claimed method is a method of burning solid fuel and a device for its implementation (RF patent No. 2294483, Р23В 40/00, Р23С 5/08, publ. 27.02. 2007). According to this method, before burning, the fuel is sorted to the specified dimensions or granulated. Fuel and air are supplied to the combustion zone according to a predetermined algorithm that ensures the power of the firebox and the complete combustion of fuel. Gas residues of combustion are discharged to the atmosphere through a heat exchanger, and solid residues to the ash collector. The fuel in the combustion zone is served with air from the bottom up. Solid residues, slag and ash are automatically removed from the combustion zone by the fuel and air supplied to it, which are heated by the upper layers of slag and ash.

The time between the periods of fuel supply to the furnace is determined from the dependence, so that the formed solid residues are replaced in a timely manner by new fuel.

A device for implementing the method of burning solid fuel contains a hopper for solid fuel, a heat exchanger, a firebox, fuel and air supply devices to the furnace, a ash collector, a control unit (controller), temperature sensors, electric drives and a vertical burner made in the form of a truncated cone shell with holes for pumping air and connected by a narrow side with a fuel supply device and air, which is a collector connected to the fan. At the same time, the fuel supply device is equipped with a screw conveyor, a part of the pipe of which in the manifold is provided with air holes.

The disadvantage of the described method of burning solid fuel and a device for its implementation is the low efficiency of the combustion process, since the lower supply of fuel with air to the furnace and direct output of pyrolysis gases through the chimney, made in its ceiling part, do not allow to create a constantly burning layer for complete combustion incoming fuel, which leads to increased ash and toxicity of recycled flue gases.

An object of the invention is to improve the efficiency of burning solid fuel while reducing the ash and toxicity of recyclable flue gases.

The problem is solved due to the fact that in the method of burning solid fuel, fuel and air are fed from top to bottom into the combustion zone, where a burning layer is preliminarily created, combustion gas residues are removed to the atmosphere through a heat exchanger, and solid gases are removed from under the combustion zone, in the combustion zone overpressure.

A device for burning solid fuel containing a housing, a solid fuel bunker with a feed channel to the furnace consisting of a combustion chamber with a channel for forcing oxygen-containing mixture and a grate, a heat exchange chamber with a heat exchanger in communication with the chimney, an ash chamber with a collector, a combustion chamber is placed with an annular gap in the ash chamber, which is made integral with the heat exchange chamber.

The supply to the combustion zone of the fuel with air from top to bottom on the previously created burning layer creates conditions for the intensive formation of pyrolysis gases, which, passing through the burning layer under excessive pressure and mixing with air oxygen, form a combustible gas under the grate, during combustion of which heat is generated, providing maintaining a stable state of the burning layer and the complete combustion of all volatile substances, which leads to a noticeable decrease in ash and harmful emissions. Thus, the emission of flue gases from under the combustion zone contributes to intensive heat transfer in the heat exchanger and reduces the toxicity of exhaust gases.

A device for burning solid fuel is illustrated in the drawing, which schematically shows a general view of the device.

A device for burning solid fuel comprises a housing 1; bunker 2 for solid fuel with fuel supply devices 3 and forced supply of oxygen-containing mixture (air) 4 to the furnace; a heat exchange chamber 5 with a heat exchanger 6 communicating with the flue pipe 7. The furnace consists of the combustion chamber 8. The fuel supply device 3 communicates with the hopper 2 and through the channel 9 - with the combustion chamber 8. The device for supplying oxygen-containing mixture 4 is also communicated with the channel 9. A grate 10 is installed at the bottom of the combustion chamber 8. The combustion chamber 8 is placed with an annular gap in the ash chamber 11c with the ash collector 12. The ash chamber 11 is made integral with the heat exchange chamber 5 and communicated with it by an annular gap between zhnoy furnace wall and the casing 1.

- 1 016403

The combustion chamber 8 can be equipped with a hermetic door 13, which provides access to accommodate the initial kindling of fuel, as well as for operational maintenance of the furnace.

The device for supplying fuel and air to the furnace can be equipped with a control unit for controlling the supply of air and fuel of any known design.

The method of burning solid fuel is as follows. In the combustion chamber 8, a burning layer is preliminarily created on the grate 10, for example, from burning dry wood, to which atmospheric air is forcibly supplied through channel 9, and solid fuel is fed in portions through channel 9. In the combustion chamber 8, an overpressure is created, at which solid fuel ignites from the high temperature of the burning layer and releases pyrolysis gases. Pyrolysis gases under pressure, passing through the burning layer under the influence of high temperature boiling on the grate 10 layer, burn and enter the ash chamber 11, where high-temperature gases maintain a stable state of the burning layer on the grate 10 and ensure the combustion of toxic volatile products and the burning of solid particles of fuel. While passing through the grate 10 small solid products of combustion and unburned fuel residues settle in the ash collector 12. The flue gases from the ash chamber 11 enter the heat exchange chamber 5, releasing heat to the heat exchanger 6, are cooled and through the chimney 7 are discharged into the atmosphere.

The process of igniting the initial batch of fuel can be carried out by loading it directly from the hopper 2 through the channel 9, and through the door 13.

The use of the control unit allows you to automate and optimally adjust the process of supplying air and fuel, depending on the type of solid combustible material selected.

The invention allows to create an environmentally friendly, virtually smokeless method of burning solid fuel with increasing combustion efficiency with high heat generation and heat transfer, as well as simplifies the design of the furnace while increasing its efficiency and increasing the degree of thermal decomposition of the fuel, which reduces the amount of harmful emissions into the atmosphere.

The proposed invention can be widely used, since it does not require preliminary preparation of the fuel, ensures efficient combustion of almost all types of solid combustible materials and their mixtures, including household garbage.

Claims (2)

1. A device for burning solid fuel, comprising a housing; a solid fuel hopper with fuel supply devices and forced supply of an oxygen-containing mixture to the combustion zone; a furnace with a combustion chamber, in the bottom of which there is a grate; a heat exchange chamber with a heat exchanger in communication with a chimney; an ash chamber with an ash pan, and the fuel and air supply channels are arranged to supply fuel and air to the combustion chamber from above, characterized in that the combustion chamber is placed with an annular gap in the ash chamber, which is integral with the heat exchange chamber. 2. A method of burning solid fuel using the device according to claim 1, comprising the following steps: create a preliminary burning layer in the combustion chamber; supply fuel and air to the combustion zone from top to bottom; create excessive pressure in the combustion zone; gas combustion residues are discharged into the atmosphere through a heat exchanger, while solid residues are removed from the combustion zone.