RU2561806C1 - Furnace for combustion of solid fuel (versions) - Google Patents

Abstract

FIELD: power industry.

SUBSTANCE: furnace for combustion of solid fuel includes a housing with a loading hopper for solid fuel, a combustion chamber with a grating, an air supply device, an afterburner chamber with an opening into it; the combustion chamber has a movable horizontal grating moved throughout the height, a movable and turning inclined rear grating and a movable and turning inclined guide plate. The air supply device is made in the form of a pipe so that flow of air and combustible gases before they enter the afterburner chamber is directed towards to each other as per a counter-flow circuit.

EFFECT: invention allows improving economy and efficiency of operation of a furnace for combustion of solid fuel due to involvement in an active combustion process of the required fuel layer and control of dimensions of fire bed surface on grate bars.

4 cl, 2 dwg

Description

The invention relates to the combustion of fuel and can be used in heating boilers, in particular in devices for burning solid fuel.

A known method of burning fuel in a furnace and a furnace for implementing the specified method, comprising a housing with a door with a sight glass for loading fuel, in which there are channels for supplying air to the combustion chamber with a combustion zone, channels for removing products of fuel combustion from the combustion chamber, a chimney for removal combustion products, moreover, a panel is installed in the frame of the furnace door, by means of which the cross-sectional cross-section of the frame is divided into at least two parts, the upper cavity formed by the frame and the said panel They are located with the combustion zone and used for laying fuel, mainly firewood, and the lower one is connected to the combustion zone, thereby forming the main channel for supplying air to the combustion zone, and with the help of the said panel, they form a gap with the sight glass serving as the first channel for supplying air to the zone combustion from the cavity of the main channel, and at the other end of the panel opposite to the said channel, mainly in the place of its attachment to the furnace body, through channels are made through which the cavity of the main supply channel is connected to air with a combustion zone, thereby forming a second channel for supplying air to the combustion zone, while in the lower part of the furnace a third channel for supplying air to the combustion zone is provided, the cavity of said channel being connected to the cavity of the main air supply channel on one side and connected to the other the lower part of the cavity of the combustion zone, preferably through channels in the bottom for laying fuel, moreover, the fuel is laid in the combustion zone with the formation of a gap (see patent for the invention of the Russian Federation No. 2520112, IPC F24B 1/00, publication June 20, 2013).

The main disadvantages of the analogue are the difficulty of adjusting the performance at an unchanged amount of fuel loading; it is difficult to clean the internal cavities of the channels of the combustion zone from ash, carbon deposits and other residues of combustion products.

A well-known hot water boiler consisting of a body, a furnace with a grate, cross screens and ligaments, lining the guide and side, hinged visor, heat shield and heat-lining (see patent for the invention of the Russian Federation No. 2068158, IPC F24H 1/26, publication 20.10 .1996).

The main disadvantage of the analogue is the possibility of the formation of liquid and gaseous ballast pyrolysis products in the upper layers of the fuel loading with a lack of oxygen, adversely affecting the processes in the combustion zone and the environmental friendliness of the exhaust gases.

The closest analogue of the claimed invention is a furnace for burning solid fuel, containing a combustion chamber with a grate and a vertical partition forming a slit-like outlet channel and an afterburner with an entrance to the window communicating with the slit-like channel and secondary air supply pipe, while the partition is perforated with decreasing upward the degree of perforation, the afterburner inlet window is provided with a U-shaped visor directed towards the afterburner, and the feed pipe is secondarily of air placed above the window and by the slot-like channel has perforations (see Russian Federation patent for invention №1163087, IPC F23B 1/12;. publication 23.06.1985), taken as a prototype.

The main disadvantages of the prototype are the possibility of the formation of liquid and gaseous ballast pyrolysis products in the upper layers of the fuel loading with a lack of oxygen, adversely affecting the processes in the combustion zone and the environmental friendliness of the exhaust gases, difficulties in controlling the performance with a changing volume of fuel loading.

The problem to which the claimed invention is directed, is to create a furnace device for burning solid fuel (mainly firewood) with maximum efficiency and economy.

The technical result achieved by the implementation of the claimed invention is to expand the operational capabilities, as well as the scope of the furnace for burning solid fuel by regulating the surface area of the combustion mirror and creating conditions for involving only the necessary amount of fuel in the active combustion process and, in addition, eliminating the formation of ballast pyrolysis products in the upper layers of fuel loading.

The specified technical result is achieved by the fact that in the furnace for burning solid fuel, comprising a housing with a loading hopper for solid fuel, a combustion chamber with a grate, an air supply device, an afterburner with a window into it, according to the invention according to the first embodiment, the combustion chamber has a movable a horizontal grate that can be moved in height; a movable-swivel inclined back grate and a movable-swivel inclined guide plate.

In addition, the air supply device is made in the form of a pipe in such a way that the movement of air and combustible gases before entering the afterburner is directed towards each other in a countercurrent pattern.

The specified technical result is achieved in that in the furnace for burning solid fuel, comprising a housing with a loading hopper for solid fuel, a combustion chamber with a grate, an air supply device, an afterburner with a window into it, according to the invention according to the second embodiment, the combustion chamber has a movable swivel inclined rear grate and movably-swivel inclined guide plate.

In addition, the air supply device is made in the form of a pipe in such a way that the movement of air and combustible gases before entering the afterburner is directed towards each other in a countercurrent pattern.

The inventive furnace for burning solid fuel differs from the prototype in that in the first embodiment, the combustion chamber has a movable, height-moving horizontal grate, a movable-swivel inclined rear grate and a movable-swivel inclined guide plate, and the second combustion chamber has a movable swivel inclined rear grate and movably-swivel inclined guide plate. Moreover, in both cases, the movement of air and combustible gases before entering the afterburner is directed towards each other in a countercurrent pattern. These differences allow us to conclude that the proposed method meets the condition of "novelty."

Using the counter-flow air supply method increases the thermal stress of the combustion mirror on the grate, mainly in the area where the combustion products exit into the afterburner, which ensures the most complete combustion of the combustion products, and also increases the stability and automatic control of the combustion process in the furnace. Thus, the invention has an "inventive step".

The invention is illustrated by drawings: in FIG. 1 presents a furnace for burning solid fuel, option 1; in FIG. 2 shows a solid fuel combustion chamber, option 2.

The furnace for burning solid fuel according to the first embodiment consists of a housing 1, inside of which there is a loading hopper 2 with a supply of solid fuel 3 to ensure long-term operation of the furnace. In the lower part of the housing 1 there is a combustion chamber with a horizontal grate 4 and an inclined rear grate 5.

In this case, the horizontal grate 4 has the ability to move up and down, and the inclined rear grate 5 is pivotally mounted under the lower edge of the afterburner chamber 8 window, and in the lower part is adjacent with its surface to the rear edge of the horizontal grate 4. For holding in the loading hopper 2 mass of solid fuel 3 and the direction of the burning layer to the horizontal grate 4 inside the housing 1 in its lower part there is an inclined guide plate 6, pivotally mounted on the housing 1, and the bottom part of it adjacent to the front edge of the horizontal grate 4. In the lower part of the housing 1 there is an air supply device made in the form of a pipe 7, the outlet opening directed towards the rear inclined grate 5, the live section for which air passage depends on the location of the horizontal grate four.

The furnace for burning solid fuel according to the second embodiment consists of a housing 1, inside which a loading hopper 2 with a supply of solid fuel 3 is placed to ensure long-term operation of the furnace.

In the lower part of the housing 1 there is a combustion chamber with an inclined rear grate 5, which is pivotally mounted under the lower edge of the afterburner chamber 8. To hold the mass of solid fuel 3 in the hopper 2 and direct the burning layer to the grate 4, there is an inclined guide plate 6, pivotally fixed by the upper part inside on the housing 1, and the lower part resting on top of the surface of the grate 4. In the lower part of the housing 1 there is an air supply device made in the form of a pipe 7, the output about Verstov directed towards the grate 5, wherein an open area for the passage of air depends on the position resting on the guide plate 6 it.

A furnace for burning solid fuel works as follows.

In certain cases, for example, according to the first option, immediately before loading solid fuel 3 of the loading hopper 2, depending on the given operating mode of the furnace, the horizontal grate 4, the movable-swivel inclined rear grate 5 and the movable-swivel guide plate 6 ( see position A and B in Fig. 1).

In this case, as necessary to ensure the greatest productivity of the furnace, the horizontal grate 4, the movable-swivel inclined rear grate 5 and the movable-swivel guide plate 6 are set to position B, corresponding to the lower location of the horizontal grate 4, in which the volume of the combustion zone, the amount of solid fuel 3 involved in the combustion process and the active surface of the combustion mirror on the grate become maximum, and the increase in the total live section The holes in the movable-swivel inclined rear grate 5 proportionally increase the throughput for the air supplied from the air supply device 7, and the movement of air towards the movement of the combustion products in a countercurrent circuit increases the thermal stress of the combustion mirror, which ultimately affects the increase in productivity fireboxes.

On the contrary, to ensure minimum furnace productivity, the horizontal grate 4, the movable-swivel inclined rear grate 5 and the movable-swivel guide plate 6 are set to position A, corresponding to the upper arrangement of the horizontal grate 4.

In this case, the component of the temperature gradient always has a direction from the combustion zone towards the afterburner 8 and then to the gas duct 9, excluding the heating of solid fuel 3 in the upper layers in the feed hopper 2, thereby preventing the undesirable pyrolysis process, the formation of associated liquid and gaseous ballast products, and improved cracking resins.

In certain cases, for example, according to the second option, immediately before loading solid fuel 3 of the loading hopper 2, depending on the given operating mode of the furnace, the movable-swivel inclined rear grate 5 and the movable-swivel guide plate 6 are installed in the required position (see position A and B in Fig. 2).

In this case, as necessary to ensure the greatest productivity of the furnace, the movable-swivel inclined rear grate 5 and the movable-swivel guide plate 6 are set to position B, corresponding to the maximum lowering of the lower edge of the movable-swivel inclined back grate 5 and the lower edge of the guide plate 6 resting at the same time on top of the surface of the movable-rotary inclined rear grate 5, in which the volume of the combustion zone, the amount involved in the process solid fuel 3 and the active surface of the combustion mirror on the grate become maximum, and an increase in the total living section of the holes in the movable-swivel inclined rear grate 5 proportionally increases its throughput for the air supplied from the air supply device 7, and the movement of air towards the movement of products combustion in a countercurrent scheme contributes to an increase in the thermal stress of the combustion mirror, which ultimately affects an increase in the productivity of the furnace.

On the contrary, to ensure minimum furnace productivity, the movable-swivel inclined rear grate 5 and the movable-swivel guide plate 6 are set to position A, corresponding to the minimum lowering of the lower edge of the swivel-swivel back grate 5 and the lower edge of the movable-swivel guide plate 6.

In this case, the component of the temperature gradient always has a direction from the combustion zone towards the afterburner 8 and then to the gas duct 9, excluding the heating of solid fuel 3 in the upper layers in the feed hopper 2, thereby preventing the undesirable pyrolysis process, the formation of associated liquid and gaseous ballast products, and improved cracking resins.

The described embodiments of the furnace for burning solid fuel, made in accordance with the present invention, provide the possibility of realizing the purpose of the invention and achieving the above technical result, but they do not exhaust all the possibilities of carrying out the invention, characterized by the combination of features described in the claims.

The use of the proposed furnace for burning solid fuel makes it possible to increase profitability and operational efficiency by ensuring that the required layer of solid fuel is involved in the process of active combustion and thereby regulates the size of the surface of the combustion mirror on the grate.

The countercurrent air supply method used increases the thermal stress of the combustion mirror mainly in the zone of exit of the combustion products to the afterburner on the grate, which provides the most complete burning of combustion products, improves cracking of resins, and reduces the harmful effects of thermal pyrolysis products formed in the fuel layer in the boot the bunker outside the combustion zone, increases the stability and auto-regulation of the combustion process.

Consequently, the operational capabilities of using the furnace for burning solid fuel are expanded, the efficiency and quality of combustion are improved by quantitatively regulating the fuel combustion zone on the grate.

The proposed design of a furnace for burning solid fuel can be used for heating purposes.

Claims (4)

1. A combustion chamber for burning solid fuel, comprising a housing with a loading hopper for solid fuel, a combustion chamber with a grate, an air supply device, an afterburner with a window into it, characterized in that the combustion chamber has a movable horizontal height grate, movable in height, a movable-swivel inclined rear grate and a movable-swivel inclined guide plate. 2. A combustion chamber for burning solid fuel according to claim 1, characterized in that the air supply device is made in the form of a pipe in such a way that the movement of air and combustible gases before entering the afterburner is directed towards each other in a countercurrent pattern. 3. A combustion chamber for burning solid fuel, comprising a housing with a loading hopper for solid fuel, a combustion chamber with a grate, an air supply device, an afterburner with a window into it, characterized in that the combustion chamber has a movable-swivel inclined rear grate and movable - rotary inclined guide plate. 4. A furnace for burning solid fuel according to claim 2, characterized in that the air supply device is made in the form of a pipe in such a way that the movement of air and combustible gases before entering the afterburner is directed towards each other in a countercurrent pattern.

Images