RU61011U1 - BOILER - Google Patents

Abstract

The utility model relates to heat engineering and can be used to burn husks and other small fuels with high windage under steam boilers with a productivity of 1-10 t / h. The technical effect of the proposed utility model is that the design of the furnace provides for complete burnout of fuel in the furnaces of small steam boilers. The technical effect is achieved by the fact that the furnace is equipped with only two tiers of nozzles, the lower and upper, and the lower tier is represented by two slotted rectangular nozzles, and the upper tier is located in the pinch of the rear wall, which forms an inclination to the boiler bottom of 45 °, and the front wall forms an inclination to horizontally at 60 °, the furnace is connected to the boiler through a gas duct.

Description

The utility model relates to heat engineering and can be used to burn husks and other small fuels with high windage under steam boilers with a productivity of 1-10 t / h.

An analogue of the proposed utility model is a furnace for low-temperature vortex combustion of coarse-ground fuel (Methodological guidelines for the design of furnace devices for power boilers, St. Petersburg, 1996, developed by VTI and AOOT NPO TSNTI by a team of authors, pp. 138-140), containing a furnace a prismatic chamber, in which the front and rear screens in the lower (vortex part) have front and rear aerodynamic protrusions. The lower part of the combustion chamber is made of gas-tight screen panels. The lower blast nozzles are installed under the rear screen protrusion.

The design of such a furnace does not allow to organize sufficiently the burning of fuel with high windage in a whirlwind. Part of the fuel remains unburned; it cannot be used under small steam boilers.

As a prototype of the proposed utility model “Firebox”, a low-temperature vortex shielded firebox for burning solid fuel with high windage according to RF patent No. 2251641, including front, rear and side screens, on the respective walls of the fire chamber, the fire chamber is divided into lower and upper chambers, is adopted , in the lower chamber there are air blast nozzles made in the form of ovals, they are installed in longitudinal rows sequentially between the pipes of the front, hearth and rear screens, and the nozzles of each The olfactory row is installed in one vertical plane, and additional blast nozzles of the final afterburning are installed on the side walls of the furnace in the boundary zone between the lower and upper chambers, underneath it is covered with fireclay bricks.

The disadvantage of this design is that it does not allow the formation of a vortex, providing complete burnout of fuel, because The jet of air from many nozzles has an increased resistance. Ultimately, unburned fuel and large emissions of nitrogen oxides remain. Such a furnace is not suitable for small steam boilers.

The technical effect of the proposed utility model is that the design of the furnace provides for complete burnout of fuel in the furnaces of small steam boilers.

The technical effect is achieved by the fact that the furnace is equipped with only two tiers of nozzles, the lower and upper, and the lower tier is represented by two slotted rectangular nozzles, and the upper tier is located in

pinch the back wall, which forms a slope to the bottom of the boiler at 45 °, and the front wall forms a slope to the horizontal by 60 °, the furnace is connected to the boiler through a gas duct.

The proposed design delivers air into the furnace stepwise, and stepwise air supply allows you to have a low temperature of the vortex and, as a result, low emissions of nitrogen oxides into the atmosphere, in addition, the vortex returns unburned fuel particles to burn.

Thus, the problem of the utility model is solved.

The drawing shows the design of the furnace.

The furnace consists of the volume of the furnace, which consists of the combustion chamber 1 and the gas duct 2 connecting the furnace to the boiler 3. The combustion chamber 1 includes a gas-husk burner 4 (when describing the utility model “Firebox”, as a type of fuel, except gas, consider the husk), the lower nozzle 5 and the upper nozzle 6. The firebox has a brickwork 7 made of fireclay and ordinary red brick. The furnace also includes a back wall 8 with pinch 9, front wall 10, side walls 11 and under 12. For ignition of the burner, an ignition-protective device 13 is used.

The furnace works as follows. In the operation mode of the burners 4 located in the combustion chamber 1, gas is fired up, while the air is supplied only through the nozzles of the burners 4, while the nozzles of the lower tier 5 and the upper tier 6 are closed. When the desired gas temperature is reached, the nozzles of the lower tier 5 are opened on the lower part of the front wall 10 of the furnace and the upper tier 6 on the clamp 9 of the furnace and

gradually increase the air supply through the nozzle, followed by an increase in the husk supply. The design of the burners 4 provides the dispersion of husks in the volume of the furnace. Since the husk has a heterogeneous fractional composition, its larger and heavier particles fall on under 12 fireboxes and burn out on it. Flue gases through the duct 2 enter the boiler 3. The location of the nozzles 5 on the lower part of the front wall 10 of the furnace allows a directed stream of air to blow under 12 and carry the dying husk into the furnace volume. The presence of the lining in the lower part of the furnace and its inclination make it possible to maintain stable combustion in the furnace volume.

Thus, the possibility of implementing a utility model is confirmed.

Claims (1)

A boiler furnace containing front, rear and side walls, under, a burner and nozzle tiers, characterized in that the furnace is equipped with only two tiers of nozzles lower and upper, the lower tier being represented by two slot-like rectangular nozzles, and the upper tier is located in the rear wall pinch, which forms a slope to the boiler bottom of 45 °, and the front wall forms a slope to the horizontal of 60 °, the furnace is connected to the boiler through a gas duct.