RU199334U1 - BURNER DEVICE FOR ENVIRONMENTALLY CLEAN BOILER COMBINATION - Google Patents

Abstract

The utility model relates to heat power engineering and can be used for kindling steam and hot water boilers. The objective of the utility model is to improve the efficiency, reliability and environmental friendliness of the burner for environmentally friendly kindling of boilers. The burner device for environmentally friendly kindling of boilers includes a muffle pre-furnace connected to the boiler furnace, a gas burner, a secondary air supply channel, a direct-flow pulverized coal burner, a device for controlling the temperature inside the muffle pre-furnace, a repair hatch for igniting synthesis gas, a tertiary blast air duct, laid inside the walls of the muffle pre-furnace and connected to the firebox.

Description

The utility model relates to heat and power engineering and can be used for kindling steam and hot water boilers.

Known scheme of oil-free kindling of the boiler [RU No. 121036, F23Q 13/00, F23K 1/04, F23D 1/00 publ. 10.10.2012], containing a pilot burner of the boiler furnace, the main dust pipe and an electric heater, characterized in that the ignition burner is connected to the source of the dust-air mixture by means of the main dust pipe, a muffle made in the form of a ceramic rectangular parallelepiped is mounted on the muffle, a flow divider is installed on the muffle, which is a half-pipe section of the calculated length, located inside the main dust pipe along its axis, a metal screen is installed inside a ceramic rectangular parallelepiped, under which an electric heater is located, and a muffle channel is formed inside the ceramic rectangular parallelepiped between the inner surface of the flow divider and the outer surface of the metal screen.

The disadvantage of the above method is the use of an electric ignition device, which has a short service life, reducing the reliability of this scheme, as well as the possibility of using gaseous fuel as auxiliary fuel.

Known burner device [RU No. 95796, F23D 1/00, publ. 07/10/2008], containing a pilot burner, including a circulation pipe with a muffle, placed in an air duct, in front of the inlet end of which there is an annular nozzle for supplying high concentration dust (PVC) with a fuel oil ignition nozzle placed inside the annular nozzle, and an air nozzle tangentially joined to the annular dust supply nozzle formed by the external and internal coaxial pipes inserted through the front wall of the air duct inside the circulation pipe, and from the opposite wall of the air duct a burner nozzle is attached to it with the inlet end of the burner, the outlet end of which is wound inside the embrasure of the boiler burner, and additional burner with coaxial nozzles for supplying high concentration dust and air, the axis of which is directed at the bottom of the combustion chambers of the boiler furnace at an acute angle to the axis of the pilot burner, and the axes of the circulation pipe and the burner nozzle are mounted eccentrically relative to each other and lie in the same vertical plane with the formation of a gap between the circulation pipe and the burner nozzle in their upper part, through which the outlet end of the specified additional burner is inserted into the burner nozzle of the pilot burner, the axis of which lies in the same vertical plane, while the outlet and inlet ends of the internal surfaces, respectively, of the muffle and the burner nozzle in their lower part are docked with each other, and the inlet end of the additional burner is brought into the air duct through its front wall above the circulation pipe, characterized in that the axes of the circulation pipe and the burner nozzle of the ignition burner are directed towards under the combustion chambers, and the outer coaxial branch pipe of the annular nozzle for supplying high-concentration dust and the muffle are flush with the inner surfaces, the diameters of which are equal.

The disadvantage of this device is the inability to control the temperature inside the muffle and use environmentally friendly gaseous fuel as an auxiliary.

Known burner device [RU No. 91140, F23D 1/06, publ. 01/27/2010], containing a pilot burner, including a circulation pipe with a muffle, in front of the inlet end of which there is an annular nozzle for supplying high concentration dust (PVC), inserted inside the circulation pipe, and a high-pressure air nozzle tangentially attached to the annular dust supply nozzle, and to the outlet end of the circulation pipe is connected to a burner nozzle, which is inserted into the embrasure of the boiler burner, as well as air nozzles and a high-frequency inductor, characterized in that the circulation pipe is installed inside the muffle, on the outer surface of which a high-frequency inductor is located, and inside the annular nozzle for supplying high-concentration dust an axial low-pressure air nozzle with a gate is installed, while the burner nozzle is installed inside the annular tertiary air nozzle.

The disadvantage of this device is low reliability due to the short service life of the inductor and the lack of temperature control inside the muffle furnace.

The objective of the utility model is to improve the efficiency, reliability and environmental friendliness of the burner for environmentally friendly kindling of boilers.

The problem is solved by the fact that the burner device for environmentally friendly kindling of boilers includes a muffle pre-furnace connected to a fired boiler, a gas burner, a secondary air supply channel, a direct-flow pulverized coal burner, a device for controlling the temperature inside the muffle pre-furnace, a repair hatch for setting fire to synthesis gas , a tertiary blast air duct, laid inside the walls of the muffle pre-furnace and connected to the furnace.

The reliability of the device is achieved by the joint combustion of pulverized coal and synthesis gas, which prevents the ignition flame from breaking off and ensures its reliable ignition in the muffle furnace due to two factors, the internal heat radiation of the walls of the muffle pre-furnace and the synthesis gas flame.

The efficiency of the device is achieved due to the operation of this method for all types of fossil fuels, as well as solid fuels with low reactivity.

The environmental friendliness of the device lies in the fact that the main fuel for heating the muffle furnace and when firing up the boiler is a mixture of synthesis gas and coal dust, the content of harmful substances during combustion, which is several times less than that of liquid fuel.

The features that distinguish the proposed technical solution from the described analogs are in the control of the temperature inside the muffle pre-furnace, the use of auxiliary gaseous fuel in the form of synthesis gas and additional heating of the tertiary blast supplied to the boiler furnace during firing through an air duct laid inside the walls of the muffle pre-furnace and connected to the firebox.

The diagram of the burner is illustrated by a drawing. FIG. shows a diagram of a burner for environmentally friendly kindling of boilers.

The burner device for environmentally friendly kindling of boilers includes a gas burner 1, a secondary air supply 2, a tertiary blast air duct 3 laid inside the walls of the muffle pre-furnace 5, made of heat-resistant bricks and connected to the boiler furnace 7, through an opening located in the boiler wall 6, a sensor temperature 4 for measuring the temperature inside the muffle pre-furnace, direct-flow pulverized coal burner 8 and repair hatch 9 for ignition of synthesis gas in the muffle pre-furnace.

Burner device for environmentally friendly kindling of boilers works as follows.

Syngas is fed to the muffle pre-furnace 5 through a gas burner 1, where it is mechanically ignited through a repair hatch 9. For stable combustion of synthesis gas, secondary air is supplied through the air duct 2 connected to the gas burner 1. After reaching the temperature inside the muffle pre-furnace, which controlled by means of a temperature sensor 4, up to 700 ° C (for highly reactive coals) or up to 1000 ° C (for low-reactive coals), a combustion air mixture in the form of coal dust is fed into it through a direct-flow burner 8. Coal dust ignited under the influence of radiation from the inner walls of the muffle the pre-furnace and the syngas torch enter, through a special hole in the wall of the boiler 6, into the furnace of the boiler 7, starting to warm up its space. For efficient combustion of the ignition air mixture in the boiler furnace, blast is supplied through the tertiary blast air duct 3, additionally heating up passing through the walls of the muffle furnace.

The proposed technical solution makes it possible to increase the efficiency and environmental friendliness of fuel ignition due to the ignition of coal dust from the hot walls of the muffle pre-furnace heated by the flame of synthesis gas, which excludes the use of fuel oil for kindling.

Claims (1)

Burner device for environmentally friendly kindling of boilers, including a muffle pre-furnace, a gas burner, a secondary air supply channel, a direct-flow pulverized coal burner, a device for controlling the temperature inside the muffle pre-furnace, a repair hatch for ignition of synthesis gas, a tertiary blast air duct laid inside the walls of the muffle pre-furnace and connected to the firebox.

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