SU1150432A1 - Torch swirling-type furnace - Google Patents

Abstract

1. A TORCH AND VORTEX TOP, containing a vertical combustion chamber with a cold funnel, on the front wall of which slit burners and secondary blow nozzles are installed in the lower part of the funnel with the direction of the axes along its ramp, each burner of the lower rus tilted downwards parallel to the ramp of the cold funnel, the feed channel of the coarse aerosol and the burners of the other Rus –– the horizontal channels for the supply of the fine aerosol mixture, which, in order to increase the efficiency, each The burner has a second channel placed horizontally above the inclined channel in the lower rus and intended to supply a fine aerosol mixture, while for the remaining rushes this channel is placed obliquely downwards parallel to the slope of the cold funnel below the horizontal channel relative to the burners of the neighboring Rus, a distance equal to 1-1.3 burner widths, the total width of all the burners of the upper Rus is equal to 0.7-1.0 of the sum between the burners The total area of the output sections of the nozzles of the secondary blow is 0.08–0.12 of the total area of the output sections of all the burners. 2. Firebox pop. 1, characterized in that the upper channels of the burners of the upstream russa have a sum of output sections more by 15-20% of the amount of the output sections of these canals at the burners of the downstream rus.

Description

The invention relates to the field of fuel combustion and can be used in thermal power plants. The aim of the invention is to improve economy. Fig. 1 shows schematically a flare-vortex furnace, a longitudinal section; in fig. 2 is a section along A-A in FIG. 11; FIG. 3 - view B in FIG. The flare-vortex furnace contains a vertical combustion chamber 1 with a cold funnel 2, on the front stack 3 of which flute burners 4-6 and slit 7 secondary are installed, blowing placed in the lower part of the funnel 2 sec. the direction of the axes along its slope 8. Each burner has a coarse aero mix feed channel 9, fired down the paralette / a cold hopper 8 slope and a fine feed feed channel 10 arranged above it horizontal. The burners 4-6 each are displaced horizontally relative to the burners 5 and 6 of the neighboring Rus by a distance; equal to l-tjS of the width b of the burner 4 6. The total spring of all the burners 5 and 6 of the upper Rus is equal to 0 the sum of the inter-burner distances H burners 4 lower rusa the total area of the output sections of the coneji 7 secondary blow is equal to O J12 and the total area of the output sections of all the burners 4 6. The upper channels 10 of the feed of the fine aerosol mixture of the burners 5 and 6 can have output sections more than 15-20% of the total output of channels 10 and bitter 4 and 5 - downstream th tier channels 9 and 10 are connected to gorelohs 4-6 pylerazdelitelni devices 11 to 12 are provided with nozzles for supplying Bozduka with vanes, flare-vortex combustor operates sleduyuarm manner. A small fraction of the fuel from the separating device I is directed into the chamber of the reservoir 1 through the upper channels 10 of the burners 4-6, forming from the calendars rus along with the streams of secondary air entering through the nozzles 12, the L-shaped continuous torches by increasing the output areas of the sections of the upper channels 10 from rus to rus in the downward direction, respectively, increase the speeds of dusty jets by 15-20% from top to bottom, and therefore the different ranges, which are selected based on the orientation of the axes directly exact torches a ,,, a, and so that their exit to the vertical direction occurs at a distance of 0.35, 0.55 and 0.75 depths of the firebox, filling 75-80% of the combustion chamber with combustion chamber 1 above the burner 6. Large fractions of fuel fluid from device 11 through the lower channels 9 together with jets of secondary air coming from the pipes 12 are blown into the lower part of the combustion chamber 1, the image — when interacting with air — entering: through a nozzle, horizontal vortices 8 , §2 and 8z. Due to the separate combustion of most of the fuel in a direct torch for organizing the vortex motion in the cold funnel of the remaining air mixture, it is possible to reduce 2-2.5 times the amount of the lower one blowing, reducing 10–15% of the total air (which is 8–12 % of the area of output sections Gorapok). As studies have shown, the incidence of the furnace with a displacement of the burners 4–6 of each Russ horizontally relative to the burners 4–6 of the neighboring Crusts, a distance equal to 1–1.3. The burner trenches 4, 5 or 6, with a total width of all burners 4- 6 upper rus, equal to 0.7-1.0 sums of interburner bottom lower rus, su;. {With the marginal area of the output sections of the conejt 7 secondary blow, equal to 0.08 0st2 of the total area of the output sections of all the burners 4-6, reduces the fuel underflow during ablation by eliminating the leakage of fuel and air from the zikhrevyk zones to the zone located on b burners that povshaet efficiency, the upper channel 10. Execution of burners 5 and 6 of the upstream tier the sum of the output sections greater na15 20% cyjviMb outlet sections of channels 10 in the burners 4 and 5 nizheraspoloasennogo tier further contributes povyshenrpo efficiency.

Claims (2)

1. Flare-vortex furnace, comprising a vertical combustion chamber with cold funnel, at the front wall which tiered set slotted burner nozzle and secondary blast _g placed at the bottom of the funnel to the direction of its axis along the ramp, each burner of the lower tier has a downwardly inclined ramp parallel cold funnel feed channel coarse air mixture, and the burners of the other tiers, horizontal feed channels fine air mixture, characterized in that in order to increase efficiency, each burned The ka has a second channel located horizontally above the inclined channel in the lower tier and intended for supplying finely dispersed air mixture, and for the remaining tiers this channel is arranged obliquely down parallel to the slope of the cold funnel under the horizontal channel and is designed to supply coarse air mixture, and the burners of each tier are horizontally displaced relative to the burners of adjacent tiers by a distance equal to 1-1.3 of the width of the burner, the total width of all burners _ of the upper tiers is 0.7-ί, Ο of the sum S of inter-burner distances n lower pole tiers, and the total area of the nozzle outlet cross-sections of the secondary blast is 0.08-0.12 of the total area of the burner outlet sections. 2. Firebox pop. 1, characterized in that the upper channels of the burners of an upstream tier have a sum of output sections greater by 15-20? the sum of the output sections of these channels at the burners of the lower tier. bastard 11 tts