SU1684570A1 - Recuperative burner - Google Patents

Abstract

The invention relates to a power system and m. B. used in heating and. Heat treatment furnaces. The purpose of the invention is to increase efficiency by intensifying heat exchange. The pipes 8 and 9 are made perforated with the location of the holes 10 and 11 in the cavities 12 and 13 between adjacent pipes and are additionally gas-tightly fastened along the generator and the ends in the tube plates. The air, washing the surface of the tubes 8, enters the cavity 13, flows out of the jet into the cavity of the tubes 9 and then passes through the openings to the outlet nozzle. The fuel flows to nozzle 20, from where it is fed to the nozzle. Combustion products pass through the channels into the cavity 12, emit a jet into the cavity of the pipes 8 and then enter the flue pipe through the holes. The use of a recuperative burner due to repeated leakage of air to the heat-exchange surface increases the efficiency of heat exchange, which will reduce fuel consumption for heating furnaces.2 Il. 4-4 cl С о 00 4 СЛ vj О Fig

Description

The invention relates to recuperative burners and can be used in heating and thermal furnaces.

The purpose of the invention is to increase efficiency by intensifying heat transfer.

FIG. 1 shows a recuperative burner, longitudinal section; in fig. 2 shows section A-A in FIG. one.

The burner contains coaxially installed fuel pipe 2 placed in the ceramic block 1, a perforated air inlet 3 with a closed end 4, and a heat exchange unit 5 with annular gaps 6 and 7 between them, made in the form of smoke and air pipes 8 and 9, plugged from one stacked and arranged in annular rows in a staggered order, each pipe being perforated with holes 10 and 11 arranged in cavities 12 and 13 between adjacent pipes, and the holes 11 in the air pipes 9 face the burner axis, and logical opening 10 of the funnel 8 - to the periphery of the ceramic block 1, all tubes further gas-tight fastened along the generatrix and the ends in the tube sheets 14 and 15.

Regenerative burner works as follows.

The air supplied to the inside of the nozzle 3 moves through the annular gap 6 and through the holes 16 is directed as a jet system onto the outer surface of the inner row of pipes 8. Washing the surface of the pipes 8 in the transverse direction, air enters the inner annular cavity 13 and in the direction of the output nozzle 17 of the burner, through the openings 11 a jet flows out into the cavity of the pipes 9. Next, from the pipes 9, the air through the openings 18 in the tube plate 14 enters the blades of the swirler 19, where, having received a rotational motion, it is directed to the output nozzles 17 burner.

The fuel flows through the fuel line 2 to the gas-steam nozzle 20, from where it is supplied to the burner outlet nozzle 17, where it mixes with air supplied to

combustion. Combustion products through channels 21, located in the kiln's stove, enter the gap 22, from where, moving along the outer surface of pipes 9, along the annular cavity 12 in the direction of the exhaust pipe 23, the streams discharge into the cavity of pipes 8. Passage through these pipes, products burns wash their inner surface and through openings 24 in tube plate 15 enter the flue gas outlet

23.

The use of a recuperative burner due to repeated leakage of air to the heat exchange surface increases the efficiency of heat exchange, which will allow

reduce fuel consumption for heating furnaces.

Claims (1)

Claims of the invention A recuperative burner containing coaxially installed fuel lines, an air inlet and a heat exchanger unit with annular gaps between them placed in a ceramic block, which, in order to improve efficiency by intensifying heat exchange, the air inlet is perforated and plugged from the front end, The heat exchanger block is made in the form of smoke and air pipes installed in pipe boards, plugged from one end and arranged in annular rows with pipes arranged in a checkerboard pattern, each pipe being perforated with holes in the cavities between adjacent pipes, and the holes themselves in the air pipes face the burner axis, and the similar holes in the chimneys - to the periphery of the ceramic block, with all the pipes additionally gas-tightly fastened along the generatrix and toomism in tube plates. , t Vl four