RU144689U1 - DUST BURNER - Google Patents

Abstract

A pulverized coal burner containing a horizontal conical housing located inside the air box and an axial mixture supply nozzle located on the front vertical wall of the housing, characterized in that the conical housing in cross section is made in the form of an ellipse, inside the housing parallel to the vertices of the ellipse along the major axis, symmetrically installed upper and lower plates, connected by the sides to the inner surface of the housing and forming channels with the housing for the passage of flue gases into the burner to The torch’s nozzle has an axial mixture feed nozzle, slotted gaps are made between the frontal vertical wall of the body and the inlet ends of the plates, an axial mixture nozzle is inserted between the inlet ends of the plates to form an annular gap, and the outlet ends of the air box, the case and the outlet ends of the plates are inserted inside the furnace embrasure boiler with the formation between them respectively of annular and slotted gaps.

Description

The utility model relates to the field of power engineering and can be used at thermal power plants.

Known burner (RF patent for utility model No. 50634, IPC F23D 17/00, published: 01/20/2006), comprising a housing with coaxial nozzles for supplying fuel and air, to the output end of which is attached a coaxial bell in the form of a hollow truncated cone.

A disadvantage of the known burner is the complexity of the control system for regulating the quality and efficiency of combustion.

Known pulverized coal burner (prototype) (USSR copyright certificate No. 1210001, IPC F23D 1/00, 1/04, F23C 3/00, published 02/07/1986. Bull. No. 5), containing a conical housing located inside the air box, and docked to the body of the axial nozzle for supplying the mixture.

A disadvantage of the known pulverized coal burner is the separation of the torch from the burner inside the furnace of the boiler due to insufficient heating of the dust inside the burner.

The objective of the utility model is the ignition of dust in a coal burner without the use of electric heaters, due to suction of flue gases into the burner, into the torch root of the axial mixture nozzle, which eliminates the separation of the torch from the coal burner inside the boiler furnace.

The problem is solved in that in a pulverized coal burner containing a horizontal conical housing located inside the air box, and an axial nozzle for supplying air mixtures located on the front vertical wall of the housing, according to a new technical solution, the conical housing in cross section is made in the form of an ellipse inside the housing, parallel to the vertices of the ellipse along the major axis, the upper and lower plates are connected symmetrically, connected by the sides to the inner surface of the housing, forming channels with I passage of flue gases into the burner, to the torch root of the axial mixture feed nozzle, between the frontal vertical wall of the housing and the inlet ends of the plates, slotted clearances are made, the axial mixture mixture feed nozzle is inserted into the inlet ends of the plates to form an annular gap, and the outlet ends of the air box, housing and the output ends of the plates are inserted inside the embrasure of the boiler furnace with the formation of annular and slotted gaps between them, respectively.

The implementation of the conical body in the cross section in the form of an ellipse, installation inside the body, parallel to the vertices of the ellipse along the major axis, is symmetrical to the upper and lower plates connected by the sides to the inner surface of the body, forming channels with the body for the passage of flue gases into the burner, to the root of the axial torch air mixture supply nozzle, making gap gaps between the front vertical wall of the body and the inlet ends of the plates, introducing an axial air mixture supply nozzle into the inlet ends of the plate tin with the formation of an annular gap, while the outlet ends of the air box, the casing and the outlet ends of the plates are inserted into the embrasure of the boiler furnace with the formation of annular and slotted gaps between them, they provide ignition of dust in the burner device without the use of electric heaters due to suction of flue gases inside burners, to the root of the torch of the axial nozzle of the air mixture, which eliminates the separation of the torch from the burner in the boiler furnace.

In FIG. 1 shows a longitudinal section of a coal burner; in FIG. 2 is a section A-A in FIG. one.

The pulverized coal burner contains a horizontal conical housing 1 located inside the air box 2, and an axial nozzle 3 for feeding the air mixture, located on the front vertical wall 4 of the housing 1. The conical housing 1 in cross section has the shape of an ellipse, and inside the housing 1 parallel to the vertices of the ellipse along the major axis symmetrically mounted upper and lower plates 5, which are connected laterally to the inner surface of the housing 1 so that form channels 6 with the housing 1 for the passage of flue gases into the burner, to the root torch of the axial nozzle 3 of the feed mixture. Between the front vertical wall 4 of the housing 1 and the inlet ends 7 of the plates 5, slotted gaps are made 8. The axial nozzle 3 of the feed of the mixture is introduced inward between the inlet ends 7 of the plates 5 with the formation of an annular gap 9. The output ends of the air box 2, the housing 1 and the output ends 10 of the plates 5 are inserted inside the embrasure 11 of the furnace 12 of the boiler with the formation between them, respectively, of an annular gap 13 and slotted gaps 14.

The axial nozzle 3 for supplying the air mixture contains coaxial nozzles 15 and 16, respectively, for supplying high concentration dust (PVC) and hot air, and the air duct 2 is equipped with an inlet nozzle 17 for supplying hot air installed in the upper part of the air duct 2.

The burner device operates as follows.

When the boiler is running, an air mixture is supplied to the axial nozzle 3 for supplying the air mixture, which enters the inside of the pulverized-coal burner body 1 between the inlet ends 7 of the plates 5. When the air mixture leaves the outlet end of the axial nozzle 3, a rarefaction occurs due to which the suction gasses 14 are sucked through the gap holes 14 flue gases, which are then passed through channels 6, slotted gaps 8 and annular gap 9 enter the torch root of the axial nozzle 3 for supplying air mixtures. As a result, dust ignites inside the burner, thereby eliminating the separation of the torch from the burner inside the boiler furnace.

Tests of the proposed pulverized coal burner at GRES-2 in Zelenogorsk, Krasnoyarsk Territory showed that when the boiler is operated using the inventive pulverized coal burner, dust ignition inside the burner is observed and the torch is not torn off from the burner inside the boiler by suctioning the flue gases from the boiler furnace into the slit gaps 14 And this becomes possible without the use of electric heaters.

Claims (1)

A pulverized coal burner containing a horizontal conical housing located inside the air box and an axial mixture supply nozzle located on the front vertical wall of the housing, characterized in that the conical housing in cross section is made in the form of an ellipse, inside the housing parallel to the vertices of the ellipse along the major axis, symmetrically installed upper and lower plates, connected by the sides to the inner surface of the housing and forming channels with the housing for the passage of flue gases into the burner to The torch’s nozzle has an axial mixture feed nozzle, slotted gaps are made between the frontal vertical wall of the body and the inlet ends of the plates, an axial mixture nozzle is inserted between the inlet ends of the plates to form an annular gap, and the outlet ends of the air box, the case and the outlet ends of the plates are inserted inside the furnace embrasure boiler with the formation between them respectively of annular and slotted gaps.