DE1120629B - Melting chamber firing with several parallel-axis flame cylinders in one furnace - Google Patents

Description

Melting chamber firing with several parallel-axis flame cylinders in a furnace The invention relates to a furnace with several melting chambers parallel-axis flame cylinders in a combustion chamber, which are symmetrical by several arranged burners are fed, and consists in that the fuel nozzles and the air nozzles arranged between them approximately in the direction of the between two Flame cylinders imaginary center plane from above against the ground or against a the wall opposite the burners blow while the outer air nozzles against each other and are directed against the imaginary median plane.

Melting chamber furnaces with several parallel-axis flame cylinders in a firebox fed by several symmetrically arranged burners are known. With them, the burner jets are almost opposite directed or tangent to the flame cylinder away from the point at which the flame cylinders touch each other. This will keep the symmetry at Shutting down a burner group completely destroyed because then the remaining flame cylinder fills the entire furnace.

It is desirable, on the one hand, to be inexpensive when using all burner nozzles To achieve conditions for combustion and slag separation, on the other hand approximately to maintain the flame pattern when switching off a burner group. This is due to the arrangement of the burner groups in several perpendicular to the swirl axis Levels possible. However, this known arrangement assumes that all of the twist axis parallel wall surfaces of the combustion chamber are accessible. In many cases it is not accessible.

The invention gives the possibility, even with relatively poor Accessibility of the wall surfaces two counter-rotating flame cylinders themselves to be maintained when switching off burner groups without having to switch them to a specific one Axial position of the combustion chamber is bound.

A furnace designed according to the invention is shown vertically in Fig.1 Symmetry section, in Fig. 2 in the vertical section, perpendicular to that of Fig. 1, shown. Fig. 3 shows a simplified representation corresponding to Fig. 2 Section through a wide furnace with four flame cylinders.

In Fig. 1 and 2, the cross section of the combustion chamber 1 has a regular, unequal pentagon. The pulverized fuel is passed through groups of burners 2, 3, 4, 5 with inclination towards each other and symmetrical to the perpendicular central plane blown through the ceiling 6 of the furnace. Second air nozzles 7, 8, which between the dust nozzles 2 and 3 or 4 and 5, blow approximately in the same direction one like the dust nozzles. Third air nozzles 11, 12 blow out of the side walls 9, 10 in the horizontal direction, so that two flame cylinders are created with approximately horizontal Axes that touch each other in the same direction of flow. Draw the fire gases through the shaft 13 and into the contact heating surfaces of the fired steam generator, while the slag flows through the bottom opening 14. The walls of the firebox are provided in a known manner with cooling tubes 15 of the fired steam generator.

In the case of partial load operation, they can be on one side of the plane of symmetry located nozzles are switched off. The flame of the still in use Nozzle then forms two flame cylinders again when the air nozzles 11 and 12 are in operation are. This creates the best ignition for reactivating the nozzles. In the case of a furnace with four flame suppressors as shown in Fig. 3, the symmetrical Arrangement can be maintained even at half load. Preserved the flame cylinders for the purpose of better use of space approximately elliptical cross-section, and it can the shape of the cross-section of the combustion chamber can also be similar to an ellipse.

The arrangements described are for both horizontal and inclined as well as for the vertical axis position of the flame cylinder. The vertical axis position has the advantage that the fire chamber is narrowed or expanded on all sides in the course of the flame without disrupting the flow of slag.

Claims (2)

CLAIMS: 1. slag tap furnace having a plurality of parallel-axis flame cylinders in a combustion chamber, which are fed by a plurality of symmetrically arranged burners, marked thereby characterized in that the fuel nozzles and arranged between them air nozzle approximately in the direction of the imaginary between two flame cylinders central plane from above against the bottom or blow against a wall arranged opposite the burners, while the outer air nozzles are directed towards one another and towards the imaginary central plane. 2. Melting chamber firing after Claim 1, characterized in that the cross section of the combustion chamber corresponds to the cross section is adapted to the desired flame cylinder. Considered publications: British Patent No. 451640; U.S. Patent No. 2,204,351; Excerpts from German Patent applications Volume 9 of November 1, 1948, p. 445 (D 92096 V).