SU1666857A1 - Pulverized coal furnace - Google Patents

Abstract

The invention relates to the field of fuel combustion and can be used in a thermal power plant. The purpose of the invention is to improve the quality of combustion and operational reliability. This is achieved by the fact that the nozzles 7 and 8 of the tertiary air are installed in two rushes opposite the pulverized coal burners 3 and 4. The upper nozzles 8 are installed with a tangentially conventional circle, and the lower nozzles 7 are installed along the walls of the combustion chamber 1. 1 hp ff, 2 ill.

Description

1

The invention relates to the field of fuel combustion and can be used in a thermal power plant.

The aim of the invention is to improve the quality of combustion and operational reliability,

Figure 1 shows the furnace, a longitudinal section; figure 2 - section aa in figure 1.

The coal-fired furnace contains a vertical prismatic shielded combustion chamber 1 with a cold funnel 2. The dust-burning burners 3 and 4 are mounted on the walls of the combustion chamber 1 in two floors and directed tangentially to the conventional circle, and the area of the upper air nozzles 5 of the secondary air burners 4 is 0.6 -0.7 square nozzles 6 secondary air burners 3 lower rus.

The nozzles 7 and 8 of the tertiary air are mounted above the burners 3 and 4 in two Rus and are directed opposite to the burners 3 and 4, and the nozzles 7 of the lower Rus are oriented along the walls of the chamber 1. In addition, the nozzles 8 are turning.

Charcoal firebox works as follows.

The dusty mixture together with the secondary air enters through the angle burners 3 and 4 into the combustion chamber 1. Due to the directionality of the burners 3 and 4 tangentially to the conventional circle in chamber 1, a vortex is formed, which occupies the middle part of the cross section of chamber T, without touching the wall screens. When this happens up to 90% burnout fuel. Above the burners 3 and 4, the torch starts spinning. In the upper tusk of burners 4, fuel combustion occurs with a lack of air, since the area of nozzles 5 of the secondary air of burners 4 of the upper tier is 0.6-0.7. The area of nozzles 6 of secondary air of burners 3 of the lower tier, where there is an excess of air in the burner 3 1.0-1.1.

The tertiary air is supplied at high speed into chamber 1 by turning the main torch through the nozzles 7 along the walls and through the nozzles 8 of a tangentially conventional circle. At the same time, the air supply through the nozzles 7 slows down the torch twisting due to the high speed and the opposite direction of movement. air through the nozzle 8 to the center of the chamber 1.

This organization of the tertiary blowing allows reducing fuel burn not only by improving the mixture formation, but also by blocking the near-wall and central zones of chamber 1 with an air curtain,

Claims (2)

which prevents unburned fuel particles from being carried out from the zone of active combustion. The nozzles 8 have the ability to rotate, which allows to regulate the combustion process. Invention Formula 1. A coal-fired firebox containing a vertical prismatic shielded combustion chamber with a cold funnel, pulverized coal burners located along the walls of the chamber tangentially to the conditioned circle and equipped with aero mix and secondary air nozzles, and tertiary air nozzles installed above the coal-free burners with different by that In order to improve the quality of combustion and operational reliability, the upper-angle dust-burning burners are made with a secondary air nozzle cross-section area equal to 0.6-0.7 nozzle cross-section area the secondary air of the lower rusa of the burners, and the nozzles of the tertiary air are placed in two rusas and directed oppositely to the burners, with the nozzles of the tertiary air of the upper rus installed tangentially conventional 0 the circumference, and the nozzle of the tertiary air of the lower Rus - along the walls of the combustion chamber. 2. Fire chamber pop.1, characterized in that the nozzles of the tertiary air of the upper shaft are rotatable. Aa with Yig 2 4. w / H f