SU1021872A1 - Furnace - Google Patents

Abstract

The FIRST contains a combustion chamber in the form of a multifaceted prism with a pinch on the rear wall separating it from the cooling chamber, and slot burners located on the front wall of the combustion chamber obliquely downwards, parallel to the bottom overheated slope and at a distance of 0 from it, 25-0.47 of the depth of the combustion chamber, characterized in that, in order to increase the economy and intensify the combustion process, the combustion chamber is equipped with air nozzles placed on the rear wall obliquely upwards, parallel to the lower clamp and slide anovlennymi over slot burners counter them. (L tc 00 th

Description

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

Known furnaces comprising a combustion chamber in the form of a polyhedral prism with a transferred ₅ zhimom separating it from the cooling chamber and the slit burners disposed on the front wall of the combustion chamber obliquely downwards [1].

The disadvantage of these furnaces is the low stability of combustion, which leads to 10 underfurning and reduced efficiency.

Part of these drawbacks are eliminated in a furnace comprising a combustion chamber in the form of a polyhedral prism with a pinch at the rear wall, separating it from the cooling chamber and the slotted burner raspolo- ¹⁵ conjugated to a front wall of the combustion chamber obliquely downwards, parallel to the bottom pinch ramp and spaced from of 0.25-0.47 depth of the combustion chamber. ₂₀

This furnace ensures the maintenance of an increased perimeter level in the entire volume of the combustion chamber, which improves the stability of combustion and the maneuverability of the boiler [2].

However, part of the fuel that has fallen into the upper 25th zone of the combustion chamber does not have time to burn, is carried out into the cooling chamber, which reduces fuel economy.

The aim of the invention is to increase efficiency by intensifying combustion. thirty

The goal is achieved by the fact that in a furnace containing a combustion chamber in the form of a multifaceted prism with a pinch on the rear wall separating it from the cooling chamber, and slot burners located on the front wall of the combustion chamber are tilted 35 but downward, parallel to the lower clamping slope and at a distance from it, constituting 0.25-0.47 of the depth of the combustion chamber, the latter is equipped with air nozzles placed on the rear wall · obliquely upward, parallel to the lower slope of the pinch and installed above the slot burners opposite it /

The drawing shows a firebox, a longitudinal section. ·

The furnace contains a combustion chamber 1 in _{45 in the} form of a multifaceted prism with a pinch 2 on the rear wall 3, separating it from the cooling chamber 4, and slot burners 5 located on the front wall 6 of the combustion chamber 1 obliquely downward, parallel to the lower slope 7 of pinch 2 and the distance S from it, which is 0.25—0.47 times the depth of the combustion chamber 1. The combustion chamber 1 is equipped with air nozzles 8 located on the rear wall 3 obliquely upward, parallel to the lower slope 7 of pinch 2 and installed above the slot burners 5.

The furnace works as follows.

Fuel with part of the air necessary for combustion in the form of an air mixture is introduced into the combustion chamber 1 through burners 5, and the rest of the air through nozzles 8.

As a result of the interaction of the mixture flow with the combustion medium, the fuel in this stream ignites and burns. In this case, the torch after hitting the rear wall 3 of the combustion chamber 1 is divided into two streams. One of these flows makes a loop-like motion above the hearth and passes along the front wall 6 to the exit of combustion chamber 1. The result of such gas movement is the formation of a lower vortex zone of the torch, which serves as a source of reliable ignition of the mixture and ensures the maintenance of high temperatures above the hearth, necessary for stable flow slag. Another of the separated flows makes a V-shaped movement in the upper part of the combustion chamber 1 and, interacting with the air flow supplied through the nozzles 8, moves to the exit of the combustion chamber 1 along the lower ramp 7 of pinch 2. In this case, some of the gases from this stream are sucked out burner jets, resulting in the formation of the upper vortex zone of the torch.

The vortex movement of the upper zone 1 of the torch serves as a source of intense convective exchange between the fuel-air and air flows flowing out from the burners 5 and 8, respectively, which additionally turbulizes the flow, improves mixing of the combustion components, intensifies fuel burning and, therefore, increases efficiency.

The supply of part of the air through the nozzle 8 along the lower ramp 7 of pinch 2 leads to an increase in the concentration of the oxidizing agent in the outlet of the combustion chamber 1, where the fuel-bearing flows coming from the lower and upper parts of this chamber are mixed, which provides favorable conditions for the combustion of fuel in the chamber cooling 4, which also increases efficiency.

Claims (1)

A burner containing a combustion chamber in the form of a multifaceted prism with a pinch on the rear wall separating it from the cooling chamber, and slit burners located on the front wall of the combustion chamber obliquely downward, parallel to the lower slope of the pinch and at a distance of 0.25-0 , 47 the depth of the combustion chamber, characterized in that, in order to increase the efficiency and intensification of the combustion process, the combustion chamber is equipped with air nozzles placed on the back wall obliquely upward, parallel to the lower grip of the pinch and setting prisoners above slot burners counter to them.