SU1638447A1 - Boiler furnace - Google Patents

Abstract

The invention relates to the field of fuel combustion and improves the quality of combustion. This is achieved by the fact that the nozzles 4, 5 and 6, respectively, of the air mixture, high-calorific gas and low-calorie gas are located below each other and directed to different conventional circumferences, which provides separate combustion of various fuels. 5 il.

Description

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

The aim of the invention is to improve the quality of combustion.

In FIG. 1 schematically shows a boiler furnace, a longitudinal section; in FIG. 2 is a section AA in FIG. 1; in FIG. 3 - section BB in FIG. 1; in FIG. 4 is a section BB of FIG. 1; in FIG. 5- section GG in FIG. 1.

The boiler furnace contains a prismatic vertical combustion chamber 1, on the wall 2 of which slotted nozzles 3-6 of secondary air, aerosol mixtures of high-calorie and low-calorific gas are installed. The aerosol nozzle 4 is located above the high-calorie gas nozzle 5, and the nozzle 5 is above the low-calorie gas nozzle 6, and the secondary air nozzle 3 is located between the nozzles 4-6 and the near side wall 7 of the combustion chamber 1, Nozzles 3 are made with a height not less than the total height of the fuel nozzles 4-6. The nozzles 4 and 5 of the air mixture and high-calorie gas are installed parallel to the secondary air nozzles 3, and the low-calorific gas nozzles 6 are installed at an angle to the nozzles

3. Nozzles 4-6 are directed tangentially to conditional circles 8-10. The diameter of the conditional circle 8 to which the nozzles 4 are directed is less than the diameter of the conditional circle 9 to which the nozzles 5 are directed, and the diameter of the conditional circle 10 to which the nozzles 6 are directed is equal to or greater than the diameter of the conditional circle 9 to which the nozzles 5 are directed. Nozzles 3 secondary air can be equipped with baffles 11, dividing them into autonomous channels, and between the nozzles 4 of the mixture and nozzle 5 of high-calorie gas can be located tangential nozzle 12 of the exhaust air.

The furnace works as follows.

Pulverized coal fuel in the form of aerosol mixtures or dust of high concentration, secondary and exhaust air, coke oven and blast furnace gas through nozzles 3, 4, 5, 6 and 12 are fed into the combustion chamber 1, where they form three interacting flares with circle diameters of 8-10.

The supply of pulverized coal near the axis of the combustion chamber 1 along the circle 8 provides reliable ignition due to suction of hot flue gases from the axial zone of the chamber 1, as well as protecting the screens from slagging by the secondary air flow from the nozzle 3. Blast furnace gas from the nozzle 6, mixing with the secondary air from the nozzle 3, located at an angle to the nozzle 6, forms a torch with a circle diameter of 10. With an increase in the flow rate of blast furnace gas, diameter 10 increases, increasing the speed of the torch near the screens and, accordingly, increases the effective component of heat transfer in chamber 1, thereby compensating for the decrease in the radiation component of heat transfer due to the supply of low-calorific blast furnace gas to chamber 1.

The supply of exhaust air through the nozzle 12 helps to reduce the mechanical underburning of solid fuel by preventing the separation of unburned particles from the pulverized coal flame, and also prevents the early mixing of aerosol with coke oven gas.

As a result of the organization of separate combustion of high-calorie and low-calorific gas fuel and pulverized coal fuel, heat losses with chemical and mechanical underpressure are reduced and the convective component of heat transfer increases with an increase in the consumption of low-calorific fuel.

Claims (1)

Claim A boiler furnace containing a prismatic vertical combustion chamber, on the walls of which slit nozzles of secondary air, high-calorie and low-calorific gas mixtures are installed tangentially to the conventional circles, the diameter of the conditional circle to which the air-mixture nozzles are directed is less than the diameter of the conventional circles to which the high-calorie nozzles and low-calorific gas, characterized in that, in order to improve the quality of combustion, the nozzle aerosol, high-calorie and low-calorie gas is located the height of the combustion chamber on top of each other, and the secondary air nozzles between the fuel nozzles and the near side wall of the combustion chamber and are made with a height of not less than the total height of the fuel nozzles, the nozzles of the mixture and high-calorie gas are parallel to the secondary air nozzles, and the low-calorific gas nozzles at an angle to the nozzles of the secondary air, and the diameter of the conditional circle to which they are directed is equal to or greater than the diameter of the conditional circle to which the nozzles of high-calorific gas are directed. Bb Bb