SU1633221A1 - Furnace - Google Patents

Abstract

The invention relates to furnaces intended for the combustion of various fuels, and can be used in the energy, chemical and metallurgical industries. The purpose of the invention is to reduce the content of nitrogen oxides in flue gases by organizing two-stage combustion. The furnace contains a combustion chamber 1 and an afterburning chamber 2 separated by a cooled partition 3, which forms a window 4 in the upper part for the passage of flue gases and a burner arrangement 5 in the ceiling part of the window 4 at an angle of 30-40 ° to its plane and at a distance from it not exceeding 0.5 of the width of window 4, air nozzles 6 2 Il-I are installed,

Description

The invention relates to devices for burning liquid gaseous or pulverized fuel, and can be used in the energy, metallurgical, chemical and other industries,

The purpose of the invention is to reduce the content of содержанияχ in the combustion products by organizing a two-stage combustion.

In Fig.1 shows a firebox, a longitudinal 10th section: in Fig.2 - view A in Fig.1.

The furnace contains a shielded combustion chamber 1 and an afterburner 2, separated by a cooled transverse partition 3 with a window 4 in the ceiling part 15, and a burner 5. Air nozzles 6 are installed in window 4 at an angle of 30 - 40 ° to the plane of window 4 towards the flow combustion products at a distance K from the specified plane, not exceeding half of the width of the window B equal to 0.3 - 0.4 height B of one of the chambers 1 and 2.

The furnace works as follows.

The fuel and part of the air are supplied to the burner 5, where they are mixed 25 and the mixture is ignited. As a result of the burning of the smallest fuel fraction, heat is generated that provides heating and gasification of the bulk of the fuel. Flue gases with products of incomplete combustion 30 wash the partition 3 and enter the window 4, where they run onto the air curtain created by the air flow supplied from the nozzles 6. When two flows meet, one of them brakes 35, accompanied by an increase in static pressure in the stream. As soon as the pressure in the flow exceeds the pressure in the barrier, the curtain breaks through and the flow resumes. then the cycle repeats, i.e. A pulsating operation mode of the furnace begins, accompanied by the emission of shock waves propagating in the volume of the furnace. "In the near zone of window 4, before and behind it, the gasified part of the fuel is burned out.” Thanks to a two-stage air supply circuit, the combustion process is distributed evenly throughout the entire volume of the furnace, which prevents the formation of high-temperature local zones. which inhibits the oxidation of nitrogen contained in fuel and air.

The width Г of the chamber 2 (the distance between the partition 3 and the rear wall of the chamber 2) must be equal to or less than the width of the window 4, i.e. window 4 should not form a pinch in the gas-air path of the furnace, so as not to cause a deterioration in the aerodynamic characteristics of the furnace.

Claims (1)

Claim A furnace containing a shielded combustion chamber and a combustion chamber separated by a cooled transverse partition with a window in the ceiling, and a burner device, characterized in that. in order to reduce the content of ΝΟχ in the combustion products by organizing a two-stage combustion, the furnace additionally contains air nozzles installed in the window at an angle of 30 - 40 ° to its plane towards the flow of combustion products at a distance from the specified plane not exceeding half the window width equal to one turn, 0, 3-0.4 heights of one of the cameras. Type A