RU2134391C1 - Method for fuel combustion in industrial furnace - Google Patents

Abstract

FIELD: procedure of combustion of natural gas or its mixtures with other gases (air-gas mixture) in industrial furnaces used for roasting of products in refractory, construction and metallurgical industries. SUBSTANCE: method for combustion of natural gas provides for gas saving due to flameless burning and reduction of CO level in flue gases. Fuel is mixed with air in the first chamber with excess concentration, and in the second chamber hot air is mixed into the obtained air-gas mixture in the ratio of air-gas mixture flow rate to hot air flow rate within 0.45 to 0.9 in quantity determining the final concentration of fuel, the ratio of fuel concentration in the first chamber to fuel concentration in the second chamber makes up 2 to 2.6. Flameless gas burning at oxidizing atmosphere in the furnace occurs due to complete mixing of gas with air. EFFECT: saved fuel and produced oxidizing atmosphere in furnace decreasing exaction of CO into the atmosphere. 2 cl

Description

 The invention relates to techniques for burning natural gas or mixtures thereof with other gases / gas-air mixture / in industrial furnaces used for firing products in the refractory, construction and metallurgical industries.

 Closest to the essence of the invention to the method under consideration is a method of burning fuel in an industrial furnace, comprising supplying a stream of compressed air to a furnace volume inside a fuel stream at a ratio of the speed of the fuel stream to the speed of the stream of compressed air 0.02-0.4 wherein the change in the speed of the stream of compressed air carried out at a constant flow rate. / SU 1252634, F 27 B 7/36, 08.23.86 /.

 In this way, flareless gas burning cannot be obtained due to incomplete mixing of gas with air and, as a result, a reducing medium in the furnace. The specificity of gas flaring involves an increase in the radiant component of heat transfer due to incomplete combustion of gas, which leads to increased fuel consumption.

 The objective of the invention is flameless gas combustion and the creation of an oxidizing environment in the working furnace channel.

 The problem is solved in that in a method comprising supplying a jet of compressed air to a fuel volume inside a fuel jet, the fuel is mixed with constant pressure compressed air in the first chamber with excessive concentration, and in the second chamber hot air is mixed with the obtained air-gas mixture at a ratio of the jet velocity gas-air mixture to the hot air speed of 0.49 - 0.9 in an amount that determines the final concentration of fuel. The ratio of the concentration of fuel in the second chamber may be 2-2.5. Flameless gas combustion and the creation of an oxidizing medium in the working kiln channel is achieved due to complete preliminary mixing of fuel with air due to the separation of fuel, compressed air and hot air flows over the volume of chambers with optimal control of the fuel concentration in the mixing channel formed by two chambers.

 The method is as follows.

The furnace is heated by natural gas with a calorific value of 3.41 • 10 ⁴ kJ / m ³ . The gas flow to the furnace is 700 m ³ / h. The technological temperature in the furnace channel 1500 ^o C.

 Consistently, natural gas with a pressure of 0.02 MPa, compressed air with a pressure of 0.1 MPa, flowing inside the jet of fuel at a constant pressure, is fed into the combustion chamber volume of a rotary kiln through a channel of a gas burner device formed by two combined chambers, while in the first chamber set the fuel concentration - K1.

The resulting gas-air mixture enters the second chamber, where hot air is mixed with it / t = 700 ^o C / with the ratio of the air-gas mixture to the speed of hot air 0.45-0.9 in an amount that determines the concentration of fuel K2, and the ratio K1 / K2 = 2-2.5.

 The resulting hot combustion products enter the flame channels formed by the shaped bricks of the furnace lining. The lining of the furnace heats up and thermally affects the calcined material.

 The method allows to obtain gas savings and reduce the level of CO in flue gases due to flameless fuel combustion.

Claims (2)

 1. A method of burning fuel in an industrial furnace, comprising supplying a jet of compressed air to the furnace volume inside the fuel jet, characterized in that the fuel is mixed with constant pressure compressed air in the first chamber with excessive concentration, and hot air is mixed in the second chamber with the resulting gas-air mixture with the ratio of the speed of the gas-air mixture to the speed of hot air 0.45 - 0.9 in an amount that determines the final concentration of fuel.  2. The method according to claim 1, characterized in that the ratio of the concentration of fuel in the first chamber to the concentration of fuel in the second chamber is 2 to 2.5.