SU349859A1 - A METHOD FOR INCREASING FLAMMNESS - Google Patents

Description

The invention relates to the technique of heating with natural gas of fiery, in particular methodical, heating furnaces.

There is a known method of increasing the luminosity of a natural gas flame in the methodological method with the separation of the feed gas into the main gas stream and the self-carburing gas stream.

The proposed method differs from the well-known fact that the flow of self-carburizing gas under one pressure with the main gas flow is fed at an angle from 0 to 60 ° into the working space of the main gas, which is supplied to the furnace with combustion air. the total amount of gas with the required flow rate, which eliminates the need for throttling the pressure of the self-stabilizing gas and adjusts the length and luminosity of the flame.

In the drawing, a diagram of the omission of the proposed method.

The method consists in the following: when heating a fiery furnace / natural gas, it is supplied by two streams: a large (60-90%) main gas and a smaller (10-40%) self-carburing gas. Osiobium gas is fed to the incineration but to the usual gas path to the burner 2 of any type of tina, except injection, CO, with everything necessary for complete combustion

total gas amount of air. The main pelvis burns 3 burners in the prechamber, and if it is missing, it is directly in the working area with 4 burners with an air flow factor exceeding the value of the specified total air flow factor for nothing.

Excess oxygen, heated to the temperature of the products of the main flame of the furnace, is subsequently used to afterburn the self-carburing gas.

The self-carburization gas under the same pressure as the main gas is supplied to the working space 4 by one or several streams through the lance 5 to the zone 6 of intensive recirculation of the volatile gases located between the part A of the main gas flame and the surface of the heated material 7. High-temperature recirculation free-oxygen gases in which they are insignificantly mixed with the self-carburization gas provide for rapid heating of the self-carburization gas and deep pyrolysis of the methane and oxygen contained in it.

other hydrocarbons. The low content of free oxygen in the recirculation furnace gases creates favorable conditions for the occurrence and relatively long existence of relatively

glomeratov. The heated and partially decomposed self-stabilizing gas together with the pyrolysis products at the exit of the recirculation zone 6 is mixed with the combustion products of part B of the main gas flame, undergoes further pyrolysis and ensures the luminosity of the flame in the furnace working space and burns out within this space due to the main flame oxygen gas.

Since the self-carburizing gas has the same pressure as the main gas, the aerodynamic characteristics of the torch (rigidity, flatness, speed, etc.) provided by the main burner do not change.

When the angle between the flows of the main gas and the gas of self-stabilization changes, the conditions for the mixing of the flows change, which makes it possible to control the degree of thermal decomposition of methane and hydrocarbons, and consequently, control the length

and luminous intensity of the nlameni.

Subject invention

A method for increasing the luminosity of a natural gas flame, for example, in a method furnace with separation of feed gas into a main gas stream and a self-carburization gas stream, characterized in that in order to eliminate the pressure throttling of a gas sa.ocar (regulation and regulation for the luminosity of the flame, the flow of self-balancing gas under the same pressure with the pan of the main pelvis is served at an angle from O

up to 60 ° into the working space of the furnace and the recycle zone of the products of combustion of the main gas, which is supplied for combustion with all the air required for burning the total amount of gas with the required flow coefficient.

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