SU1216564A1 - Method of gaseous fuel combustion - Google Patents

Description

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The invention relates to metallurgy and energy and can be used in the combustion of gaseous. fuel in various units when it is necessary to regulate the thermal performance of the flame.

The aim of the invention is to expand the range of regulation of the characteristics of the plume by changing the degree of foaming.

The drawing shows a diagram of the supply of air, gas and foaming liquid.

Combustion air flows out of housing 1, in which a duct 2 is placed for supplying gas and a nozzle 3 for producing foam. The nozzle has a channel 4 for supplying a foaming solution and a channel 5 for supplying gas with a nozzle 6 for supplying air. On the supply paths, control valves 7–9 are installed. To clarify the combustion method, an outflow of air 10 is shown, containing gas foam volumes 11 and a torch 12. Any emulsions with added surfactants, waste water / , used lubricating oils, flooded liquid fuel,

The method is implemented as follows.

The main stream of air flows out in the form of a jet 10. Gaseous fuel is supplied through channel 2 or 5 depending on the required combustion mode. If valve 8 is closed and valve 7 is open, gas is supplied to channel 2 and flows out of it in the form of a jet. Two parallel jets of gas and air develop in the furnace volume. These jets move slowly, especially at equal flow rates, which ensures gas flaring in a long flare.

If the valve 7 is closed and the valve 8 is open, then the gas flow through channel 5

Compiled by T. Sergeeva Editor Oh, Yurkovetska Tekhred L. Mikesh Corrector m, Samborska

Order 987/47 Circulation 515 Subscription

VNGOSHI USSR State Committee

for inventions and discoveries 113035, Moscow, Zh-35, Raushsk nab., d, 4/5

Filial PSh1 Patent, g, Uzhgorod, st. Project, 4

enters the nozzle 3, into which a foaming liquid is supplied through channel 4. As a result of the joint dispersion of gas and foaming liquid in the nozzle 3, foam is formed, which flows into the air stream. The mixing of gas with air does not occur intensively, but as the foam collapses, which leads to extended combustion at a considerable distance from the nozzle in the absence of a pronounced maximum temperature,

The combustion method can be repacked with a simultaneous supply of gas through channels 2 and 5. At crush, the gas flowing out of channel 2 forms a steady pilot flame 12 in the burner outlet, and the gas

flowing out of the nozzle 3 and formed as a foam, is distributed and burned over a large length of frame,

When the valve 9 is open and the gas-air mixture is supplied to the nozzle 3, practically all of the fuel in the form of separate gas-air volumes or in the form of foam flow flows out from the opening of channel 1 and after ignition forms a stable short

Torch pre-prepared mixture directly into the outlet of the burner.

With significant air velocities, ha in channel 2 and foams in channel 3

gas-air volumes 11, enclosed in spherical shells, are not ignited. They move a large distance from the burner, where they are ignited from an autonomous ignitor or heated working fluid.

Thus, changing the location and direction of the gas and air supply, changes the degree of foaming and expands the range of regulation of the characteristics of the flame.

Claims (1)

METHOD FOR COMBUSING GAS-FUEL FUEL by feeding it together with a foaming liquid and mixing the resulting foam with air, characterized in that, in order to expand the regulation limits of the characteristics of the torch by changing the degree of foaming, part of the gaseous fuel is preliminarily diverted and sent in parallel flow to be mixed with air at the same time as mixing the latter with foam.