SU1179025A1 - Method of oil-gas burner operation - Google Patents

Description

The invention relates to energy and can be used for the combustion of fuel oil and combustible gas in various thermal units, for example, in furnace installations. five

The purpose of the invention is to increase efficiency by reducing the cost of the supply of gases in the recycling.

The drawing is represented by gas.

oil burner that implements the pre- ^and lagged method.

The burner contains a channel 1 for fuel oil and channels 2-5, respectively, of central air, combustible gas, recirculation gases and peripheral air with medium supply boxes 6-8 of central air, recirculation gases and peripheral air. The wall separating ducts 7 and 8 of the recirculation gases θ ² minutes peripheral air box 9 satisfied with changeover damper 10 cantilever type, and the stopper 11 move slide 10 towards the cover an air supply ²⁵ in peri- feriyny channel 5.

Gas-oil burner works as follows.

When fuel oil is burned in a working recirculation system, fuel oil is supplied through channel 1 to the nozzle, recirculation gases through channel 4 and air through central and peripheral channels 2 and 5. Gate valve 10 is set to position at which all 35 air is directed in the peripheral channel 5. The flow of recirculation gases in the root zone

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torch causes a decrease in the temperature of combustion, and therefore by changing the amount of these gases it is possible to regulate the emissivity of the fuel oil torch, including to the level of radiation of the torch formed in the firebox during gas combustion. Along with this, the amount of nitrogen oxides generated in the plume is significantly reduced.

When combustible gas is burned in an inactive recirculation system, combustible gas is supplied through channel 3, and central air through channel 2, peripheral gas through channel 4. Shiber 10 is set in position until it stops against limiter 11, in which the main amount of peripheral air is directed through channel 4 , and a small part - through channel 5 for cooling the exit edges of this channel. The displacement of peripheral air into the channel 4 adjacent to the channel 3 for combustible gas contributes to the intensification of gas combustion in connection with the flow of mixing processes at an earlier stage of torch formation.

Intensification of gas combustion is a positive factor, as well as the flow of recirculation. gases in the fuel oil torch, acts in the direction of convergence of the emission characteristics of the flares of both these fuels.

Claims (1)

METHOD OF WORK OF A GAS-MAZUT BURNER with channels of combustible gas, recirculation gases, primary and secondary air, which is different in that, in order to improve efficiency, a part of the secondary air flow is bypassed into the recirculation gas channel. , _{I am} 8C,. „1179025 > 1179025