RU15385U1 - GAS BURNER - Google Patents

Description

Burner gas device

The utility model relates to the field of energy and can be used in burners for burning test products from exploratory wells, during the treatment (burning) of wastewater from barns at drilling sites, and in flare ground installations.

A burner device is known that contains a gas manifold with nozzles and injectors arranged coaxially with nozzles (see VNIINEFTEMASH catalog “burners for tube furnaces, TsINTIHIMNEFTEMASH, M. 1990 p. 20).

The closest in technical essence is the burner device selected by the applicant for the prototype, which contains a central gas collector with a gas supply unit located around the collector, and the gas supply unit is made in the form of a group of vortex burners, each of which has an annular nozzle, the burners are connected in pairs by tangential pipes connected radial tubes with a gas manifold. (see av. St. N1137852, F23D17 / 00, 1983).

The disadvantage of these devices is the low rate of gas flow from the annular nozzles of the vortex burners, which leads to incomplete combustion and a narrow regulation area.

The technical problem to which the utility model is directed is gas outflow from annular gas vortex burners, and operational reliability and increased productivity due to an increase in the outflow velocity of gas from vortex burners and providing operational regulation of gas flow and smokeless gas combustion.

The solution to this problem is achieved by the fact that the gas burner device containing a central gas manifold with a gas supply unit with a group of vortex burners with a housing, each of which has annular nozzles, according to a useful model, each vortex burner of the gas supply unit is equipped with an additional annular nozzle coaxially located outside the main nozzle with a gas nozzle and an annular partition with cylindrical nozzles, while the shell is located between the coaxially arranged annular nozzles, with odka

cylindrical nozzles located between the casing and the housing of the vortex burner and the ratio of the area of the cylindrical nozzles to the area of the outer annular nozzle is 0.3-0.5.

In FIG. In FIG. In FIG.

The burner gas device comprises a central gas manifold 1 with a gas supply unit 2, a group of vortex burners 3 with a housing 4. Each vortex burner is provided with nozzles 5 and 6 coaxially arranged in one another, a shell 7 located between the coaxially located nozzles 5 and 6, an annular partition 8 with cylindrical nozzles 9 located between the shell 7 and the housing 4 of the vortex burner, the ratio of the area of the cylindrical nozzles and the area of the outer annular nozzle 6 is 0.3-0.5, radial nozzles 10, tang ialnye tubes 11, the burner has cavities 12,13,14.

The burner gas device operates as follows: gas from the manifold 1 enters through the radial nozzles 10 and the tangential nozzles 11 into the vortex burners 3. The tangential arrangement of the nozzles 11, relative to the cavity 12 of the burner 3, ensures the swirling of the gas stream leaving the inner annular nozzle 5, due to rarefaction through the internal cavity 13 of the burner 3 is sucked in primary air. The gas-vortex flows of the burners 3 have a sufficient speed for the suction of part of the secondary air through the gaps between the burners 3, nozzles 10, 11 and the collector 1, which contributes to the cooling of all parts of the burner device.

Gas burner 3 has two annular nozzles 5.6. Gas entering the tangential nozzle 11 into the cavity of the burner 12 is divided into two streams: the first stream enters the outer annular nozzle 6, through cylindrical nozzles 9 is mixed with air; the second stream enters the inner annular nozzle 5 and ensures the suction of primary air through the cavity 13.

To increase the rate of gas outflow from the inner main annular nozzle 5 and increase the gas velocity after the burner, an annular partition with cylindrical walls 1 is provided in it — a gas burner device is shown, view of the Vortex burners. 2 is a section along AA of FIG. 1. 3 is a section along BB of FIG. 2.

nozzles 9 mounted between the shell 7 and the housing 4 of the vortex burner. In this case, the first flow passes through the nozzles 9 and enters the cavity 14, while reducing its speed after exiting the cylindrical nozzles 9. Moreover, the ratio of the area of the cylindrical nozzles to the area of the outer annular nozzle should be 0.3-0.5.

The second vortex gas flow passes through the main inner annular nozzle 5 with a speed greater than about 3 times that of the outer annular nozzle.

The claimed combination of features makes it possible to increase the reliability of operation and increase productivity by increasing the rate of gas outflow from the vortex burners, provide operational regulation of gas flow and smokelessly burn gas.

The applicant is the patent holder: LLC NPK Kedr-89 General Director 3 K.V. Baklashov

Claims (1)

A gas burner device comprising a central gas manifold with a gas supply unit with a group of vortex burners, with a housing, each of which has annular nozzles, radial and tangential nozzles, characterized in that each vortex burner of the gas supply unit is provided with an additional annular nozzle coaxially located outside the main nozzle , the shell and the annular partition with cylindrical nozzles, while the shell is located between the coaxially arranged annular nozzles, the annular burnout A plate with cylindrical nozzles is installed between the shell and the casing of the vortex burner, and the ratio of the area of cylindrical nozzles to the area of the outer annular nozzle is 0.3-0.5.