SU1744368A1 - Furnace - Google Patents

Description

The invention relates to chemical and power engineering, in particular to furnaces for burning sulfur, heavy fuels and ballasturized gas emissions.

The purpose of the invention is to increase the efficiency of combustion of heavy fuels.

The drawing shows the combustion device, a general view.

The furnace consists of a cylindrical body 1 with a front end wall 2 and an outlet embrasure 3. Between the wall 2 and output embrasure 3 at a distance of 0.50, 7 of the diameter of the combustion device from the wall 2 a transverse partition 4 is installed with gas windows 5. In the front compartment 6 limited by end wall 2 and partition 4, burner devices 7 or nozzles 8 are installed. Air nozzles 9 are radially mounted along partition 4 in front compartment 6 along the conical surface, the angle at the top of which is not exceeding t 90 °, has air nozzles 10. Between the partition 4 and the outlet porthole 3 fitted tangential air

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nozzles 11. In the peripheral gas windows 5, guide vanes 12 are installed, which orient the flow of gases from compartment 6 against the air flow from tangential nozzles 11. Peripheral gas windows 5 and radial air nozzles 9 are displaced relative to each other.

The furnace works as follows.

Sulfur is supplied through nozzles, mainly to zone 6. A portion of air is supplied through air nozzles 9 and 10 for combustion and evaporation of sulfur. The rest of the air is supplied to the outlet compartment between the transverse bulkhead 4 and the outlet embrasure 3 through tangential nozzles 11. The products of combustion and evaporation of sulfur through the peripheral gas windows 5 in the bulkhead 4 enter the outlet compartment. Due to the guide vanes 12, the gas flow is curled in the opposite direction to the air flow through the nozzles 11, which provides conditions for a good displacement.

Due to this design: placing the transverse partition at a distance of 0.5-0.7 of the internal diameter of the combustion device, and the location of the air nozzles in zone B, a vortex toroidal chamber is formed, in which optimal conditions for the preparatory stages are ensured: good mixing and recirculation of hot combustion products in the fuel spray area. Due to the displacement of the radial air nozzles 9 and the peripheral windows 5 relative to each other, a directed vortex motion of gases is formed. When the flow of gases rotates along the axis of the torus, a zone of reduced pressure forms where sprayed sulfur or gaseous emissions are introduced. Steam-gas mixture through the peripheral window 5 enters the zone of secondary air entering tangentially or radially, which ensures good mixing.

When using the invention, the efficiency of combustion of heavy fuels is improved.

Claims (3)

1. A furnace containing a cylindrical body with fuel and air supply nozzles, an exit embrasure and a transverse refractory partition with peripheral windows dividing the fire chamber into two communicating through the front wall and embrasure These compartment windows are front and exit, and the output compartment is equipped with additional air nozzles, characterized in that, in order to increase the efficiency of burning heavy fuels, The front compartment of the furnace is made in the form of a torus with an 8-shaped cross-section bounded by the front wall and transverse partition walls, the fuel injection nozzles are placed perpendicular to the furnace axis, and the air supply nozzles are placed symmetrically around the perimeter of the partition with their radial direction axes of the firebox and on the front wall of the front compartment, and the latter are located along an imaginary conical surface, the top of which is located on the axis of the furnace in front of the compartment, and the radial nozzles are symmetrically shifted relative to the peripheral windows in the partition. 2. A furnace according to claim 1, characterized in that the additional nozzles of the output compartment are located opposite the peripheral windows in the partition. 3. The furnace of PP. 1 and 2, from which the guide vanes are installed in the windows of the refractory partition. eight YU 6-6