RU2002163C1 - Burner device for surface torch unit - Google Patents

Description

tops 16. At the nozzle exit 9 there is a pilot burner 17, and the bottom 18 of the nozzle 9 is made heated (by steam or an electric heater), the height H of the vortex chamber 1 is from 0.7 to 0.9 of its inner diameter D. and the distance B between the upper ends of the nozzle of the vortex chamber t and the nozzle 9 is from 0.2 to 0.4 of the height H of the vortex chamber 1.

The burner device is mounted in a combustion chamber of a surface flare unit and operates as follows. Exhaust gas. intended for burning in a ground flare, it is fed through a tangential nozzle 7 into a vortex chamber 1, where it is twisted and, bending around the partition 4 and making a loop-like movement with 180 ° rotation. enters from the outer cavity 6 into the inner cavity 5 and through the slotted nozzle 15 into the zone of formation of the gas-air combustible mixture. In this case, a liquid phase (condensate), which may be contained in the waste gas, is separated in the vortex chamber. The separated liquid phase is collected in the lower zone of the vortex chamber 1 and is conveyed through the pipe 11 by the pressure of the waste gas into the axial channel 10 of the nozzle

Claims (4)

The claims 1. BURNER DEVICE FOR A GROUND TORCH INSTALLATION, containing coaxially arranged shells, an annular bottom and a gas supply pipe forming a vortex chamber with a central air channel, characterized in that the vortex chamber is made with a tangential gas supply pipe and is provided with a partition between the installed shells and with a gap relative to the bottom and dividing the vortex chamber into internal and external cavities, and in the central air channel there is an additional nozzle whose axial channel connected by a pipeline transporting the liquid phase, with the zone of the vortex chamber, located below the level of the end wall of the partition, 9. Through the central channel 8, air is supplied to the burner in the amount necessary to burn the entire volume of waste gas and condensate leaving the slot nozzle 15 without pre-mixing. Gas is introduced into the sawing channel 13 of the nozzle 9, which may be a vortex, through radial conduits 14, which is taken from the outer cavity of the vortex chamber 1 and sprayes the liquid phase into the air stream. The burner device is ignited by means of a pilot burner 17, which may be, for example, an injection type with remote electric ignition. As a result of the vortex movement of the main gas stream in the proposed device, the liquid phase is separated, it is withdrawn from the vortex chamber, followed by atomization in the nozzle, which ensures efficient and reliable combustion of the waste gas containing the liquid phase both at nominal flow rates and at a sharp decrease in load, and the choice of geometric parameters determines the stabilization of the flame and the completeness of combustion, (56) Copyright certificate of the USSR Ns 1060883, cl. F23 D 11/34, published. 1985. moreover, the sawing channel is communicated by radial pipelines with the external cavity of the vortex chamber. 2. The device according to claim 1, characterized in that the outlet section of the vortex chamber has the shape of an annular slit nozzle and is equipped with a torch stabilizer made in the form of torus surfaces located at the ends of the nozzle, and the nozzle is equipped with a heating system. 3. The device according to claims 1 to 3, characterized in that. that the height of the vortex chamber is 0.7-0.9 of its inner diameter, and the distance between the upper ends of the nozzle of the vortex chamber and nozzle is 0.2-0.4 of the height of the vortex chamber. 4. A device according to claims 1 to 3, characterized in that it further comprises a pilot burner located at the nozzle exit. 7 72 76 fifteen