SU1168608A1 - Tuyere - Google Patents

Abstract

A turmeric for injecting oxygen into the converter, containing a head with peripheral nozzles and a central nozzle located in it, characterized in that, in order to increase the scrap fraction in the charge by supplying an additional amount of heat to the bath by increasing the afterburning of carbon monoxide, it is equipped with The head is provided in front of the central nozzle by a throttle device, the passage area of which is 0.2-0.85 of the nozzle cross section. (L O) 00 and about 00

Description

11 The invention relates to devices for injecting oxygen into metal in gas furnaces, particularly, in a converter with an upper CI9 CRYSTAL blast. The purpose of the invention is to increase the proportion of scrap in the charge by supplying additional heat to the bath by increasing the afterburning of carbon monoxide. The drawing shows a lance, a longitudinal section. The lance for supplying oxygen to the converter consists of three concentrically arranged one-piece pipes and a head. Oxygen is passed through the central tube 1, cooling water is supplied through the middle tube 2, the outer tube 3 serves to drain water. The head of the tuyere has a central nozzle 4 and peripheral nozzles 5. Using a confuser 6 and a seal 7, it is joined to the central tube 1 "The butt end of the tip 8 is welded to the narzzhny tube 3. Before the central nozzle 4 a throttle device 9 is installed (in daggam case in the form of a grill ), The sweeping area of the throttle device is 0.20, 85 of the nozzle area. The lance works as follows, K-sludge is supplied through the central pipe 1 through the confuser 6 to the nozzles 4 and 5. Through the perpendicular nozzle 5, the outflow of oxygen occurs at the 08 sonic speed, and through the central nozzle 4 - from the subsonic one obtained by reducing the flow rate KiS loroda, thanks to the use of a throttle device. At overpressure in front of the nozzle of 0.3-0.9 Sh, typical of industrial conditions, the ratio of the area of the throttle device to the area of the nozzle should be. 0.20-0.85. Due to the uneven oxidation of carbon throughout the volume of the bath, the maximum gas gap is observed in the region of the primary reactive zones. Oxygen jets emanating from the nozzle at supersonic speeds, at the beginning of their path (12-18 calibers of the nozzle exit section) are not opened and unlike the freegia. - they interact little with the surrounding gaseous medium. The subsonic stream of oxygen flowing from the central nozzle quickly decays and burns off the CO of the counter flow of converter gases to COj. The heat released during this process is transferred to the bath, thereby improving its heat balance. An increase in dongigan CO to CO will cause an additional amount of heat to go to the bath and thereby increase the scrap fraction in W-1xt by--1.5%,

Claims (1)

FURMA for injecting oxygen into a converter containing a head with peripheral nozzles located in it and a central nozzle, characterized in that, in order to increase the share of scrap in the charge by supplying additional heat to the bath by increasing the afterburning of carbon monoxide, it is equipped with the head. in front of the central nozzle with a throttle device, the passage area of which is 0.2-0.85 of the nozzle cross-sectional area. g j