DE466235C - Method and device for introducing water into the melting zone of a shaft furnace - Google Patents

Description

Method and apparatus for introducing water into the melting zone of a shaft furnace It is known to improve the furnace run and to achieve other advantages in the interior of a cupola or blast furnace or other Introduce the shaft melting furnace liquid water at the level of the melting zone. To the The introduction of the water mostly uses pipes that end in a spray nozzle. It is essential that the water reaches the inside of the stove in liquid form (Patents 3j4469 and 4o1 129). so not evaporated beforehand; there the enclosure evaporated water into the furnace interior does not give the same benefits by far.

Uni clen liquid state of the water right up to the spray nozzles to secure under all circumstances despite the sometimes very high ambient heat. is d (for the invention according to the spray water up to the spray nozzle in one led to such an excess, the ambient heat for evaporation. of the water not enough. The excess is deposited continuously or intermittently and can be used for other purposes, e.g. B. for cooling the wind form. used «earth. the Facility = to carry out this procedure is very reliable in its effect, easy to handle and monitor, as well as very simple in construction. In The drawing shows two embodiments of such a device are schematic reproduced.

In Fig. I, a is the wind forums with the water-cooled double jacket b. c is the pipe for supplying the water to be sprayed inside the furnace. This tube has an extension d, at the inner end of which the spray nozzle f is seated. h is a nozzle to drain the excess water and i. an inner pipe that leads from Gier's highest point of the pipe extension d to the drainage connection -a.

The water supplied under pressure through (read pipe c reaches pipe widening d in such an amount that its evaporation under the effect of the heat of air is excluded. The part of the water required for treating the furnace is passed through nozzle f injected into the interior of the furnace while the overshoot flows off at lt. pressure and 1_eitun #, - s <lucrsclniitt as well as the cross-sections of the nozzles f and the outlet Ir are to be fined so that the specified effect always arises through appropriate adjustment is attainable.

The relatively cool water that runs off at h can be used for this purpose insert it into the hollow cooling jacket b of the windform. so that it is here takes on the role of cooling water for the Windforrri.

Under certain circumstances, however, the device shown in Fig. 2 is preferable. at This is the excess measured spray water through the pipe zfz into the hollow Cooling jacket b initiated the wind form. Inside the NVindform is hollow Cooling jackets b the spray nozzle iz connected so that its exit to the inside of the furnace is directed towards. The part of the water intended for injection passes through this nozzle n off, while the excess flows off constantly through the discharge o. When calculating the excess, it must be taken into account that the cooling jacket of the Wind shape more strongly influenced by ambient heat than the supply pipe according to Fig. I will. The same consideration must of course be taken when in the embodiment According to Fig. i, the water running off at h is also used to cool the wind form should find.

Various other embodiments are possible. The spray nozzle in the embodiment according to Fig.2 could also be at the front end of the hollow cooling jacket b and could also be located in any other cold room, which is located on or in the furnace wall at the level of the melting zone, in which case to direct the excess of splash water through this cooling space as shown in Figure 2 were. A wide tube in the manner of the tube d according to Fig. I could also be used instead of in a Wind form provided at any point on the furnace wall at the level of the melting zone become etc.

Claims (5)

PATENT CLAIMS: e.g. Method of introducing water into the melting zone a shaft melting furnace, in particular a blast furnace or cupola furnace, thereby characterized ,, that the water up to its outlet (the spray nozzle) in one continuously or intermittently, the excess to be drained off is added, which is sufficient to prevent evaporation of the water under the influence of the T-ring heat. _ 2. The method according to claim i, characterized in that the running over = shot water is used to cool the wind form. 3. Device for performing the method according to claim i and 2, characterized by a correspondingly wide tube (d) opening into a spray nozzle (f) with an outlet (h) for the excess water. . 4. embodiment of the method according to claim i and 2, characterized in -that the water in excess through the cooling jacket of a Windform is guided. . 5. Device for carrying out the method according to claim ¢, characterized in that the spray nozzle (s) and the drain pipe (o) -for The excess water is placed on the cooling jacket of the -N \ "indform. C. Device according to claim 5, characterized in that the spray nozzle (s) on the inner wall of the cooling jacket.