DE1035842B - Cooling jacket for gas generator and furnace shafts - Google Patents

Description

Cooling jacket for gas generator and furnace shafts The invention relates to a cooling jacket for gas generator and furnace shafts.

There are known cooling jackets for gas generator and furnace shafts, by a vertical and essentially parallel to the shaft wall to be cooled running partition divided into two interconnected chambers are. In this case, the one facing the shaft wall to be cooled is inevitably turned The inner chamber on the side of the partition is more heated and the one on the one cooling shaft wall facing away from the partition wall lying outer chamber weaker heated so that water circulates automatically in the two chambers.

It is also known to have a cooling jacket through a supply line and to connect a return line to a steam collector.

Furthermore, cooling jackets are known that are not self-contained, but have, for example, a horseshoe shape. These are in contrast to the self-contained cooling jackets such. B. the ringinal titles in shafts with a round cross-section.

The invention relates to such cooling jackets that are not inherent are closed. With such Kühlinäliteln it is known by a vertical and the partition wall running essentially parallel to the shaft wall to be cooled to divide the cooling jacket into two interconnected chambers. You can get the cooling title through a flow line and a return line connect to a steam collector arranged above the coolant.

In contrast, the invention is characterized in that the vertical Partition wall below and above tightly finit your floor and ceiling and on one of them lateral end is tightly connected to one end wall of the Kühlinalitels, wherein at this end of the cooling jacket the one facing the Schachtwalid to be cooled Inner, more heated chamber on the side of the partition wall through the flow line and the side of the partition wall facing away from the shaft wall to be cooled outer, less heated chamber through the return line with your steam collector are connected. In addition, according to the invention, the two chambers are at the other end of the cooling jacket through an opening between the partition and the other end wall of the cooling jacket in connection with one another.

The cooling jacket according to the invention shows against the known designs The following advantages: The built-in partition makes the cooling jacket a strong one heated inner part and an unheated outer part. Through this Arrangement is achieved that the return water is preheated in the outer part, before it enters the inner hot part of the cooling jacket. This creates a Stress on the wall of the cooling jacket facing the gas generator shaft a too high temperature gradient avoided.

Further, that the cooling jacket of the gasification process is favorably influenced due to the higher temperature the side facing the gas generator shaft wall, as is done in cold chamber walls, the reaction of C O., in CO in the peripheral regions of incomplete is achieved.

Another advantage of the invention is that the connections for the supply and return lines at the end protruding from the masonry the cooling jacket, so easily accessible, can be arranged and despite this Arrangement of the lines due to the arrangement of the transfer opening on the opposite one At the end of the cooling jacket, the forced circulation of the water under the action of the from the inlet and the outlet remote part of the cooling jacket is guaranteed.

The invention is shown in exemplary embodiments in the drawing. It shows Fig.l a vertical section through a gas generator shaft with the built-in Cooling jacket for steam generation (in direction a-a through Fig. 3), Fig. 2 a 90 ° offset vertical section through the gas generator shaft (in direction b-b through Fig. 3), FIG. 3 a horizontal section (in the direction c-c through FIG. 1), FIG. 4 a view on the gas generator (in the direction of the arrow _4 on FIG. 1) and FIG. 5 shows a horizontal section similar to Figure 3, but with a second embodiment of the cooling jacket. In The cooling jackets 2 are built into the gas generator shaft 1. according to FIGS. 1 to 4 have a box shape, while in Fig. 5 the cooling jackets 2 in a horizontal section have an angular shape. 3 is a steam collector. Stand with this the cooling jackets 2 through the flow lines 4 and the return lines 5 in connection. In the interior of the cooling jackets 2 there are vertically standing "partition walls 6. These" are close below and above with <leni Uoden and the ceiling and on one side of it End tightly connected to one end wall 7 of the cooling jacket 2. With it arise in the cooling jackets two chambers 8 and 9. The one on the shaft wall to be cooled facing side of the partition wall lying inner, more heated chimney 8 is through the flow line 4 and the one facing away from the shaft wall to be cooled Side of the "partition 6 lying outer, less heated chamber 9 is through the Return line 5 connected to your Dainl) fsaminler 3. Furthermore, the two are Chambers 8 and 9 of each cooling jacket 2 each through an opening 10 between the other End of the partition 6 and the other end wall 11 of the cooling jacket 2 together tied together.

As the drawings show, the cross-sectional area of the more heated chamber 8 be equal to or larger than the cross-sectional area of the less heated chamber 9.

In the embodiment according to FIG. 5, the opening 10 is angled at the end of the bent leg of the chamber 2 is provided.

Claims (2)

PATENT CLAIMS: 1. Cooling jacket for gas generator and firing shafts, which is not self-contained, is divided into two interconnected chambers by a vertical and essentially parallel to the shaft wall to be cooled and by a flow line and a return line with a Danipi collector arranged above the cooling jacket is connected, characterized. that the partition (6) below and above tightly finite the floor and the ceiling and at its e: neri lateral end tightly connected to one end wall (7) of the cooling jacket (2), at this end of the cooling jacket the on the zii cooling shaft wall facing side of the partition (6) lying inner. more heated chamber (8) through the flow line (4) and the outer side of the partition (6) facing away from the ztt cooling shaft wall. weaker heated chamber (9) through the return line (5) are finitely connected to the steam collector (3), and that the two chambers at the other end of the cooling jacket through an opening (10) between the partition (6) and the other end wall (il) of the cooling jacket (2) are in communication with one another. 2. Cooling jacket according to claim 1, characterized in that the cross-sectional area of the more heated chamber (8) is equal to or greater than the cross-sectional area of the less heated chamber (9). Documents considered: Deutsche Patentschrift \ r. 565 181; French Patent No. 988340; U.S. Patent No. 1366,207; H. Bruckne r. "Handbook of the Gas Industry". Vol. 2 »Generators«,: Munich and Berlin. 1910. Part I, pp. 35 to 37; »Steel and Iron«, 64th year, 194-1. P. 328.