DE488755C - Standing smoldering oven - Google Patents

Description

Standing smoldering furnace The invention relates to a device for standing Smoldering ovens, which are a particularly advantageous use of space and heating gases enables. The arrangement is made so that the furnace of a number of concentric vertical channels are traversed, between which there is space for that to be smoldered Well located. It is best to make the channels ring-shaped. and the whole Oven circular cross., - cut to give so that there are gaps of more even Width is preserved and the goods to be carbonized are preserved everywhere under approximately the same conditions stands. The whole smoldering process becomes more even and more even safer designed. In addition, it is more easily possible to completely burn the goods to be carbonized Heat evenly, especially when you consider the radial distances between each two Channels, i.e. the radial width of the rooms in which the smoldering takes place should not choose too big. One will depending on the radial width of these spaces For example, choose the item to be carbonized from z o to 3 o ctn to be large in all Layers to achieve as uniform a temperature as possible.

This arrangement naturally also makes the one available Most fully utilized space in the stove because dead spaces or fewer spaces Effectiveness can be practically avoided entirely. In addition, however, the heating gas is also used more fully exploited, since it is possible because of the ring-shaped design of the channels feeds the walls in broad layers of shallow depth.

The gas can be used particularly advantageously if it is guided successively through several of the concentric annular channels, for example in such a way that it is guided upward in a central tube, then guided downward in a first annular channel, guided upward again in a subsequent one, and so on The figure shows such an application. A, a denote the channels for the heating gas, which is guided in the direction of the arrows. b, b mean the chambers for the Schwelgut. It can, however, under certain circumstances have a disruptive effect that the gas in each subsequent channel has significantly lower temperatures than in the previous one. This is partly compensated for by the fact that the following channels have a larger cross-section, so that the flow velocity of the gas is lower. In many cases, however, this compensation will not be sufficient. One then helps oneself advantageously in such a way that one adds heat to the gases again on their way. The easiest way to do this is at the points where the gases are transferred from one ring channel to the other, either by attaching a special heating source to these points or by adding hotter gas from the outside at these points.

In order not to hinder access to the carbonization spaces located between the channels at the transition points of the gases from one annular channel to the other, it is useful to convey the transfer of the gases from channel to channel through a plurality of radially separate tubes or channels. Such radial channels are shown in the figure at d " d . In order to give these tubes a sufficient cross-section and at the same time leave wide spaces between them, they are best designed rectangular in such a way that they have a large width in the axial direction of the furnace the direction of the channel cross-section perpendicular thereto, however, have a small width.

The annular channels are best made up of individual concentric Composite cylinder jackets. However, it is also possible to create them from individual sectors put together.

The carbonization gases are passed upwards through suitable discharge channels discharge, but let the smoldering material sink down with continuous operation. c, c are such discharge channels for the carbonization gases. They expediently flow into one annular collecting channel from which the gas is carried on.

The goods to be carbonized are fed in from above, for example in such a way that the material is heaped up in the space above the ring channels, in such a way that it depends on the progress of the smoldering process and depending on the emptying of the charring channels sinks by itself. The waste heat becomes one make usable in a suitable manner, e.g. B. in drying devices. The Schwelgut can with foreign substances, z. B. with ores, so that the leaving the furnace Ore-Koksq mixture can be smelted directly. One achieves thereby at the same time no rational use of the heat still contained in the Schwelgut. In whole In a similar way, however, one can also use the heat of the semi-coke leaving the furnace in other cases take advantage if you z. B. this hot semi-coke immediately one Generator gas generator supplies. Use the heat of the goods leaving the furnace not out in this way, then it is generally necessary to dispose of the goods immediately to cool down, e.g. B. by water to prevent burning in the air.

Claims (1)

PATENT CLAIMS: i. Standing carbonising, characterized indicates overall that it comprises a plurality of annular concentric channels for the fuel gases and a plurality of concentric gaps between these channels for the material to carbonizing Good. z. Smoldering furnace according to Claim i, characterized in that the heating gases are supplied through a central pipe and then alternately guided up and down in the successive ring channels. 3. Smoldering furnace according to claim a, characterized in that. Heat is supplied to radial connecting channels of the ring channels.