DE401273C - Increase in the gas yield - Google Patents

Description

Increase in the gas yield. While it used to be common practice and sometimes even prescribed to produce a gas with a calorific value of 5300 units and more, and with gas coals one was content with a yield of 30 cbm of gas or a little more from r oo kg of coal, the realization came later that it is not necessary at all, and in many cases even wrong, to deliver a gas with so many heat units, especially since the addition of water gas achieves a lower calorific value, but a significantly higher flame temperature. Instead of the previous low yield compared to the expensive and large systems, the aim was to achieve better utilization.

The gasification of the coal was added to the degassing of the coal Coke by producing water gas from this with the addition of steam and this water gas added to the coal gas. The calorific value of the mixed gas was z. B. with 4zoo W. E. stated. Here one was still anxiously trying to produce pure Bituminous coal gas in the retorts to protect against further overheating, to its so-called high-quality components against decomposition and carbon elimination (graphite formation) to preserve. This was a holdover from when you could only get pure coal gas of as many units of heat as possible, as long as one did not use any means knew about the decomposition products created by overheating the luminous gas even to make usable for the mixed gas to be generated.

According to the invention, the known per se use of Graphite made use of for water gas formation in the degassing and gasification room. However, in contrast to the previously known method, this graphite is not specially approved, but rather generated in the retort itself in the form of those previously avoided carbon release. For this purpose, the temperature in the Retort, especially in the upper part of the retort, as evenly as possible on it Get high that those carbon elimination get in full extent, yes downright is promoted and those amounts of carbon that are not used to seal the retort walls are necessary, used by supplied water vapor to generate 'water gas will. The carbon split off is made usable according to the invention without changing the construction of the usual degassing rooms, without conversion their operation in the entire period between charging and discharging and especially without additional charging after degassing. It is only necessary in compliance certain rules to blow steam at that end of the degassing rooms that has turned away from the gas vent. Do the following. Conditions taken into account will be: r. The carbon elimination must be preserved in its entirety or be promoted, namely on the top hot wall of the degassing rooms, which makes a high temperature of the retorts necessary, which is achieved by using special building materials for the retorts can be transported. 2. The walls must not have cooled down below the temperature required to generate water gas will.

3. The walls must be used regardless of the amount used for water gas generation Carbon nor the carbon splitting necessary to seal the walls keep.

q .. The steam must with the carbon heated to high temperature the deposits as well as with the degassed material brought into intimate contact will.

To achieve these conditions, the steam may only be measured in precisely Quantities are admitted, which quantities depend on i. the temperature of the Degassing spaces, 2. the length and volume of the same, 3. the temperature of the steam, q .. of carbon deposits! of the material on the walls. , The for water gas generation necessary deposition of carbon on the upper wall and the necessary overheating of the steam, as well as the intimate contact with the hot carbon of the deposition as well as with that of the degassed material is achieved that the rooms so much be fully charged as possible. In this way the gases and steam are forced to flow along the hot top wall, the gases releasing their carbon and the steam the necessary heat and the necessary carbon for the formation of water gas finds present.

So that water gas can also be produced at the beginning of the degassing, .must be the amount of steam in accordance with the increased heat consumption by the newly introduced material to be degassed must be reduced, or it must be reduced accordingly be heated higher. The easiest way to achieve this overheating is by that when emptying the retorts a part of the glowing degassed material in it is left so that the blown steam must flow over it. The size of what was left behind Coke residue must be measured according to the circumstances.

In the schematic drawing showing a vertical length section represents a retort a, that coke residue is denoted by b. In front of this coke residue the new charge c is brought, in such a way that the retort as much as possible or is almost completely filled with material. Steam is generated through a steam inlet d fed into the retort. This introduction of steam should begin as early as possible be, d. H. at the beginning or at least in the first half of the degassing.

The invention has had considerable technical success for the production of water gas in horizontal or inclined degassing rooms of ordinary construction. Whereas previously only 30 cbm of gas were obtained from 100 kg of coal, up to 70 cbm of gas can be achieved according to the present process. No special water gas systems are required, which are associated with high operating costs. The mixture of coal gas with water gas is completely possible due to the simultaneous production in the same room. By converting the split off carbon, the heat is recovered so that the process can be carried out with less heat consumption. The wear and tear of the degassing rooms is reduced by the combined prevention of overheating of the walls. The gas production is increased to a great extent with a simultaneous reduction in the labor required.

Claims (2)

PATENT CLAIMS: i. Method of increasing the gas yield in. Horizontal or inclined degassing rooms of conventional design without intervention until the discharge when steam is introduced via the degassing material in the direction in which the gases are drawn off, characterized in that the heating is driven so far and the steam supply occurs in such amounts and under such conditions that the splitting off of carbon occurs not suppressed, but promoted as much as possible, nor the temperature in the upper Room is reduced below the temperature necessary for water gas generation. 2. The method of claim i, wherein steam is passed over one of the previous cargo glowing coke residue left behind in the retort is fed, characterized in that that in order to achieve carbon deposition, this coke residue is much larger than is usually taken, and so large that it superheats the steam to such an extent and thereby prepared for decomposition that already at the beginning or in the first Half of the degassing, the conditions necessary for the formation of water gas are present are.