PL9342B1 - Generator for the production of light and mixed gas. - Google Patents

Description

Devices are known for the continuous degassing of opal materials in chambers or in retorts which are heated from the outside by means of hot gases flowing through channels surrounding the chamber, or retort. However, the indirect transfer of the heat of the gases to the fuel contained in the chamber causes considerable heat losses. The subject of the present invention is a generator for producing a gas without said losses. Operation is based on the fact that the heat required for distillation is produced by the gas produced by the distillation itself, heated in the regenerator and fed back into the generator. Instead of burning the degassed fuel in the channels surrounding the retorts, it is burned directly inside the furnace. In order that the burned gas does not dilute the gas produced by distillation, it must be removed from the furnace before it comes into contact with the distilled fuel. The burned gas is led to a regenerator which heats up and transfers the resulting heat directly to the distillation gases discharged from above lower part of the furnace and then fed to the regenerator. These gases, heated in the regenerator, are again introduced into the generator at the point where the distillation of the fuel is completed, i.e. at the point from which the fuel gases from the generator were previously discharged. The distillation gases are passed through the regenerator and generator until the temperature in the regenerator is so low that it is not sufficient to heat the distillation gases. Then the generator is used for combustion and thus the two phases of operation of the furnace alternate. In these generators, steam can also be used, which is introduced in order to obtain a mixed gas. When the distillation gas is burned, so much heat is generated inside the generator. is required for distillation, resulting in the formation of fresh distillate gas, the excess of which is drained as usual. The receiver can be connected upstream or downstream of the separator so that gas passes through the furnace, either free from sludge or with grease. of the chosen mode of operation, the production of grease or ammonia can be greatly increased, since even at low temperatures it is possible to obtain a sufficiently strong gas current which is formed in the distilled fuel column. The rich luminous gas can be obtained thanks to the fact that the resulting virgin grease is easily decomposed into hydrocarbons in the regenerator. The cold coke is discharged as usual from the bottom of the generator, where the raw coal is fed from above. in accordance with the invention. The work takes place as follows: the combustion air is blown through the valve to the bottom of the shaft, as a result of which part of the coke, still heated to its original temperature, burns up and the hot flue gas flows through the valve to the regenerator. and where they burn completely. The burnt gases may still be used after they have entered the regenerator for the combustion of the boilers, etc., provided that their heat is still sufficient for the purpose in question. The burned gases are led away from the regenerator and through the valve e. After closing the valves a, the valve d opens the air pump, whereby the gas sucked from the upper part of the furnace is heated in the regenerator (for between the valves d and c) so strongly that it causes a further significant distillation of the fuel in those places through which it flows. In this way, the losses incurred in the combustion of the fuel coke are prevented and a heat is gained which is lost through the firing of the distillation chamber. In the generator according to the invention, distillation takes place much sooner, the efficiency of the generator is greater, because when using a strong current of hot distillation gases, the distillation time is reduced. The generator set in accordance with the invention also has the advantage that it is more versatile, because it can be before producing light gas, diluted with water gas, as long as an uninterrupted current of steam is introduced into the generator, which is also heated strongly in the regenerator. Periods of pure water gas production can also be created if steam is introduced through / into the regenerator, and hence through 6 to the generator where the steam passes through the entire column of fuel. The generator may also be operated so that steam is added to the circulating gas in the regenerator and in the top / furnace, while steam is forced through the valve up to the bottom k of the generator. The light gas thus obtained contains even more free gas. PL

Claims (2)

Patent claims. 1. A generator for the production of light or mixed gas, characterized by a regenerator, heated by means of fuel gases, which are produced in the plume of already degassed fuel by the furnace run alternately, with a distilled fuel column - 2 — it is heated directly in the furnace with hot gases heated in the regenerator. 2, the generator according to claim 1, it is said that the regenerator is provided with a closing device such that a mixture of gas and water vapor can be passed through the regenerator, which mixture then passes through the entire fuel column. 3, the generator according to claim 1 and 2, characterized in that the regenerator serves alternately only to overheat the distillate or only to superheat the steam, Akciova Spolecnost, dri ve Sko do vy Z avody v Plzni. Deputy: Dr. inz, M. Kryzan, patent attorney. To the patent description No. 934 2. 2 ^ 3— Print by L. Boguslawski, Warsaw-. PL