CS273885B1 - Equipment for gasifying generator's coal handling - Google Patents

Abstract

The invention concerns apparatus for gas production. The intake duct (4) of the gasification generator (1) is equipped with a separator (5) of accompanying liquid. Its output (6) is connected with a water and carbon dust extractor (7), which is connected with an accumulator (9). Connected to this through a condensation divider (12) is the output from the gas cooler (3) and pre-cooler (2). The invention can be used for filling reactors with hydro-mixture.<IMAGE>

Description

The invention relates to a device for coaling a gasification generator with a mixture of combustible solids with a liquid.

Up to now, solids have been conveyed to the generator by means of inlets separating its internal space from the external atmosphere. When the generator is coaled, the solids are poured into the inlet which is connected to the atmosphere, then, after closing this space to the outside atmosphere, the inlet charge is brought into contact with the internal atmosphere of the generator and after possible pressure equalization the solids are introduced into the generator. This process is periodic and is always associated with the leakage of part of the gas content of the generator, since after the discharge of solids, the free space occupies the gas, which is again displaced by the gas when the generator is refilled, usually into the atmosphere. This results in loss of generator content, economic damage and air pollution by gases, vapors and dust. If the generator operates at a higher pressure, these losses are proportionally higher. For example, when coal is conveyed to a gasification generator operating at a pressure of about 2.8 MPa, 4 to 5% by volume of the produced gas leaves through the coal inlets. While some of this gas is utilized, for example by entrapment in the gas tank and incineration in the boiler room, a part of the gas whose pressure is lower than the gas tank pressure is discharged into the atmosphere and pollutes the surroundings with coal dust, tar, penetrant and poisonous gas components.

These drawbacks are overcome by the coal-fired generator coal-firing apparatus in the production of gas by the combustible solid-liquid mixture of the present invention. It consists in that the inlet port of the gasification generator is provided with an accompanying liquid separator, the outlet of which is connected to a water and coal dust separator connected to a storage tank, to which a gas cooler and a precooler outlet is fed via a condensate separator. is introduced into the preparation of the coal mixture.

The main advantage of the device according to the invention consists in avoiding air pollution, reducing gas loss and achieving an improvement in the granulometry of the solids conveyed to the generator.

The device according to the invention is described in more detail below with reference to an exemplary embodiment and with reference to the accompanying drawing, in which the circuit diagram is shown.

As can be seen from the drawing, the gasification generator 6 is provided with an inlet orifice 4 with a separator. The output of the gasification generator 6 is fed to the precooler 12 and from there to the gas cooler 8. The outlet of the precooler 2 and the gas cooler 2 is fed to a condensate separator 12 which is connected to the storage tank 2. The storage tank 2 is further connected to a water and coal dust separator 2 which is connected to the neck of separators 5. is introduced into the preparation of the coal mixture.

The apparatus according to the invention operates as follows: The gasification generator 6, equipped with a precooler 2 and a gas cooler 2, is coaled with a mixture of 80% water and 20 sorted coal which is conveyed in a manner known per se to the inlet neck 4 with a separator consisting of a separator The separated water from the separators 5 flows through the orifice 5 into the water / coal dust separator 2. In the water / coal dust separator 2, the coal sludge is separated, which goes out via the line 6 and the circulating water, which passes to a reservoir 5 in which the condensates from the gas cooler 2 or the condensate separator 12 are replenished. Through the line 11, the water goes back to the preparation of the hydro-mixture, where it is transported by the pump 40 when the gasification generator 6 operates at low pressure. In high pressure gasification, the pump 10 falls off and the kinetic energy of the pressurized water from the 2 lz® tank is used to transport coal to the hydro-mixer feeder.

In the case where the presence of water as a transport medium would be a malfunction, such as in the gasification of dried coal, hydrocarbon condensates can also be advantageously used to transport the coal to the gasification generator. in condensate separator 12, optionally directly from the gas cooler. While coal is being transferred in this way, some of the hydrocarbons that burn to coal are converted *

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CS 273885 B1 to the gasification generator 11, but also evaporates in the outgoing gas stream and is trapped during cooling, where by intensifying condensation it will increase the dissolution of the tar deposits on the tubes. ·

It will be understood that any liquid may be used to convey any substances to the gasification generators J generally in analogy to the described special case in accordance with the technological conditions of operation.

Claims (1)

Apparatus for coaling a gasification generator in the production of gas by a mixture of combustible solids with a liquid, characterized in that the inlet (4) of the gasification generator (1) is provided with an accompanying liquid separator (5) whose outlet (6) communicates with a separator (7). water and coal dust connected to the reservoir (9), into which the outlet of the gas cooler (3) and the precooler (2) is introduced via the condensate divider (12), the outlet of the reservoir (9) being introduced to prepare the coal mixture.