CS213534B1 - Method of approaching the pressure generator - Google Patents

Abstract

The purpose of the invention is to ignite coal more quickly, to achieve energy savings and to reduce exhalation. According to the invention, the working space and the generator grate are heated with steam before filling with coal. Then it is filled with coal and closed. Steam at a pressure of 2.5 to 3.5 MPa is admitted into the working space, while at the same time gas with an oxygen content of 21 to 99% by volume is admitted until the carbon dioxide content in the gas rises above 18% by volume and the oxygen content drops below 1% by volume. Then the generator is filled with coal. An increase in the start-up speed can be achieved by heating the water in the generator jacket and further heating the gas to 100 to 400 °C.

Description

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Pressure generator start-up method

The purpose of the invention is to accelerate the ignition of coal, to achieve energy savings and to reduce emissions.

According to the invention, the working space and the grate of the generator are heated by steam before the coal is filled. Then it is filled with charcoal and closed.

Vapor pressure of 2.5 to 3.5 MPa is admitted into the working space, while at the same time a gas with an oxygen content of 21 to 99% by volume is started until the carbon dioxide content of the gas rises above 18% by volume and the oxygen content falls below 1% by volume. Then the generator is filled with coal. An increase in the driving speed can be achieved by heating the water in the generator jacket and further heating the gas to 100 to 400 ° C.

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BACKGROUND OF THE INVENTION The present invention relates to a method for starting a pressure generator for producing coal gas from brown coal.

As long as the pressure generators are put into operation in several ways. In one of these, the generator grate is covered with an ash layer on which a layer of wood and wood wool is deposited. After igniting the firing of pyrotechnic matches with the simultaneous inlet of air, then inlet of coal. The addition of coal is repeated after the temperature in the dome of the generator has risen to 200-300 ° C until the generator is filled.

Another method of igniting coal in a pressure generator is carried out as follows. The generator post is covered with a layer of ash on which a layer of coal is poured. The coal is then ignited by pouring the incandescent coke into the generator at a constant flow of air.

Additional coal is added only after the temperature in the dome of the generator has risen to 200 to 300 ° 0. after the generator has been filled, oxygen is added instead of air and the pressure generator is pressurized after pressurization and the generator is connected to a wire for analysis.

The disadvantage of both of these methods is the great time consuming, inoperative, high consumption of handwork. The possibility of an explosion is also not negligible.

According to the invention, the above mentioned drawbacks are eliminated by the method of starting the pressure generator for the production of coal gas from brown coal.

It consists in that the working space and the generator grate are heated by steam before being filled with coal, then filled with coal and closed and steam is introduced into the working space at a pressure of 2.5 to 3.5 MPa, while simultaneously admitting gas and with an oxygen content of 21 to 99% by volume in an amount gradually increasing depending on the carbon dioxide content until the carbon dioxide content of the gas rises above 18% by volume and the oxygen content falls below 1% by volume, after which the generator is charged with coal. According to a further feature of the invention, the water in the housing of the generator is heated to a temperature of 80 to 99 ° C prior to filling the generator, which is maintained until the generator is pressurized. to 400 ° C.

The basic effect of the invention consists in the faster ignition of the coal in the generator, the effect is further increased by preheating the generator jacket and the inlet gas.

Other benefits include energy, steam, oxygen-containing gas, reduced air emissions, reduced start-up time and increased operability and production.

The process according to the invention is described in more detail below using examples of coal ignition.

Example 1

A sample of brown coal was ignited by a mixture of feather and air in a laboratory reactor heated to 25 ° C under conditions corresponding to the operation of a pressure generator for the production of coal gas at startup. The ignition of the coal was carried out with a mixture of steam and air at 250 ° C.

The temperature of 500 ° C in the coal bed after ignition was reached for 80 minutes.

Example. 2

The coal was ignited in the same laboratory equipment under the conditions set forth in Example 1 except that the reactor and the coal therein were heated to 100 ° C prior to the inlet of the feather. The temperature of 500 ° C in the coal bed after ignition was reached after 38 minutes.

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Example 3

The coal was ignited under the conditions of Example 2, i.e. the reactor and the coal was heated to 100 ° C and the steam was at 250 ° C. Instead of air, oxygen-enriched air with an oxygen content of 37% by volume was used. The temperature of 500 ° C in the coal bed after ignition was reached after 16 minutes.

Claims (3)

SUBJECT TO THE INVENTION 1. A method of starting a pressure generator for the production of coal gas from brown coal, characterized in that the working space and the grate of the generator are heated by steam before the coal is filled, after which the coal is filled and sealed. 5 MBa, while at the same time starting to admit a gas with an oxygen content of 21 to 99% by volume gradually increasing depending on the carbon dioxide content until the carbon dioxide content of the gas rises above 18% by volume and the oxygen content falls below 1% by volume, whereupon the generator is charged with coal and switched to normal operation. 2. The pressure generator start-up method according to claim 1, characterized in that, before filling the generator, the water in the generator jacket is heated to a temperature of 88-99 [deg.] C. and maintained until the generator is pressurized. 3. The pressure generator start-up method according to claims 1 and 2, characterized in that the gas having an oxygen content of 21-99% by volume is heated to a temperature of 100-400 [deg.] C.