DE3441359A1 - METHOD FOR GENERATING A HOT GAS FROM A CARBONATING INITIAL - Google Patents

Description

Andrejewski, Honke & Partner, patent attorneys in Essen

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The invention relates to a method for producing a _{hot gas consisting mainly of CO and H 2} from a carbon-rich starting material, in which the starting material is introduced into a gasification chamber in powder form together with oxidizing agents and optionally also a slag former and is partially burned and at least partially gasified in the same .

Reducing or fuel gas based on a content of carbon monoxide and hydrogen is continuously produced using several processes which proceed according to many completely different principles and all have certain disadvantages. The required energy is usually generated by burning a carbon-rich feedstock which is blown into an empty chamber with an oxidizing agent. In order to meet the energy requirements in the process, a certain amount of CO and H ₂ formed must be burned to CO 2 and H 0, which leads to a gas which has a higher content of carbon dioxide and water than is desired.

As a result, the gas generated in known coal gasification processes has to withdraw some of its carbon dioxide content which means that the gas must first be cooled down before it is reheated. In other procedures, a exploited such low temperature to form tar and phenols. The gas must therefore be washed and then again be heated if it is to be used in subsequent process steps.

Andrejewski, Honke & Partner, patent attorneys in Essen

Against this background, the invention has the task made, a process for the production of a hot reducing agent consisting mainly of carbon monoxide and hydrogen or to create fuel gas, this process controlling the temperature and composition of the exiting Allow gas and at the same time offer an optimal use of energy.

A method according to the invention which solves these and other objects is characterized essentially in that the gas mixture resulting from partial combustion and at least partial gasification of the starting material in the gasification chamber is introduced into a shaft furnace, which is a bed of solid, carbon-rich, coarse material contains that the physical heat content of the gas mixture emerging from the gasification chamber in the bed of coarse material is used to reduce the content of carbon dioxide and water in the gas, and that the Gas generation process is controlled in such a way that the gas leaving the shaft furnace has such a temperature and composition has that it is suitable for use in a subsequent process step.

The oxidizing agent can consist of O ₀ , H ₀ =, CO ₀ , air, or various arbitrary mixtures thereof.

According to a proposal of the invention, the required energy is generated in the gasification chamber in that an excess of air and / or oxygen gas with a maximum H ₀ 0 content of 20% is supplied, which with part of the

Andrejewsld, Honke & Partner, patent attorneys in Essen

carbon-rich starting material exothermic or autothermal reacted.

According to a further proposal of the invention, the gasification chamber is supplied with thermal energy from the outside. This external thermal energy can be supplied by means of a gas heated in a plasma generator, this gas being selected from the group consisting of circulating gas containing 0 ", H" 0, air, CO + H ₂ + CO ₂ + H ₂ O, or from mixtures of two or more components of this group.

In a further proposal of the invention, there is the transport gas from the oxidizing agent.

It is also proposed to use water vapor for the material supply and / or as the carrier gas partially or entirely with the help of in a pressurized cooling system in water-cooled parts of the plant generate heated coolant and / or utilize physical heat in the generated gas.

Another proposal of the invention is the physical Utilize the heat content of the gas emerging from the gasification chamber in order to enter the coke bed from the outside To convert blown gas containing carbon dioxide and / or water into carbon monoxide and hydrogen.

The gas generation process is preferably controlled in that the carbon dioxide content or the oxygen potential in

Andrejewski, Honlce & Partner, patent attorneys in Essen

the gas mixture and / or behind the coke-filled shaft furnace is analyzed.

The resulting slag can be drained separately from the gasification chamber and from the coke-filled shaft furnace However, as an alternative, the entire slag can also be drained from the shaft furnace.

Appropriately, sulfur acceptors are in powder form in the gasification chamber and / or in lump form in blown in the shaft furnace.

It is also provided that the gas is blown into the gasification chamber To impart a rotary movement to the material around a layer of slag protecting the inner wall of the gasification chamber to create.

Further features and special features of the invention emerge from the following detailed description.

The method is of course not limited to a single gasification chamber for a shaft furnace. Rather, several gasification chambers are preferably provided in connection with a coke-filled shaft furnace.

By having most of the gasification reactions in a gasification chamber and the subsequent completion of the reactions take place in a bed of coke, there are considerable advantages.

Andrejewski, Honke & Partner, patent attorneys in Essen

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One advantage is that the gasification can be performed at a high temperature, which always should be above the melting point of the slag and generally above about 1400 ⁰ C, whereupon the physical heat content can be exploited the gas in the subsequent shaft furnace to to carry out the carburization reactions, which are terminated ^{at about 100 0 C.}

As already indicated, the excess heat in the gas can be used in various ways. For example is allows a relatively high content of carbon dioxide in the gas which is generated in the gasification chamber, this Carbon dioxide content in the bed of coke is converted to carbon monoxide, for which purpose the physical heat content of the gas is used.

The advantage of working with an increased CO ₂ content in the gasification stage is that the resulting higher oxygen potential results in a higher reaction rate between the fuel and the oxidizing agent and, at the same time, the process runs further away from the limit value at which soot deposits occur.

Another or auxiliary method of taking advantage of the excess Heat consists of blowing carbon dioxide and / or water into the coke bed. This can be done, for example take place that a partially consumed recycle gas is used with a high content of carbon dioxide and water.

Andrejewski, Honke & Partner, patent attorneys in Essen

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As already mentioned, the bed of coke fulfills a number important functions, as will be described in detail later.

The coke bed collects all coke particles and slag droplets, which the gas mixture from the gasification chamber accompany. These particles and drops are then fed back into the process when the coke is in the coke bed is consumed. In this way, the fuel is used extremely efficiently.

The bed of coke also works as a heat store, which absorbs any fluctuations in the gas supplied to the gasification chamber Compensates for heat. It also acts as a coal spear, which any variations in the amount of carbon-rich material fed relative to the amount of oxidizer fed compensates. This in turn reduces the risk of explosion and in practice completely switches off this risk even if pure oxygen is added without an equivalent amount of carbon-rich material of the Gasification chamber is supplied. In other known methods, the risk of explosion is an extremely serious problem.

The fuel or the carbon-rich raw material is fed in finely divided form. If it's powdered consists of solid material, it can, for example, according to the preferred embodiment of the invention with Can be blown in with the help of steam.

Andrejewski, Honke & Partner, patent attorneys in Essen

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The carbon-rich starting material can be selected from a group consisting of oil, coal, coke, bituminous coal, Consists of gas, peat, sawdust, and various mixtures thereof. This results in considerable economic benefits compared to the known gasification processes, which are limited overall with regard to the choice of starting material. The coke consumption is largely low because the oxidizing agent is forced to react with the carbon-rich one Material is brought into the gasification chamber before it reaches the hot and therefore reactive coke.

If material is only burned to generate the heat required for the reactions, this is caused by the thermal equilibrium the reactions causes a limitation which leads to a relatively high content of dioxide. So far this has meant that carbon dioxide must then be removed from the gas in a special process stage. In the inventive However, this does not pose any problems to processes. When using oxygen as an oxidizing agent with the addition of ELO autothermal conditions result when 20 ° water is added, i.e. the reactions continue, however, no excess energy is generated. If heat energy is supplied from the outside, one obtains a Excess energy, which can be used in the subsequent coke bed according to the above. Thus can electrical energy can be used, preferably through the use of plasma generators in which a carrier gas is heated to a considerable temperature when it is produced by one between electrodes in the generated plasma Arc flows through it. In the case of the preferred

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As an example, the carrier gas used consists of oxygen and water vapor. However, water vapor, a mixture of H ₃ O and oxygen, pure oxygen or even air can also be used as the carrier gas.

The supply of external energy enables the use of a used reducing gas, which has a high content contains carbon dioxide and water as oxidizing agents.

According to a preferred embodiment, the process can be controlled in that the content of CO ₀ or the O ^ partial pressure in the generated gas is recorded, directly behind the gasification chamber, before the gas mixture enters the coke bed, and / or in the gas outlet behind the coke pile. The analysis immediately after the gasification chamber is preferably carried out in order to control the ratio between the injected carbonaceous material and the oxidizing agent and possibly also the temperature of the outflowing gas, while the analysis of the gas following the coke pile to control the amount of in the coke pile introduced COp, and / or H "0 is used. In this way, an end gas can be generated which has the composition and temperature desired for the subsequent process, this subsequent process being, for example, a sponge iron process, while at the same time almost optimal energy consumption is achieved.

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In view of the high temperatures used in the process, at least parts of the shaft furnace and the entire gasification chamber with its burners can be cooled with water. By making the cooling system so that it works under pressure, preferably at close to 5-6 bar overpressure, the heated coolant can be used to Generate steam, which can then be used as a carrier and / or transport gas. This way there can be heat loss of the cooling system can be used.

The gasification chamber preferably has essentially circular inner walls. According to the invention in the Gas and material streams blown into the gasification chamber are then given a rotary motion. In the process, slag particles become separated and form a protective layer on the inner walls of the gasification chamber. The thickness of these cinder deposits is achieved by the thermal equilibrium between the thermal energy extracted by the cooling jacket and that of the slag surface Determined by convection and radiation delivered thermal energy, excess slag runs through one Slag overflow, which is arranged separately for the gasification chamber or with the slag overflow for the Shaft furnace can be summarized.

Slag formers and / or sulfur acceptors in finely divided form can be in the gasification chamber together with the carbon-rich material can be blown in or separately from the same and / or they can be used together with the solid carbon-rich material in lumpy form in

Andrejewsld, Honke & Partner, patent attorneys in Essen

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the shaft furnace are introduced so that they form part of the coke bed.

To ensure a quick and effective mixing between the hot gas, which is generated in the plasma generator, and the powdery, To achieve carbon-rich fuel supplied, the hot gas is fed through the opening of the plasma generator introduced into the gasification chamber. This is achieved by the fact that the carrier gas rotates during its Passage through the plasma generator is granted, whereby the powdered fuel reaches a rotary motion before he enters the gasification chamber, and / or by the plasma generator and / or the feed for carbon-rich Fuel are arranged so that they open tangentially into the gasification chamber. This is how the hot gas becomes brought to expand upon entry into the gasification chamber, this turbulence creating an extremely short mixing space results.

The invention will be described in more detail below with reference to the enclosed Drawing showing an embodiment of a system for performing the method according to the invention shows, explained.

The figure shows a gasification plant with a gasification chamber 1 and a shaft furnace 2 filled with coke 3.

The gasification chamber 1 has a water-cooled outer housing 4 and a refractory lining 5, and is preferred

Andrejewski, Honke & Partner, patent attorneys in Essen

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substantially cylindrical. Preferably be together several gasification chambers are provided with a shaft furnace.

The shaft furnace 2 has a lower slag outlet 6 and an upper gas outlet 7. Coke in lump form is the Shaft furnace fed through a gas-tight feed device 8 in the top of the shaft furnace. The gasification chamber 1 leads into the lower part of the shaft furnace, from where the gas flows up through the coke bed and through the gas outlet 7 outward. In the illustrated embodiment, the slag outlet 6 is used for the gasification chamber 1 and the Shaft furnace 2.

The gasification chamber is assigned at least one burner, which in the illustrated embodiment consists of a Plasma generator 9 consists. The plasma generator is with the Gasification chamber connected via a valve device 10. Oxidizing agent is fed into the plasma generator by a Feed line 13 introduced. The oxidizing agent can consist of a carrier gas which flows through the plasma generator or a separate carrier gas can be used. The hot turbulent gas generated in the plasma generator is into the gasification chamber through the opening 12 of the plasma generator brought in. The carbon-rich fuel, preferably in powder form, is with the help of a transport gas introduced through the feed line 13 into an annular space 14 which is concentric around the plasma generator is arranged, and / or by means of a lance 15, which is also

Andrejewski, Honke & Partner, patent attorneys in Essen

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if used, can be any additive such as to feed a slag former.

Lances 16 and 17 are also provided in the shaft furnace in order, if necessary, to supply additional oxidizing agents such as, for example, H ₀ O or CO ₀ , in order to utilize the physical superheat in the gas. This also makes it possible to control the temperature and the composition of the gas.

At the end of the gasification chamber, close to the coke pile, is a first sensor 18 arranged, while a second sensor 19 in the gas outlet 7 of the shaft furnace for measuring the Temperature and / or is provided for analyzing the gas. These two sensors allow the process to be controlled by regulating the energy supplied from the outside and / or by changing the flows of supplied material.

While the figure shows only one embodiment of a system for carrying out the method according to the invention, are many other solutions also possible. For example, the plasma generators or plasma torches can be tangential to the circumference the gasification chamber to generate a circulating flow in the gasification chamber.

In addition, in order to facilitate the slag separation, the gasification chamber can be arranged vertically, or the Gasification chamber and the shaft furnace can have separate slag outlets.

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Claims (16)

Andrejewski, Honke & Partner Patent Attorneys - Physicist Dr. Walter Andrejewski Graduate engineer Dr.-Ing. Manfred Honke Physicist Dr. Karl Gerhard Masch Lawyer files: 4300 Essen 1, Theaterplatz 3, Postf. 10 02 62 477 / E-th November 9, 1984 Patent application SKF Steel Engineering AB P. 0. Box 202 S-813 00 HOFORS, Sweden Process for generating a hot gas from a carbonaceous starting material. Claims. 1. Process for the production of a mainly from CO and H " existing hot gas from a carbon-rich raw material, in which the starting material is in powder form together with oxidizing agents and optionally also a slag former introduced into a gasification chamber with the aid of a transport gas, partially burned in the same and at least partially is gasified, characterized in that the resulting gas mixture is fed into a shaft furnace (2) Andrejewski, Honke & Partner, patent attorneys in Essen is conducted, which is a bed of solid, carbon-rich, contains coarse material, and the physical heat content of the gas mixture emerging from the gasification chamber (1) in the bed (3) made of coarse material is used to reduce the content of carbon dioxide and water in the gas to reduce, and that the gas generation process is controlled in such a way that the gas leaving the shaft furnace (2) such The temperature and composition make it suitable for use in a subsequent process step. 2. The method according to claim T, characterized in that the oxidizing agent 0 ^ f ^Η ο ^{Ο / C0} 2 ^{O (} ^ ^{he Lu} f ^t or a mixture thereof is used. 3. The method according to claim 1 or 2, characterized in that the required energy in the chamber (1) is generated by an excess of air and / or oxygen gas with a maximum H ^ O content of 20% is supplied, which with a Part of the carbon-rich starting material reacts exothermally or autothermally. 4. The method according to claim 1 or 2, characterized in that that the gasification chamber (1) is supplied from the outside with thermal energy. 5. The method according to claim 4, characterized in that the external thermal energy by means of one in a plasma generator (9) heated carrier gas is supplied. Andrejewski, Honke & Partner, patent attorneys in Essen 6. Apparatus according to claim 5, characterized in that the carrier gas is selected from a group consisting of O ₂ , H ₂ O, air and CO + H ₂ + CO ₂ + H ₃ O-containing circulating gas, or mixtures of two or more members of this group. 7. Device according to one of claims 1 to 6, characterized characterized in that the transport gas from the oxidizing agent consists. 8. Device according to one of claims 1 to 6, characterized in that circulating gas for blowing in powdery, high carbon feedstock is used. 9. Device according to one of claims 1 to 8, characterized characterized in that water vapor used optionally for the material supply and / or as a carrier gas partially or entirely with the aid of coolant heated in a pressurized cooling system in water-cooled parts of the system is produced. 10. Device according to one of claims 5 to 9, characterized characterized in that the hot carrier gas emerging from the plasma generator (9) is set in rotation before it is introduced into the gasification chamber (1), and that the powdery, carbon-rich fuel is concentric is introduced around the hot gas stream flowing into the gasification chamber. Andrejewski, Honke & Partner, patent attorneys in Essen 4 - 11. Device according to one of claims 1 to 10, characterized in that the physical heat content of the Gasification chamber (1) exiting gas is used to blow carbon dioxide from the outside into the bed of coke and / or converting water containing gas to carbon monoxide and hydrogen. 12. Device according to one of claims 1 to 11, characterized in that the gas generation process is thereby controlled is that the carbon dioxide content or the oxygen potential in the gas mixture before and / or behind the coke-filled Shaft furnace (2) is analyzed. 13. Device according to one of claims 1 to 12, characterized in that the slag is drained separately from the gasification chamber (1) and from the coke-filled shaft furnace (2) will. 14. Device according to one of claims 1 to 12, characterized characterized in that the slag is passed from the gasification chamber (1) into the shaft furnace (2) and from this the entire Slag is drained. 15. Device according to one of claims 1 to 14, characterized characterized in that sulfur acceptors in powder form in the gasification chamber (1) and / or in lumpy form in the Shaft furnace (2) are blown. Andrejewsld, Honice & Partner, patent attorneys in Essen 16. Device according to one of claims 1 to 15, characterized in that the material in the gasification chamber (1) is set in rotation and thereby a layer of slag protecting the inner wall (5) of the gasification chamber can be formed is.