WO2017064059A1 - Device and method for producing syngas - Google Patents

Abstract

The invention relates to a device for producing syngas, having a first reaction zone (1) for thermally cracking hydrocarbons in a plasma, a second reaction zone (2) for producing syngas using the cracked products of the first reaction zone, a first gas inlet (7) upstream of the first reaction zone (1), optionally a second gas inlet (8) in the region of the first reaction zone (1), and a third gas inlet (9) in the region of the second reaction zone (2). According to the invention, a device is provided for recirculating gas from the outlet of the second reaction zone (2) to the gas inlets (7, 8, 9), and a device is provided for setting an operating state in which all of the gas inlets (7, 8, 9) are solely supplied with syngas. The invention further relates to a method for operating such a reactor in load change states and in an idle state. The operation in said states solely using syngas allows a controlled start-up and shutdown without undesired secondary reactions.

Description

 Apparatus and method for producing synthesis gas

The invention relates to an apparatus and a method for the production of synthesis gas. In this case, a thermal decomposition of Kohlenwas ^¬ hydrobromofluorocarbons, wherein a hydrogen-containing carrier gas (synthesis gas) a signal generated by a plasma torch plasma flows and the hydrocarbons by the thermal energy of the plasma (and of the arc) may be cleaved in a ers ^¬ th reaction zone takes place. In a second reaction zone (usually as the Boudouard reaction tor and / or water gas shift reactor configured) synthesis gas is generated using the cleavage products of the first reaction zone, thereby typically ^¬ additionally C02 and / or H20 is supplied.

The preparation as fuels suitable liquid coal bons from coal and / or gaseous Kohlenwas ^¬ hydro- is known. One of the oldest known processes is the Fischer-Tropsch process starting from so-called synthesis gas (mixture of hydrogen and carbon monoxide).

It is also already known to ^recover the hydrogen content of synthesis gas by preferably thermal decomposition of Me ^¬ than in carbon and hydrogen. The erfor ^¬ derliche energy input can in a so-called Kvaerner reactor by a signal generated by means of electric energy

Plasma done. This is especially advantageous if Excess electrical energy is available for example from rege ^¬ nerative sources, which can be implemented in this way advantageous in ultimately bound in a fuel ^¬ fuel chemical energy.

In a reactor Kvaerner recovered hydrogen and carbon ei ^¬ nem water gas shift reactor with the addition of C02 and water can be converted into synthesis gas in a second step in a C02 converter that uses the Boudouard equilibrium, respectively.

This synthesis gas is allowed to react for example by the above ge ^¬ called Fischer-Tropsch process to produce liquid fuel.

The initial decomposition of methane in the Kvaerner reactor with the supply of regeneratively generated electrical energy and the second step use of carbon dioxide causes the C02 balance of liquid propellant thus produced is much more advantageous than that of petroleum-based fuel.

A system and a plant in the aforementioned type is described for example in WO 2013/091879 AI.

The invention has for its object to provide a device and a method of the type mentioned, or allow efficient operation. Furthermore, there should be a possibility in the use of regeneratively generated electrical energy to take into account the fluctuations of energy sources such as, for example, wind power or solar power. This object is achieved by a device ^according to the invention for the production of synthesis gas, which comprises: a. a first reaction zone (1) for thermal Spal ^¬ processing of hydrocarbons in a plasma, b. a second reaction zone (2) for generating

 Synthesis gas using the fission products of the first reaction zone, a first gas inlet (3) upstream of the first action zone (1), d. a second gas inlet (8) in the region of the first reaction zone, e. a third gas inlet (9) in the region of the second reaction zone, characterized in that it further comprises: f. a device for setting an operating state in which all gas inlets (7, 8, 9) are fed exclusively with synthesis gas.

First, some terms used in the invention are explained.

A first reaction zone is designed for thermal cracking of hydrocarbons in a plasma. Plas A ^¬ mafackel generated from constituents of the carrier gas (Synthe ^¬ segas) by an electrical discharge between two Electrodes a high-temperature plasma. Such a Plasmafa ^¬ ckel is the skilled worker in general and needs no further explanation. The thermal energy of the plasma serves to cleave the hydrocarbons (usually methane) preferably in elemental hydrogen and carbon. A first reaction zone may be designed, for example, as a Kvaerner reactor.

A second reaction zone serves to generate synthesis gas using the cleavage products of the first reaction zone. The term synthesis gas Gasmi designates a ^¬ research, whose main constituents are hydrogen and Kohlenmono- hydroxide (optionally in different mixing behaves ^¬ nits). "Using the cleavage products" means that additional reactants can be used in the second reaction zone, typically CO 2 and / or water One embodiment of such a second reaction zone is the CO 2 converter or Boudouard reactor as described above. Boudouard reactor means in this context always that there in addition to a Boudouard reaction (in the case of the supply of C02) even when supplying water, a - known to the expert -. can take place water gas Konvertierungsre ^¬ action of the first gas inlet upstream of the the first reaction zone serves in normal operation of the device the supply of carrier gas for the plasma, typically syngas. Optional can ^¬ additionally in normal operation by this first gas inlet for cleaving hydrocarbons in certain micro research are introduced with the carrier gas.

The optional second gas inlet in the region of the first reaction zone is used in normal operation of the supply of for cleavage of certain hydrocarbons. This second gas inlet can be designed, for example, as a central feed lance, which is guided through a plasma flare designed as a tubular hollow body. In a further conceivable embodiment, the second gas inlet can be arranged somewhat downstream of the plasma electrodes, in order to avoid or reduce direct contact of the hydrocarbons with the electrodes and an electrode filling caused thereby by deposition of elemental carbon.

The third gas inlet in the region of the second reaction zone is used in normal operation of the supply of carbon dioxide and / or water to the Boudouard reactor or water gas conversion reactor.

The term normal operation designates the operation of the ^device under essentially constant load, in which the reactions according to the rules take place in the two reaction zones.

According to the invention, provision is made for a device for setting an operating state, in which all gas outlets are fed exclusively with synthesis gas, being provided. This means that the device in the operating state ^¬ sem no fissile hydrocarbons are led to ^¬.

In the said operating condition, in which all gas inlets, if they are in operation, exclusively with

Synthesis gas are fed, an operation of Vorrich ^¬ tion can be done in a state in which in particular in the first reaction zone at least no appreciable amounts nennens ^¬ thermally cleavable hydrocarbons are not or present. The invention has recognized that, in particular when starting or stopping a device according to the invention unfavorable operating conditions can occur. When starting and stopping the operation, a slow heating or cooling of the device is required to avoid temperature-induced stress and damage. The device runs through temperatures or states in which a normal operation is no longer possible because, for example, the temperature threshold from which a splitting of the hydrocarbons takes place, is not or no longer reached.

The core of the invention is such load change states as start-up or shut-down or even idling operation (operation in a basically suitable for normal operation operating point, but without a splitting of

Hydrocarbons or generation of synthesis gas takes place) without it can lead to undesirable side reactions and thus, for example, associated impurities of the device.

In the inventively provided operating state from ^¬ finally with synthesis gas, a slow start of the retraction o- or a setting of the desired operating point can be carried out without causing trächtigungen to any affected. This is because the carrier gas for the plasma (also referred to as plasma gas) utilization ^¬ finished syngas under all operating conditions (including starting up or shutting and normal operation) in the behaves inertly first reaction zone and the second reaction zone in ^¬ We sentlichen and there are no adverse reactions or side reactions. Essentially means inertness that the synthesis gas while the plasma magas enables the plasma formation and to the extent, of course, responds that it does not come to chemical Folgereaktio ^¬ nen that significantly change the chemical composition of the Plasmaga ^¬ ses. Only after reaching a desired and defined operating point of the normal operation is absorbed by feeding the intended for normal operation gases in the gas inlets.

The invention is of particular advantage in particular when a device according to the invention is fed with regeneratively generated electrical energy which is subject to fluctuations. The then regularly required change of operating conditions can be carried out according to the invention, without causing undesirable high signs of wear or frequent operating conditions with non-optimal implementation of the starting materials used.

Preferably, means are provided for recirculating gas from the outlet of the second reaction zone to the gas inlets. A means for recirculating gas from the exit of the second reaction zone to the gas inlets means that synthesis gas can be recirculated and recycled to some or all of the existing gas inlets.

The device according to the invention may additionally have a reservoir for synthesis gas. In particular, such a reservoir facilitates start-up when the out-of-service device is initially fed with synthesis gas must become. The reservoir may be provided for temporarily stored synthesis gas from the previous operation han ^¬ punching, alternatively or additionally, the synthesis gas from an external source, for example by mixing externally provided carbon monoxide and hydrogen.

During start-up, shut-down or idling operation, the plasma introduces an energy input into the device, which is not used for chemical reactions (splitting up of the hydrocarbons). Since this energy input ^¬ possible greater than the desired energy input for heating the device when starting, advantageously, a means for cooling at least a partial flow of the recirculated synthesis gas can be provided. It may be that cooler, which is usually provided anyway for cooling the synthesis gas before Wei ^¬ tergabe to the Fischer-Tropsch reactor. Cooling at least a part-stream allows to adjust by mixing of cooled and uncooled parts of the synthesis gas a ge ^¬ desired energy input or a desired temperature profile.

Preferably, at least one mixing device is provided for mixing an uncooled recirculated partial flow of the gas recirculated from the outlet of the second reaction zone to the gas inlets with a cooled partial stream of this gas and / or a partial stream taken from the synthesis gas reservoir. A separate mixing device may preferably be provided for each gas inlet, so that the introduction temperature at each gas inlet set different and thus the total setting ^¬ ment a desired temperature profile is facilitated in the device. Another object of the invention is a method for operating a device for generating synthesis gas during a load change state and / or in an idle ^¬ running state. This device has a first reaction zone for the ^thermal cleavage of hydrocarbons in a plasma and a second reaction zone for the production of synthesis gas using the cleavage products of the first reaction zone.

According to the invention, that both reaction zones a section of the Laständerungszu ^¬ stands and / or idle state will be supplied exclusively with Synthe ^¬ segas over at least. A feed exclusively with synthesis gas means in the context of the invention that reakti ^¬ capabilities in an other ingredients such particular Kohlenwas ^¬ bons are present in the reaction zones do not, or at most a small extent. The method according to the invention allows a controlled load change (in particular start-up or shutdown) as well as a controlled load change

Idle operation essentially without chemical reactions, side reactions or other unwanted accompanying circumstances. The method according to the invention can be carried out particularly advantageously with a device according to the invention described above. An operation exclusively with synthesis gas over at least one subsection includes that, for example, a further subsection of a load change can already take place with supply of reactive gas components such as, for example, hydrocarbons. If, for example, in the first reaction zone, a cleavage of the hydrocarbons in a certain temperature window and / or

Pressure window can be done, can be started with the introduction of hydrocarbons as soon as the lower limit of this temperature window is reached when starting. It can then ^¬ follow with already hydrocarbon feeds another load change through, for example, in the middle of this temperature window and / or pressure window.

According to the invention during a starting thus a Be ^¬ operating carried out exclusively with synthesis gas, up to a desired temperature and / or pressure level has been reached from which can be made efficient cracking of hydrocarbons in the first reaction zone.

During retraction, an operation according to the invention can exclu ^¬ Lich with synthesis gas to the slow cooling of the apparatus take place.

Finally, in an idling state, the operation can eventually be made from ^¬ with synthesis gas to maintain a desired temperature and / or pressure levels. Such a short-term idle state can be useful, for example, in the operation of the plasma with regeneratively generated electrical energy to provide short-term control energy for the operation of an electrical grid. An embodiment of the invention will be explained below with reference to ^¬ the drawing. This shows schematically a device according to the invention.

This device according to the invention will initially be described in its normal operation.

The device according to the invention has a first reaction zone 1 (designed as a Kvaerner reactor) and a second reaction zone 2 (designed as a Boudouard reactor and / or a water gas conversion reactor).

Synthesis gas is introduced as plasma gas into the first reaction zone through a first gas inlet 7 arranged upstream of the electrodes 3. Between the electrodes 3, a plasma is ignited.

Hydrocarbons are introduced through the second gas inlet 8, which are thermally partly directly in the plasma, partly split in the hot zone of the plasma slightly downstream on ^¬ into hydrogen and elemental carbon. The gas / solid mixture thus produced enters the second reaction zone 2. Through the third gas inlet 9 C02 and / or water is supplied. Elemental carbon can be converted into carbon monoxide with carbon dioxide in a Boudouard reaction. Alternatively or additionally, a water gas conversion reaction can be carried out with water introduced. At the output of the second reaction zone 2 at 14 Synthe ^¬ segas is removed. In normal operation, this is cooled in a Küh ^¬ ler 4 to a desired temperature level and supplied for example to a subsequent reactor for the production of liquid hydrocarbons at 15, in ^¬ game as a Fischer-Tropsch reactor.

The normal operation described so far corresponds to the prior art.

According to the invention, synthesis gas (uncooled or cooled) can be recycled before the cooler 4 at 16 and after the cooler at 17 and pumped by means of pumps 18, 19 in the direction of the gas inlets 7, 8, 9. Mixer 10, 11, 12 allow to set for each of the gas inlets to flow a desired mixing ratio of refrigerated and unrefrigerated part ^¬ and thus to control the inlet temperature at each of the gas inlets individually. In particular during a starting frequently is initially not enough synthesis gas for ignition and upright ^¬ pose a plasma available. Therefore, a reservoir 5 is additionally provided. It can be a tank that is fed with syngas in normal operation and keeps it in stock for the next start-up.

Additionally, 13 may be used hydrogen or carbon monoxide from supply containers ^¬ 6, if necessary.

Claims

 claims Apparatus for generating synthesis gas comprising: a. a first reaction zone (1) for thermal Spal ^¬ processing of hydrocarbons in a plasma, b. a second reaction zone (2) for generating Synthesis gas using the fission products of the first reaction zone, c. a first gas inlet (7) upstream of the first re ^¬ action zone (1), d. a second gas inlet (8) in the region of the first reaction zone (1), e. a third gas inlet (9) in the region of the second reaction zone (2), characterized in that it further comprises: f. a device for setting an operating state in which all gas inlets (7, 8, 9) are fed exclusively with synthesis gas. Device for the production of synthesis gas according to claim 1, characterized in that it ^{comprises a} direction for the return of gas from the exit of the second reaction zone (2) to the gas inlets (7, 8, 9). Apparatus according to claim 1 or 2, characterized in that it additionally comprises a reservoir (5, 6, for synthesis gas. Device according to one of claims 1 to 3, characterized in that it comprises means (4) for cooling ^¬ treatment of at least a partial flow of the recirculated from the outlet of the second reaction zone to the gas inlets (7, 8, 9) gas. Device according to one of claims 1 to 4, characterized in that it comprises at least one Mischeinrich ^¬ device (10, 11, 12) for mixing an uncooled recycled partial flow of the recirculated from the exit of the second reaction zone to the gas inlets (7, 8, 9) gas with a cooled partial flow of this gas on ^¬ has. Device according to one of claims 1 to 5, characterized in that it comprises at least one Mischeinrich ^¬ device (10, 11, 12) for mixing an uncooled recycled partial flow of the recirculated from the outlet of the second reaction zone to the gas inlets (7, 8, 9) gas having a the reservoir (5, 6, 13) for synthesis ^¬ gas taken partial stream. 7. A method of operating a synthesis gas generating apparatus comprising: a. a first reaction zone (1) for thermal Spal ^¬ processing of hydrocarbons in a plasma, b. a second reaction zone (2) for generating Synthesis gas using the fission products of the first reaction zone (1), in a load change state and / or an idle state, characterized in that both reaction zones (1,2) over at least a portion of the load change state and / or idle state are fed exclusively with synthesis gas. A method according to claim 7, characterized in that the device used is a device according to one of claims 1 to 6. A method according to claim 7 or 8, characterized in that the load change state is a starting operation and the operation is carried out exclusively with synthesis gas until a desired temperature and / or pressure levels. A method according to claim 7 or 8, characterized in that the load change state is a Abfahrvorgang and the operation is carried out exclusively with synthesis gas to cool the device. A method according to claim 7 or 8, characterized in that in the idle state of the operation exclusively with ^¬ synthesis gas to maintain a desired temperature and / or pressure levels takes place.