DE202015105493U1 - Reformer for the production of synthesis gas - Google Patents

Abstract

A steam reformer, comprising: - a firebox, having a bottom, a ceiling and the firebox-terminating sidewalls, - catalyst tubes arranged in multiple rows, piercing the floor and / or ceiling of the firebox, - the ceiling, the floor or one or more Side walls of the firebox arranged burner for heating the catalyst tubes, - below the floor or above the ceiling of the firebox running supply lines for supplying the catalyst tubes with educt gas and the burner with air and fuel gas, - below the floor or above the ceiling of the firebox running manifolds for the discharge of the product gas, - below the floor or above the ceiling of the firebox running channels for removing the burner exhaust gases from the furnace, the ceilings or bottoms of the channels are each formed from the bottom or the ceiling of the furnace, the channels along and doing between the rows of the cata- are arranged and wherein the ceilings of the channels openings for the passage of the exhaust gases, characterized in that the channels for discharging the burner exhaust gases are designed so that the flow rate of the burner exhaust gases over the entire length of the channels, seen perpendicular to the catalyst tubes, constant is.

Description

Field of the invention

• – einen Feuerraum, mit einem Boden, einer Decke und den Feuerraum abschließenden Seitenwänden,
• – in mehreren Reihen angeordnete Katalysatorrohre, die den Boden und/oder die Decke des Feuerraums durchstoßen,
• – in der Decke, dem Boden oder einer oder mehrerer Seitenwände des Feuerraums angeordnete Brenner zur Beheizung der Katalysatorrohre,
• – unterhalb des Bodens oder oberhalb der Decke des Feuerraums verlaufende Zuleitungen jeweils für die Versorgung der Katalysatorrohre mit Eduktgas und der Brenner mit Luft und Brenngas,
• – unterhalb des Bodens oder oberhalb der Decke des Feuerraums verlaufende Sammelleitungen für die Ableitung des Produktgases,
• – unterhalb des Bodens oder oberhalb der Decke des Feuerraums verlaufende Kanäle zur Abfuhr der Brennerabgase aus dem Feuerraum, wobei die Decken der Kanäle jeweils vom Boden oder der Decke des Feuerraums gebildet werden, wobei die Kanäle längs und dabei zwischen den Reihen der Katalysatorrohre angeordnet sind und wobei die Decken der Kanäle Öffnungen für den Durchtritt der Abgase aufweisen.

The invention relates to a steam reformer, comprising:

• A firebox, with a floor, a ceiling, and side walls closing the firebox,
• Catalyst tubes arranged in several rows, which pierce the bottom and / or the ceiling of the combustion chamber,
• - In the ceiling, the floor or one or more side walls of the furnace arranged burner for heating the catalyst tubes,
• - Under the floor or above the ceiling of the furnace extending supply lines respectively for the supply of the catalyst tubes with educt gas and the burner with air and fuel gas,
• - Manifolds extending below the floor or above the ceiling of the combustion chamber for the discharge of the product gas,
• - Under the floor or above the ceiling of the furnace extending channels for removing the burner exhaust gases from the furnace, wherein the ceilings of the channels are each formed from the bottom or the ceiling of the furnace, the channels are arranged longitudinally and thereby between the rows of catalyst tubes and wherein the ceilings of the channels have openings for the passage of the exhaust gases.

Furthermore, a process for the catalytic conversion of hydrocarbon-containing gas with steam in a synthesis gas containing hydrogen and carbon oxides is described.

State of the art

Steam reformers for converting gaseous hydrocarbons with steam in synthesis gas consisting mainly of carbon monoxide and hydrogen are known. The steam reforming process is basically, z. In Ullmann's Encyclopedia of Industrial Chemistry, Sixth Ed., Vol. 15, chapter "Gas Production", chap. 2.2 described. The various types of tubular reactors which have proven themselves for this process are described in Chap. 2.2.3 of the same chapter. There tubular reactors are shown, in which the burners are installed in the roof or in the side walls of the reformer housing. It should be added that variants with installed in the bottom of the housing burners, with vertically upwards, directed into the housing flames, are possible, as z. B. in the Offenlegungschrift DE 2521683 A1 is mentioned.

For the uniform heating of all located in the reformer housing, filled with a catalyst fixed bed reformer tubes, the design and arrangement of the channels for removing the burner exhaust gases from the housing is very important. As in 6 of the above Ullmann chapter 2.2.3 As shown, a well-established design of the reformer is to arrange the burners in the housing roof and the exhaust manifolds at the bottom of the housing. Here are the burners and the channels, each opposite, between the rows of reformer tubes. From the publication DE 10 2011 120 938 A1 is also the possibility known to arrange the exhaust manifolds directly under the bottom of the reformer housing. The bottom of the reformer housing simultaneously forms the cover of the channels. Through openings in the cover, the burner exhaust gas from the reformer housing passes into the exhaust gas collection channels. The ends of the channels are connected via a manifold with a device for exhausting the exhaust gas, such as a fan or a fireplace. Due to the flow resistance, which is subject to the exhaust gas flow within the channels, leads to a pressure drop from the channel beginning to the channel end. Furthermore, the extracted amount of exhaust gas cumulatively increases over the length of the channels, since additional burner exhaust gases are discharged from the reformer housing via additional openings in the longitudinal directions of the channels. This results in uneven, distributed over the channel length or in the bottom region of the reformer housing turbulence in the burner exhaust gas and thus to an uneven heating of the reformer tubes.

Description of the invention

The object of the invention is therefore to provide a steam reformer available, in which the disadvantages described in the extraction of the burner exhaust gases are avoided. This object is achieved by a steam reformer according to the features of claim 1:

Steam reformer according to the invention:

• – einen Feuerraum, mit einem Boden, einer Decke und den Feuerraum abschließenden Seitenwänden,
• – in mehreren Reihen angeordnete Katalysatorrohre, die den Boden und/oder die Decke des Feuerraums durchstoßen,
• – in der Decke, dem Boden oder einer oder mehrerer Seitenwände des Feuerraums angeordnete Brenner zur Beheizung der Katalysatorrohre,
• – unterhalb des Bodens oder oberhalb der Decke des Feuerraums verlaufende Zuleitungen jeweils für die Versorgung der Katalysatorrohre mit Eduktgas und der Brenner mit Luft und Brenngas,
• – unterhalb des Bodens oder oberhalb der Decke des Feuerraums verlaufende Sammelleitungen für die Ableitung des Produktgases,
• – unterhalb des Bodens oder oberhalb der Decke des Feuerraums verlaufende Kanäle zur Abfuhr der Brennerabgase aus dem Feuerraum, wobei die Decken bzw. Böden der Kanäle jeweils vom Boden oder der Decke des Feuerraums gebildet werden, wobei die Kanäle längs und dabei zwischen den Reihen der Katalysatorrohre angeordnet sind und wobei die Decken der Kanäle Öffnungen für den Durchtritt der Abgase aufweisen, dadurch gekennzeichnet, dass die Kanäle zur Abfuhr der Brennerabgase so ausgestaltet sind, dass die Strömungsgeschwindigkeit der Brennerabgase über die gesamte Länge der Kanäle, senkrecht zu den Katalysatorrohren gesehen, konstant ist.

Steam reformer comprising:

• A firebox, with a floor, a ceiling, and side walls closing the firebox,
• Catalyst tubes arranged in several rows, which pierce the bottom and / or the ceiling of the combustion chamber,
• - In the ceiling, the floor or one or more side walls of the furnace arranged burner for heating the catalyst tubes,
• - Under the floor or above the ceiling of the furnace extending supply lines respectively for the supply of the catalyst tubes with educt gas and the burner with air and fuel gas,
• - Manifolds extending below the floor or above the ceiling of the combustion chamber for the discharge of the product gas,
• - Runs below the floor or above the ceiling of the firebox channels for removing the burner exhaust gases from the furnace, wherein the ceilings or bottoms of the channels are each formed from the bottom or the ceiling of the firebox, wherein the channels along and between the rows of catalyst tubes are arranged and wherein the ceilings of the channels have openings for the passage of the exhaust gases, characterized in that the channels for discharging the burner exhaust gases are designed so that the flow rate of the burner exhaust gases over the entire length of the channels, seen perpendicular to the catalyst tubes, is constant ,

By keeping the flow velocity constant along the length of the channel according to the invention, the ratio between the dynamic and the static part of the pressure, according to Bernoulli's law of energy conservation, also remains constant. If, on the other hand, the flow velocity would increase from the beginning of the channel to the beginning of the channel, the static pressure component would decrease as a result of this increase in the dynamic pressure component and thus the static pressure difference between the interior spaces of the reformer housing and the channel would increase. This in turn would tend to lead to a stronger extraction of burner exhaust gas in this area of the channels, which would have to be met with a reduction in the passage openings between the housing and the channel.

• – Bereitstellen eines kohlenwasserstoffhaltigen Gases und von Dampf,
• – Erzeugen eines Eduktgases durch Vermischen des Gases und des Dampfs,
• – Umwandeln des Eduktgases in ein Wasserstoff und Kohlenoxide umfassendes Synthesegas durch Umsetzen in einem Dampfreformer gemäß eines der Ansprüche 1 bis 6 unter Reformierungsbedingungen,
• – Ausleiten des Synthesegases zur weiteren Behandlung außerhalb des Verfahrens.

Furthermore, a process for the catalytic conversion of hydrocarbon-containing gas with steam into a synthesis gas containing hydrogen and carbon oxides, comprising the following process steps:

• Providing a hydrocarbon-containing gas and steam,
• Producing a reactant gas by mixing the gas and the vapor,
• Converting the educt gas into a synthesis gas comprising hydrogen and carbon oxides by reacting in a steam reformer according to one of claims 1 to 6 under reforming conditions,
• - discharging the synthesis gas for further treatment outside the process.

Reforming conditions are understood to mean the operating conditions of the reformer plant familiar to the person skilled in the art, which ensure a technically and economically meaningful degree of conversion of the starting materials to synthesis gas components. A selected set of operating conditions is also referred to as operating point.

Preferred embodiments of the invention

A preferred embodiment of the invention is characterized in that the channels have a wedge-shaped, in the flow direction from its beginning to its end widening longitudinal profile. This embodiment takes account of the cumulative increase in the amount of exhaust gas over the length of the exhaust gas channels.

It is furthermore preferred if the openings in the channel ceilings are continuous over the entire channel length and thereby have a wedge profile tapering in the flow direction. As a result, the pressure loss over the length of the exhaust ducts increases as the burner exhaust gases pass from the combustion chamber into the channels, so that the burner exhaust gases can be more easily extracted from the rear part of the exhaust ducts facing away from the exhaust device.

The two aforementioned preferred embodiments can be advantageously combined, since in this way the change in the channel cross section and the change in the size of the openings in the duct ceiling between the reformer housing and channel continuously and without jumps, which comes to the homogenization of the exhaust gas flow of the burner exhaust gas from the reformer housing to good , Unilateral mechanical loads on the exhaust ducts or the combustion chamber, as well as the turbulence caused by uneven heating of the reformer tubes are reduced.

In a further preferred embodiment of the invention, the openings in the duct ceilings are covered by gratings. In this way, a continuous opening is formed, which is not interrupted by closed places. This contributes positively to a further homogenization of the exhaust gas flow.

A further preferred embodiment of the invention is characterized in that the ceilings of the channels each consist of a plurality of extending over the entire width of the channel plates, wherein openings are formed in the channel ceilings by the plates are laid at intervals to each other. In this way, the width of the channel opening is maintained over the entire channel length. This simplifies the design and construction of the channels. The size of the passages can be easily changed by replacing and / or moving the plates.

A further preferred embodiment of the invention is characterized in that the distances between the plates to each other in the flow direction of the exhaust gas are continuously smaller. Thereby the static pressure in the channel in the flow direction decreases, the exhaust pressure of the burner exhaust gas from the reformer housing over the channel length is made uniform.

embodiment

Other features, advantages and applications of the invention will become apparent from the following description of exemplary embodiments and the drawings. All described and / or illustrated features alone or in any combination form the subject matter of the invention, regardless of their combination in the claims or their dependency.

Reference to the drawing, an exemplary embodiment of the invention will be explained. Showing:

1 , CC 'is a sectional drawing of the steam reformer, seen from above,

2 , AA ', a sectional drawing of the steam reformer, viewed from the front,

3 , BB ', a sectional drawing of the steam reformer, viewed from the longitudinal side,

4 , an exhaust duct with wedge-shaped opening to the reformer housing,

5 an exhaust passage whose opening to the reformer housing is covered with plates.

1 shows a steam reformer 1 with arranged in three parallel rows reformer tubes 2 , Parallel to the rows of reformer tubes are the burners 3 in four rows in the roof of the steam reformer housing 4 arranged. Opposite the firing rows is one channel each 5 to remove the burner exhaust gas below the floor 6 of the reformer housing 4 Installed. The upper limit, ie the cover 11 of the canal 5 also forms part of the soil at the same time 6 of the reformer housing 4 , In 1 the openings for the passage of the burner exhaust gases in the covers are not shown. The arrows 7 indicate the flow direction of the burner exhaust gas. The burner exhaust gas will, if it is at the end of the channel 5 exited by an unillustrated exhaust gas collection system, which includes a suction device.

2 shows the steam reformer 1 seen from the front. The arrows 8th set the fuel gas supply to the burners 3 dar. The flames of the burner 3a are vertical in the reformer housing 4 into directed. The arrows 9 put the educt gas supply to the reformer tubes 2 and the arrows 10 the product gas removal from the reformer tubes 2 Through the reformer floor 6 passes through passages in the duct cover 11 , symbolized here by a dashed line, the burner exhaust gas 7 in the exhaust ducts 5 above.

3 shows the steam reformer 1 seen from the long side. In this figure is sketched how the height H, and thus the cross section, of the channel 5 from the channel start 5a to the end of the canal 5b increases according to the invention.

4 corresponds to a section of 1 and shows one between two rows of reformer tubes 2 lying burner exhaust duct 6 , The opening of the channel cover 11 is covered with a grid and the shape of the opening has a continuous over the entire channel length and thereby tapering in the flow direction spline.

5 also corresponds to a section 1 and also shows one between two rows of reformer tubes 2 lying burner exhaust duct 6 , In this case, the ceiling of the channel consists of a plurality of extending over the entire width of the channel plates 12 , Which are laid at intervals to each other on the covered grate duct ceiling, in such a way that the distances between the plates, and thus the openings in the duct ceiling, from the channel beginning towards the channel end, ie in the flow direction of the burner exhaust gases, continuously smaller.

Industrial Applicability

The invention serves to improve the uniformity of the heating of a steam reformer. This increases the economy of the reformer operation. The invention is therefore industrially applicable.

LIST OF REFERENCE NUMBERS

1

steam reformer

2

reformer tube

3

burner

4

reformer housing

5

Exhaust duct for removal of burner exhaust gas

5a

Channel start of the exhaust duct

5b

Channel end of the exhaust duct

6

Bottom of the reformer housing

7

burner exhaust

8th

fuel gas

9

reactant gas

10

product gas

11

Gas-permeable cover for exhaust duct, part of the reformer housing bottom

12

Plates for local covering of 11

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• DE 2521683 A1 [0003]
• DE 102011120938 A1 [0004]

Cited non-patent literature

• Ullmann's Encyclopedia of Industrial Chemistry, Sixth Ed., Vol. 15, chapter "Gas Production", chap. 2.2 [0003]
• Ullmann chapter 2.2.3 [0004]

Claims (6)

A steam reformer, comprising: - a firebox, having a bottom, a ceiling and the firebox-terminating sidewalls, - catalyst tubes arranged in multiple rows, piercing the floor and / or ceiling of the firebox, - the ceiling, the floor or one or more Side walls of the firebox arranged burner for heating the catalyst tubes, - below the floor or above the ceiling of the firebox running supply lines for supplying the catalyst tubes with educt gas and the burner with air and fuel gas, - below the floor or above the ceiling of the firebox extending manifolds for the discharge of the product gas, - below the floor or above the ceiling of the firebox running channels for removing the burner exhaust gases from the furnace, the ceilings or bottoms of the channels are each formed from the bottom or the ceiling of the furnace, the channels along and doing between the rows of the cata- torrohre are arranged and wherein the ceiling of the channels have openings for the passage of the exhaust gases, characterized in that the channels for the discharge of the burner exhaust gas are configured so that the flow velocity of the burner exhaust gases over the entire length of the channels, seen perpendicular to the catalyst tubes, constant is. Steam reformer according to claim 1, characterized in that the channels have a wedge-shaped, in the flow direction from its beginning to its end widening longitudinal profile. Steam reformer according to claim 1 or 2, characterized in that the openings in the duct ceilings are covered by gratings. Steam reformer according to one of the preceding claims, characterized in that the openings in the duct ceiling in each case over the entire channel length are continuous and thereby have a tapered in the flow direction spline. Steam reformer according to one of the preceding claims, characterized in that the ceilings of the channels each consist of a plurality of plates extending over the entire width of the channel, openings being formed in the channel ceilings by laying the plates at intervals relative to one another. Steam reformer according to claim 5, characterized in that the openings in the duct ceiling in the flow direction are continuously smaller.

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