DE102008004077A1 - Process and apparatus for the treatment of natural gas for use in a gas engine - Google Patents

Abstract

For processing natural gas for use in a gas engine, higher hydrocarbons (14) are separated from an incoming natural gas mixture (10), and the remaining natural gas mixture (16), whose methane number is increased by removing the higher hydrocarbons (14), becomes a gas engine fuel (18).

Description

The The invention relates to a method and a device for the preparation of Natural gas for use in a gas engine and a correspondingly treated Natural gas and its use.

Gas engines, such as diesel gas engines and gas Otto engines, are gaining increasing importance, for example, as drive units for stationary systems and in natural gas vehicles. Structure and operation of a diesel gas engine are for example in the DE 197 54 354 C1 and the DE 10 2005 050 435 A1 described in detail, which documents are therefore taken in full in this context.

For the functioning of a gas engine, in particular its combustion process, the gas quality of the natural gas used is of crucial importance. The essential components of natural gas are the hydrocarbons methane (CH ₄ ), ethane (C ₂ H ₆ ), propane (C ₃ H ₈ ) and butane (C ₄ H ₁₀ ) and the gases carbon dioxide (CO ₂ ) and nitrogen (N ₂ ) and possibly hydrogen sulfide (H ₂ S). Depending on their origin, the methane numbers of the natural gas available in Europe usually range between 70 and 98. In general, the tendency to knock during the combustion process increases with decreasing methane number, with pure methane having a methane number of 100 and pure hydrogen having a methane number of 0 has. While the presence of propane and butane in natural gas reduces the knock resistance, the inert gas constituents nitrogen and carbon dioxide can increase the knock resistance, so that even methane numbers of more than 100 are possible for a natural gas mixture.

by virtue of increasingly poorer fuel gas quality with methane numbers even under 70 and restricted operating areas more modern Gas engines have a need for improvement the fuel gas quality, in particular to increase the methane number of the fuel gas.

It is therefore an object of the present invention, an improved Method and an improved device for the treatment of Natural gas for use in a gas engine to create.

According to one The first aspect of the invention achieves this object by a method for the treatment of natural gas with the features of claim 1.

The Process for the treatment of natural gas for use in a gas engine is characterized in that from an existing or incoming Natural gas mixture higher hydrocarbons are deposited and the remaining natural gas mixture a gas engine as a fuel is made available.

By separating the higher hydrocarbons from a natural gas mixture, the methane number of the remaining natural gas mixture is increased, which leads to an improvement in the fuel quality due to its higher anti-knocking properties. Natural gas mixtures with lower methane numbers for modern gas engines with limited operating ranges can advantageously also be used with the aid of this method. The methane number can, for example, according to E DIN 51624 : 2007-01 to be calculated.

The Process is for the treatment of natural gas for use in gas engines such as diesel gas engines and gas Otto engines, each with or without prechamber ignition, each with or without charging, equally suitable. The gas engines, for example, for stationary installations or in natural gas vehicles become.

Further the procedure is basically for any Natural gas mixtures applicable, even if it is lower in natural gas mixtures Methane number is of particular advantage. To the higher to be separated Hydrocarbons include in particular all hydrocarbons having at least two carbon atoms, d. H. Ethane, propane, butane, etc. Depending on the embodiment of the deposition process count to the higher hydrocarbons in particular all hydrocarbon having at least three or more carbon atoms. Higher hydrocarbons generally have higher boiling temperatures. Prefers become therefore from the reprocessing natural gas higher boiling Hydrocarbons separated and the remaining natural gas mixture a gas engine provided as fuel.

The higher hydrocarbons can come from an incoming Natural gas mixture, for example by means of a membrane separation process and / or a pressure condensation process are deposited, without the present invention being directed to these two deposition processes should be limited. In one embodiment of the invention the higher hydrocarbons are coming from the incoming Natural gas mixture removed by means of a multi-stage process, whereby the efficiency of the deposition process is increased.

In an advantageous embodiment of the invention, the separated higher hydrocarbons are liquefied and then made available to a gas engine as ignition medium. As the higher hydrocarbons generally also higher Have boiling points, they can easily be liquefied and then they are more inflammable than, for example, the gaseous methane, whereby, for example, the Glühstifttemperatur an igniter can be reduced.

According to one Second aspect of the invention, the above object is achieved by a device for the treatment of natural gas with the features of claim 5 solved.

The Apparatus for treating natural gas for use in a gas engine is according to the invention with a separator for separating higher hydrocarbons from an incoming one Natural gas mixture and means for receiving the remaining Natural gas mixture provided as fuel for a gas engine.

With This device will have the same advantages as the one above achieved method, which is why a further explanation is waived.

The Separator is, for example, for separating the higher Hydrocarbons from the incoming natural gas mixture by means of a membrane separation process and / or a pressure condensation process.

Preferably the apparatus further comprises means for liquefying the precipitated higher hydrocarbons and especially preferably means for receiving the liquefied higher hydrocarbons as ignition medium for a gas engine on.

Above and other objects, features and advantages of the present invention will become apparent from the following description of a preferred embodiment better understood with reference to the accompanying drawings. Therein, the single figure shows a schematic process flow diagram to explain the present invention.

The 1 shows, partially in schematic form, a process according to the invention for the treatment of natural gas for use in a gas engine. The treatment of a natural gas mixture may, of course, before and / or after the steps shown in the figure, contain further processes and devices (eg filters, sensors, etc.) which are required for processing a natural gas mixture as fuel for a gas engine and to a person skilled in the art are known in the art.

An incoming natural gas mixture 10 usually contains the components methane (CH ₄ ), ethane (C ₂ H ₆ ), propane (C ₃ H ₃ ) and butane (C ₄ H ₁₀ ) and carbon dioxide (CO ₂ ) and nitrogen (N ₂ ) and possibly hydrogen sulfide ( H ₂ S). The methane number of the incoming natural gas mixture 10 in Europe typically ranges between 70 and 98, but increasingly below 70. The incoming natural gas mixture 10 becomes a separator 12 for separating higher hydrocarbons 14 , that is hydrocarbons having at least two carbon atoms, in other words ethane, propane, butane, etc. fed. Alternatively, only higher hydrocarbons can be used 14 be deposited with at least three or more carbon atoms.

The separation of the higher hydrocarbons 14 takes place for example by means of a membrane separation process or a pressure condensation process. To increase the efficiency of this deposition process, the higher hydrocarbons become 14 from the incoming natural gas mixture 10 preferably removed in a multi-step process.

The remaining after the deposition of natural gas mixture 16 contains methane as the main component and thus has a higher methane number than the incoming natural gas mixture 10 , The remaining natural gas mixture 16 has due to the higher methane number increased knock resistance and thus improved quality and performance as a fuel 18 for a gas engine. The method of the invention is thus particularly for the treatment of incoming natural gas mixtures 10 with low methane numbers of, for example, less than 70 of advantage, but can in principle also in natural gas mixtures 10 be applied with higher methane numbers.

In a particularly preferred embodiment of the invention, the deposited higher hydrocarbons 14 another facility 20 supplied for liquefying these hydrocarbons. After liquefaction, the higher hydrocarbons can 14 then a gas engine as the ignition medium 22 to provide. The liquified higher hydrocarbons may be used in the gas engine using existing or modified injection technology.

Higher hydrocarbons also have a higher boiling point than methane (methane: -162 ° C, ethane: -88.6 ° C, propane: -42 ° C, butane: -0.5 ° C). For this reason, the higher hydrocarbons can be easily separated, the deposited higher hydrocarbons 14 liquefy easily and with less energy and the gas engine as a liquid ignition medium 22 provide. Such a liquid ignition medium 22 is much more zündwilliger than, for example, the gaseous methane, so that the Glühstifttemperatur an ignition device of the gas engine and the Energy consumption for the high-pressure compression in the gas engine can be reduced. Analyzes of natural gas mixtures have shown that in low-grade natural gas mixtures with a low methane number, a liquid gas quantity of 2 to 4% usable as the ignition medium is present.

The ignition medium generated in this way 22 and the fuel produced in this way 18 are first each collected in a suitable means for receiving these substances (eg collection tank) before being fed to a gas engine.

The Methods and apparatus of the invention thus provide both a fuel with improved quality (higher Methane number, lower tendency to knock, higher power yield) as well as an ignition medium with improved quality (higher ignition, high pressure compression with less energy) for a gas engine.

QUOTES INCLUDE IN THE DESCRIPTION

This list The documents listed by the applicant have been automated generated and is solely for better information recorded by the reader. The list is not part of the German Patent or utility model application. The DPMA takes over no liability for any errors or omissions.

Cited patent literature

• - DE 19754354 C1 [0002]
• - DE 102005050435 A1 [0002]

Cited non-patent literature

• - E DIN 51624 [0008]

Claims (13)

Process for the treatment of natural gas for use in a gas engine, characterized in that from a natural gas mixture ( 10 ) higher hydrocarbons ( 14 ) are at least partially separated and the remaining natural gas mixture ( 16 ) a gas engine as fuel ( 18 ) is made available. Process according to claim 1, characterized in that higher hydrocarbons ( 14 ) from the incoming natural gas mixture ( 10 ) at least partially by means of a membrane separation process ( 12 ) are deposited. Process according to Claim 1 or 2, characterized in that higher hydrocarbons ( 14 ) from the incoming natural gas mixture ( 10 ) at least partially by means of a pressure condensation process ( 12 ) are deposited. Method according to one of claims 1 to 3, characterized in that higher hydrocarbons ( 14 ) from the incoming natural gas mixture ( 10 ) are removed by a multi-step process. Method according to one of claims 1 to 4, characterized in that the deposited higher hydrocarbons ( 14 ) are liquefied ( 20 ) to a gas engine as ignition medium ( 22 ) to be made available. Method according to one of the preceding claims, characterized in that the methane number of the reprocessed Natural gas mixture, in particular according to E DIN 51624, at most 90, in particular at most 80, preferred not more than 70. Method according to one of the preceding claims, that from the reprocessed natural gas mixture boiling higher Hydrocarbons, in particular propane, butane and / or pentane, be deposited. Device for the treatment of natural gas for use in a gas engine, characterized by a separating device ( 12 ) for separating higher hydrocarbons ( 14 ) from a natural gas mixture ( 10 ) and means for receiving the remaining natural gas mixture ( 16 ) as fuel ( 18 ) for a gas engine, which is designed for carrying out a method according to one of the preceding claims. Apparatus according to claim 8, characterized in that the separating device ( 12 ) for separating the higher hydrocarbons ( 14 ) from the incoming natural gas mixture ( 10 ) by means of a membrane separation process ( 12 ) is trained. Apparatus according to claim 8 or 9, characterized in that the separating device ( 12 ) for separating the higher hydrocarbons ( 14 ) from the incoming natural gas mixture ( 10 ) by means of a pressure condensation process ( 12 ) is trained. Device according to one of claims 8 to 10, characterized in that the device further comprises a device ( 20 ) for liquefying the separated higher hydrocarbons ( 14 ) and means for receiving the liquefied higher hydrocarbons as the ignition medium ( 20 ) for a gas engine. Natural gas for use in a gas engine, characterized that it according to a method according to any one of claims 1 until 7 has been processed. Use of a method according to a of claims 1 to 7 processed natural gas as fuel for a gas engine.