DE102009023569A1 - Separating heavy hydrocarbons from a hydrocarbon-rich feed fraction by washing, comprises supplying a feed fraction and a washing agent in a first washing column, and supplying the obtained product in a second separating column - Google Patents

Abstract

Separating heavy hydrocarbons from a hydrocarbon-rich feed fraction by washing, comprises: supplying a feed fraction (1) and a washing agent (2) in a first washing column (T1), which is provided in the head area, where the washing agent is a mixture of at least isopentane and n-pentane; and supplying the washing agent loaded with the heavy hydrocarbons in a second separating column (T2), where a separation into a liquid fraction containing heavy hydrocarbons and a C 5-rich fraction takes place in the second separating column, and the C 5-rich fraction is used for producing the washing agent. Separating heavy hydrocarbons from a hydrocarbon-rich feed fraction by washing, comprises: supplying a feed fraction (1) and a washing agent (2) in a first washing column (T1), which is provided in the head area, where the washing agent is a mixture of at least isopentane and n-pentane (90 mol.%); and supplying the washing agent loaded with the heavy hydrocarbons obtained in the first column in a second separating column (T2), where a separation into a liquid fraction containing heavy hydrocarbons and a C 5-rich fraction takes place in the second separating column, and the C 5-rich fraction is used for producing the washing agent.

Description

The The invention relates to a process for separating heavy hydrocarbons from a hydrocarbon-rich feed fraction, the heavy ones Hydrocarbons are separated by means of a wash.

Generic processes for separating heavy hydrocarbons from a hydrocarbon-rich feed fraction are usually preceded by a cryogenic separation and / or liquefaction process. In this case, the hydrocarbon-rich feed fraction, which is, for example, natural gas, must be freed from those components that could precipitate or freeze during the subsequent cryogenic disassembly, liquefaction and / or storage of the liquefied product as solids. In addition to water and carbon dioxide in particular heavy hydrocarbons, such as benzene or normal parafins from nC ₇ H _{16 are} to be removed.

The term "heavy hydrocarbons" below C ₆₊ hydrocarbons are to be understood.

From the US-A 5,771,712 For example, a process is known in which a C ₂ -rich liquid fraction is used to scrub C ₃₊ hydrocarbons from a hydrocarbon-rich feed fraction. Here, the detergent is withdrawn together with the overhead gas in gaseous form from the wash column. Due to the resulting relatively high loss of detergent, this procedure is economically useful only in an open circuit in which the detergent component in the feed fraction is present in sufficient quantity and the release of this detergent component together with the fraction from which separated the C ₃₊ hydrocarbons were allowed. Due to the relatively light key components C ₂ and C ₃ , an operation of the above-described laundry in a temperature range of about -30 to -80 ° C is required, in which there is a risk that heavy components of the feed fraction freeze before entering the laundry can.

task The present invention is a generic Process for separating heavy hydrocarbons from a hydrocarbon rich Feed fraction, the heavy hydrocarbons by means of a Wash to be separated, indicate that at a temperature of more than 0 ° C, no risk of freezing Components of process steps below a temperature of 0 ° C and economically viable costs for allows the required detergent consumption.

• a) die Einsatzfraktion einer ersten Waschkolonne, der im Kopfbereich ein Waschmittel aufgegeben wird, zugeführt wird,
• b) wobei als Waschmittel eine wenigstens 90 Mol-% iso-Pentan und n-Pentan enthaltende Mischung verwendet wird,
• c) das in der ersten Waschkolonne gewonnene, mit schweren Kohlenwasserstoffen beladene Waschmittel einer zweiten Trennkolonne zugeführt wird, und
• d) in der zweiten Trennkolonne eine Auftrennung in eine die schweren Kohlenwasserstoffe enthaltende Flüssigfraktion und eine C₅-reiche Fraktion erfolgt,
• e) wobei diese C₅-reiche Fraktion zur Erzeugung des Waschmittels verwendet wird.

To achieve this object, a method for separating heavy hydrocarbons from a hydrocarbon-rich feed fraction, wherein the heavy hydrocarbons are separated by means of a laundry, proposed, which is characterized in that

• a) the feed fraction of a first wash column, which is fed in the head region a detergent, is supplied,
• b) using as detergent at least 90 mol% iso-pentane and n-pentane-containing mixture,
• c) the recovered in the first wash column, loaded with heavy hydrocarbons detergent is fed to a second separation column, and
• d) in the second separation column a separation into a liquid fraction containing the heavy hydrocarbons and a C ₅ -rich fraction takes place,
• e) wherein this C ₅ -rich fraction is used to produce the detergent.

• – als Waschmittel eine wenigstens 95 Mol-% iso-Pentan und n-Pentan enthaltende Mischung verwendet wird,
• – die zur Erzeugung des Waschmittels verwendete, C₅-reiche Fraktion einer Abtrennung leichter Kohlenwasserstoffe, insbesondere von C_4–-Kohlenwasserstoffen unterworfen wird,
• – der zur Erzeugung des Waschmittels verwendeten, C₅-reichen Fraktion iso-Pentan und/oder n-Pentan zugegeben wird, und
• – sofern die Kohlenwasserstoff-reiche Einsatzfraktion nach erfolgter Abtrennung der schweren Kohlenwasserstoffe einem Verflüssigungs- oder einem Zerlegungsprozess zugeführt und dabei abgekühlt werden, die vor- oder abgekühlte Einsatzfraktioneiner dritten Trennkolonne zugeführt, in dieser aus der Einsatzfraktion eine C₅-reichen Fraktion abgetrennt und der ersten Waschkolonne als zusätzliche Waschmittelfraktion zugeführt wird.

Further advantageous embodiments of the inventive method for separating heavy hydrocarbons from a hydrocarbon-rich feed fraction, which are subject matters of the dependent claims, are characterized in that

• If the detergent used is a mixture containing at least 95 mol% isopentane and n-pentane,
• The C ₅ -rich fraction used for the production of the detergent is subjected to a separation of light hydrocarbons, in particular of C ₄ -hydrocarbons,
• - the C ₅ -rich fraction iso-pentane and / or n-pentane used to produce the detergent is added, and
• - provided that the hydrocarbon-rich feed fraction to a liquefaction or a separation process is supplied cooled and the fed or cooled feed fraction of a third separation column fed, separated in this from the feed fraction a C ₅ -rich fraction and the first Washing column is supplied as an additional detergent fraction.

The inventive method for separating heavy Hydrocarbons from a hydrocarbon-rich feed fraction and further advantageous embodiments of the same, the objects are the dependent claims are below based on the embodiment shown in the figure explained in more detail.

Via line 1, the hydrocarbon-rich feed fraction to be treated becomes a first Wash column T1 supplied. Not shown in the figure are an optionally provided amine scrubbing, which serves to remove acid gases from the feed fraction, and a drying. The fed via line 1 of the scrubbing column T1 feed fraction usually has a pressure between 20 and 60 bar. Via line 2, the scrubbing column T1 is fed to a detergent in its upper region. This consists of a technically pure mixture of iso-pentane and n-pentane. The term "technically pure mixture" is to be understood as a mixture which consists of at least 90 mol%, preferably at least 95 mol% of the abovementioned components. The desired requirement for the low temperature capability of the detergent is met by these components or the mixture prepared from them.

Out the head of the scrubbing column T1 is connected via line 3 one of withdrawn gas fraction removed heavy hydrocarbons. about Line 4 is the one with the gefriergefährdeten heavy Hydrocarbons loaded detergents from the bottom of the wash column T1 deducted and via the expansion valve a in the second Separation column T2 relaxes.

In this separation column T2 is a separation into a liquid fraction containing the heavy hydrocarbons - this is withdrawn from the bottom of the separation column T2 via line 5 - and a C ₅ -rich gas fraction, which is withdrawn via line 6 from the top of the separation column T2. A partial stream of the withdrawn from the bottom of the separation column T2 liquid fraction is fed again via line 5 'after evaporation in the reboiler E3 the separation column T2. The liquid fraction withdrawn via line 5 contains all freeze-endangered components, so that freezing of these components in a decomposition or liquefaction process connected downstream of the wash column T1 can be effectively prevented.

The withdrawn via line 6 from the top of the separation column T2 gaseous fraction is partially condensed in the heat exchanger E1 and then fed to the separator D1. C ₅ components can be withdrawn via the dashed line 8 and possibly recycled to the feed fraction, whereby the undesirable loss of C ₅ components is reduced. A partial stream of the liquid fraction obtained in the separator D1 is fed via line 7, in which a pump P1 is provided, the separation column T2 as reflux. However, the main part of the C ₅ -rich liquid fraction from the separator D1 is - as already described - via line 2, in which a pump P2 is arranged, the wash column T1 fed as heavy reflux.

about Line 9, in which a control valve b is arranged, can if necessary from a detergent storage reservoir S the desired Detergent mixture or the individual, the detergent forming Components are added.

The Process parameters of the wash column T1, in particular pressure, temperature, Detergent / Feed Fraction Amount and Composition According to the invention chosen so that the Proportion of heavy hydrocarbons in the via line 3 withdrawn gas fraction is extremely low. So For example, make sure that the key component Benzene washed out to residual amounts of less than 1 ppm by volume becomes.

The above Line 3 withdrawn from the top of the wash column T1, from heavy Hydrocarbons freed feed fraction is now in a any desired cooling or liquefaction process preheated or cooled; this cooling or liquefaction process is in the figure only in the form of the heat exchanger E shown.

Corresponding an advantageous embodiment of the invention This process can be carried out over this preheated or cooled fraction Line 10 to a third separation column T3 are supplied. It should be noted that via line 10 of the separation column T3 supplied fraction is cooled only as far as that no freezing of components contained in this fraction takes place in the separation column T3. The temperature in the separation column T3 is therefore in a temperature range between -30 and -100 ° C.

The third separation column T3 is used to recover the withdrawn via line 3 from the scrubbing column T1 C ₅ hydrocarbons. These accumulate in the bottom of the separation column T3 and via line 11, in which a pump P3 is arranged, the scrubbing column T1 as another, cold detergent fraction, which supports the leaching of the undesirable heavy hydrocarbons supplied.

The top condenser system shown in the figure of the separation column T3, consisting of the lines 12 and 13, the heat exchanger E2, the separator D2 and the pump P4, is designed such that the C ₅ hydrocarbon losses - via line 14 from the separator D2 withdrawn gas fraction still has a small proportion of C ₅ hydrocarbons - economically acceptable.

It should be emphasized that the gas fraction withdrawn from the separator D2 via line 14 or the gas fraction withdrawn from the scrubbing column T1 via line 3 in any, the scrubbing column T1 or the third separation column T3 nachge switched decomposition and / or liquefaction process can be further treated. If the hydrocarbon-rich feed fraction has a nitrogen content of more than 5% by volume of nitrogen, the scrubbing column T1 or the third separating column T3 can be followed by a cryogenic nitrogen / methane separation process.

The inventive method for separating heavy Hydrocarbons from a hydrocarbon-rich feed fraction allows safe separation of freeze-endangered Components or hydrocarbons, as the actual laundry in the washing column T1 and the regeneration of the detergent in the second separation column T2 at a temperature above the freezing points of the components to be separated is carried out becomes.

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

• US 5771712 A [0004]

Claims (5)

Process for separating heavy hydrocarbons from a hydrocarbon-rich feed fraction, the heavy hydrocarbons being separated by means of a wash, characterized in that a) the feed fraction ( 1 ) a first wash column (T1), which in the head region a detergent ( 2 b) using as detergent at least 90 mol% iso-pentane and n-pentane-containing mixture, c) the heavy-hydrocarbon-laden detergent (T1) obtained in the first wash column ( 4 ) is fed to a second separation column (T2), and d) in the second separation column (T2) a separation into a liquid fraction containing the heavy hydrocarbons ( 5 ) and a C ₅ -rich fraction ( 6 ), e) where this C ₅ -rich fraction ( 6 ) for producing the detergent ( 2 ) is used. Method according to claim 1, characterized in that that as detergent at least 95 mol% iso-pentane and n-pentane containing mixture is used. A method according to claim 1 or 2, characterized in that for the production of the detergent ( 2 ), C ₅ -rich fraction ( 6 ) is subjected to a separation (D1) of light hydrocarbons, in particular of C _4- hydrocarbons. Method according to one of the preceding claims 1 to 3, characterized in that the for the production of the detergent ( 2 ), C ₅ -rich fraction ( 6 ) Iso-pentane and / or n-pentane is added (S, 9 ). Method according to one of the preceding claims 1 to 4, wherein the hydrocarbon-rich feed fraction after separation of the heavy hydrocarbons fed to a liquefaction or a decomposition process and thereby cooled, characterized in that the pre-cooled or cooled (E) feed fraction ( 10 ) is fed to a third separation column (T3), in which from the feed fraction a C ₅ -rich fraction ( 11 ) and fed to the first wash column (T1) as an additional detergent fraction.