EP0966593A1

EP0966593A1 - Process for removing solid asphalt residues produced in the petroleum industry

Info

Publication number: EP0966593A1
Application number: EP98910717A
Authority: EP
Inventors: Wolfgang Breuer; Claus-Peter Herold
Original assignee: Cognis Deutschland GmbH and Co KG
Current assignee: BASF Personal Care and Nutrition GmbH
Priority date: 1997-03-03
Filing date: 1998-02-21
Publication date: 1999-12-29
Also published as: AR010900A1; NO994254D0; WO1998039549A1; US6368422B1; BR9808137A; DE19708499A1; NO994254L; CA2282322A1

Abstract

Fatty acid esters of general formula (I) R1-COO-(C¿n?H2nO)x-R?2¿ are used to remove solid asphalt residues from the surface of petroleum industry installations or petroliferous formations around petroleum bore holes. In formula (I) R1-COO-(C¿n?H2nO)x-R?2, R1¿ stands for an alkyl radical with 6 to 22 C atoms or for a (CH¿2?)m-COOR?4¿ radical, R?2 and R4¿ independently representing an alkyl radical with 1 to 8 C atoms, n equals 2 or 3, m equals 1 to 6 and x equals 0 or a number from 1 to 12.

Description

"Process for removing solid oil products

Asphalt residues "

The present invention relates to methods and means for removing solid asphalt residues from the surface of production plants or the formation surrounding the borehole in petroleum production and processing, and the use of certain fatty acid esters for this purpose.

Crude oil is a complex mixture of different paraffinic and aromatic hydrocarbons, whereby the individual components have very different chemical and physical properties. In the distillation of crude oil, therefore, both highly volatile, low-viscosity components and waxy, highly viscous fractions are obtained. This last group includes petroleum resins and predominantly asphaltenes, which are colloidally disperse in the oil phase.

The asphaltenes consist of a mixture of different, saturated, unsaturated and aromatic hydrocarbons, especially naphthalene derivatives. There are also heterocyclic hydrocarbons, some of which also contain complexed metal ions. Asphaltenes are also rich in sulfur, nitrogen and oxygen compounds. Due to the complex composition, asphaltenes are generally characterized by their solubility. The heptane or pentane insoluble but toluene soluble petroleum fraction is called asphaltenes, whereby the "dissolving" of the asphaltenes is a complex process for which a complete theoretical description does not yet exist (cf. EYSheu, OC Mullins, Asphaltenes - Fundamentals and Applications, Plenum Press, New York, 1995, Chapter I and Chapter III). Asphaltenes exist as micelle colloids in the oil phase of the crude oil, whereby the individual micelles each consist of several different molecules. The micelles have different sizes depending on the temperature and composition of the oil phase. For example, it is known that lighter aromatic hydrocarbons in crude oil stabilize the asphaltene micelles. Under the conditions of oil production or demand, however, the asphaltenes often precipitate, which leads to the formation of highly viscous, waxy to solid residues on the surface of the production facilities and the petroleum-containing formation surrounding the borehole. The asphalt residues clog the pores of the formation, which leads to a noticeable reduction in production rates and, in the worst case, can make production completely impossible. Asphaltene residues on the surfaces of the production plants, for example the conveyor pipe or the walls of the casing of pipelines or separators, can also significantly hinder the production.

Various methods are therefore known for removing asphalt residues that occur during petroleum production. So you can mechanically remove the residues or try to remove them with hot mineral oil or with aqueous surfactant solutions. In general, however, attempts will be made to dissolve the residues with suitable organic solvents, in particular with benzene, toluene or xylene. However, since some of these compounds do not have sufficient dissolving properties, alternatives were sought. The release properties of the above Aromatics can e.g. according to the teaching of US Pat. No. 5,504,063, by adding up to 50% by volume of certain N-substituted imidazolines or condensation products of polyamines with fatty acids. No. 5,382,728, on the other hand, proposes a special mixture of saturated, aromatic and polyaromatic hydrocarbons as suitable solvents for asphalt residues.

However, the use of these solvents or mixtures is not possible in all cases due to their low flash points, high volatility and high costs. In addition, due to increased demands on the environmental compatibility of work equipment and occupational safety, attempts are being made to avoid the use of ecologically questionable and carcinogenic substances. The object of the present invention was therefore to be ecologically harmless

Alternatives to the solid solvents known in the art

Find asphalt residues, as they occur in oil production and processing.

Although it was previously known that it is possible to precipitate asphaltenes with polar liquids, such as alcohols or esters (H.-J. Neumann, I. Rahimian, G. Zenke, Analytics of the Asphaltenes, Petroleum and Coal - Natural Gas - Petrochemicals, Volume 39, Booklet 2, 1986), it was surprisingly found that certain fatty acid esters are suitable as solvents for asphalt residues.

The present application therefore relates in a first embodiment to the use of fatty acid esters of the general formula (I)

R'-COO-CCH ^ -R ² (I)

in which R ^{1 represents} an alkyl radical having 6 to 22 C atoms or a radical (CH ₂ ) _m -COOR ⁴ , where R ² and R ⁴ independently of one another represent an alkyl radical having 1 to 8 C atoms, n is a number 2 or 3 and m represents a number from 1 to 6 and x is 0 or a number between 1 and 12, for removing solid asphalt residues from the surfaces of production plants or the petroleum-containing formation surrounding the borehole during petroleum production and processing .

In the context of this application, asphaltenes are understood to mean those constituents of crude oil which, in accordance with DIN 51595 (Dec. 1983), precipitate out at 30-2 times the volume of heptane at 18-28 ° C. when the petroleum is dissolved and are soluble in benzene. Solid asphaltene residues are residues which, at the respective working temperature to which the surface is exposed, have a solid or waxy consistency and consist of more than 50% by weight of asphaltenes. In addition to the asphaltenes, the solid residues can also contain petroleum resins or other solids. The solid asphalt residues can form on the surfaces of production plants during the extraction of oil, whereby production plants are understood to mean all technical plants that come into direct contact with the oil. These include, for example, the production pipe, the lining of the borehole, the so-called casing, and all other oil-carrying lines, pipelines, separators, pumps and valves. With the exception of the casing, the surface of these production plants is usually made of metal, in particular steel, while the casing is usually made of concrete. Production plants are also understood to mean the processing steps of the crude oil downstream of the actual production, for example in the processing of the crude oil fractions by distillation. Asphaltene residues can also occur during the transportation of crude oil through pipelines or its storage and thus hinder production.

Solid asphalt residues also form on the surface of the petroleum-containing formation surrounding the borehole and clog the pores of the rock there, which leads to a noticeable reduction in the production capacity.

The fatty acid esters which are used according to the invention for removing the solid asphaltene residues can be synthesized by all methods known to the person skilled in the art. For this purpose, alcohol and fatty acid are usually reacted in the presence of acidic or basic catalysts, if appropriate under pressure. Another possibility for obtaining fatty acid esters of the general formula (I) is the transesterification of natural fats and oils with methanol in the presence of a catalyst. Suitable natural oils are, for example, rapeseed, sunflower, soybean, linseed or coconut oil.

Suitable alcohols which can be used in the synthesis of the esters used according to the invention are either unbranched, such as methanol, ethanol, propanol, butanol, pentanol, hexanol, or branched, such as isopropanol, isobutanol, 2-methyl or 2-ethylhexanol. Capronic, caprylic, lauric, myristic, palmitic, stearic, arachic or behenic acids are suitable as saturated fatty acids. Unsaturated fatty acids are, for example, lauroleic, palmitoleic, oleic, ricinoleic, linoleic and linolenic acid. In addition to the monocarboxylic acids, esters of dicarboxylic acids such as maleic, succinic or adipic acid can also be used for the synthesis.

Technical mixtures of esters of the formula (I) are also suitable, which can be obtained, for example, by esterifying the preliminary fatty acids obtained in the purification of fatty acid mixtures by distillation. Any mixtures of esters of the formula (I) can also be used.

It has proven to be particularly advantageous and is therefore preferred to use esters of the general formula (I) in which R ^{1 is} an alkyl radical having 6 to 10 C atoms and R ^{2 is} a methyl radical and x is 0. Mixtures of these esters are preferably used, which are obtained by esterifying pre-fatty acids with 6 to 10 carbon atoms with methanol.

In addition to the fatty acid esters described above, fatty acid ester alkoxylates of the general formula (I) in which n denotes a number from 2 or 3 and x denotes a number from 1 to 12 can also be used for the purposes of the invention. Such compounds are prepared by reacting fatty acid derivatives with alkoxylated methanol or by heterogeneously catalyzed direct alkoxylation of fatty acid alkyl esters with alkylene oxide, especially ethylene oxide. This synthesis method is described in detail in WO 90/13533 and WO 91/15441. Such are preferred

Fatty acid alkyl ester alkoxylates of the general formula (I) used, in which R ^! represents an alkyl radical with 8 to 16 carbon atoms, R ^{2 stands} for a short-chain alkyl radical with 1 to 4 carbon atoms, preferably a methyl radical, and n is 2 and x is a number between 2 and 6.

Asphalt deposits occur during the production of petroleum on the surface of production facilities or the formation surrounding the borehole, which is usually found in If the delivery rate drops, the affected area of the production plant or the borehole is brought into contact with the fatty acid esters. It is expedient to pump the esters in liquid form at temperatures of at least 50 ° C. through the production facilities or the borehole in order to remove the deposits. Another object of the present invention therefore relates to a method for removing solid asphaltene residues from the surface of production plants or the petroleum-containing formation surrounding the borehole during petroleum production and processing by the asphaltene residues with an ester of formula (I) in liquid form and a Temperature of at least 50 ° C are brought into contact until the residues have at least partially dissolved. In oil production, this can be seen, for example, from the fact that the output increases again. The time in which the deposit is removed depends on the amount of asphalt deposits and the operating temperature. For example, the asphaltene deposits dissolve faster under the conditions that prevail on the surface of the petroleum-containing formation, namely high pressure and high temperatures (150 to 300 ° C) than, for example, deposits that occur in the production pipe because lower temperatures (<100 ° C) prevail. As already explained above, dissolving the residue is to be understood as a complex process in which the asphaltenes colloidally dissolve in the form of micelles.

It is possible, but not preferred for reasons of cost, to rinse the production facilities only with liquid ester. Depending on the operating temperature and melting point of the esters, there may also be viscosity problems when storing the pure ester. At low temperatures, for example in winter, heated tanks must be used for higher melting joints. It is therefore preferred to use the esters in a mixture with a suitable solvent in order to avoid the described problems in handling. It has proven to be particularly advantageous to use the esters in admixture with crude oil or petroleum - the fraction which passes over during crude oil distillation at 180-225 ° C. In principle, any mixtures with a weight ratio of crude oil or petroleum: ester between 1:99 and 99: 1 are possible. For the purposes of the present invention, however, mixtures with certain proportions of esters are preferred.

Another object of the invention therefore relates to a liquid crude oil or petroleum-containing agent for removing solid asphalt residues from the surface of production plants or the petroleum-containing formation surrounding the borehole during petroleum production and processing, which more than 25 wt .-% at least one Contains fatty acid esters of the general formula (I). Crude oil or petroleum-containing agents which contain more than 50% by weight of esters of the formula (I) are particularly preferred. The esters are dissolved or dispersed in the crude oil or petroleum and can then be stored and used without any problems. In addition to crude oil or petroleum and the esters of the formula (I), the compositions can also contain other ingredients, for example corrosion inhibitors or other known solvents for asphaltenes, and asphaltene inhibitors which prevent precipitation, such as imidoamides, imidazolines or aromatic sulfonic acids, as described in US Pat. No. 5,504,063 .

Furthermore, a method for removing solid asphalt residues from the surface of production plants or the petroleum-containing formation surrounding the borehole during petroleum production and processing is claimed, wherein the asphaltene deposits with a crude oil- or petroleum-containing liquid medium with a temperature of at least 50 ° C, that contains at least 25% by weight of ester of the formula (I) until the residues have at least partially dissolved.

B e i s p i e le

A defined amount of an asphaltene deposit (residue from the Laque refinery / France) was stirred with a weighed amount of a fatty acid ester A - D in a beaker at temperatures between 50 and 10 ° C for 1.5 hours. The liquids were then filtered and the remaining asphaltene residue was washed with heptane. The solubility was determined by comparing the weighed-in amount of asphaltenes with the amount of filtered asphaltene residue. The results are shown in Table 1. To detect the asphaltenes in the filtrate, 30 times the volume of heptane was added to the filtrate in accordance with DIN 51595 (December 1983). The asphaltenes failed as intended.

Ester:

A rapeseed fatty acid methyl ester

BC ₆ _, ₀ - pre-fatty acid methyl ester

CC ₁₂ fatty acid methyl ester ethoxylated with 6 moles of ethylene oxide per mole of ester

TLC _8.14-2 -ethylhexyl fatty acid

Table 1

Claims

Patent claim

1. Use of fatty acid esters of the general formula (I)

R ¹ -COO- (C _n H _2n O) _x -R ² (I),

in which R ^{1 represents} an alkyl radical having 6 to 22 C atoms or a radical (CH ₂ ) _m -COOR ⁴ , where R ² and R ⁴ independently of one another represent an alkyl radical having 1 to 8 C atoms, n is a number 2 or 3 and m represents a number from 1 to 6 and x is 0 or a number between 1 and 12, for removing solid asphalt residues from the surface of production plants or the petroleum-containing formation surrounding the borehole during petroleum production and processing .

2. Use according to claim 1, characterized in that esters of the general formula (I) are used in which R ^{1 is} an alkyl radical having 6 to 10 carbon atoms and R ^{2 is} a methyl radical and x is 0.

3. A method for removing solid asphalt residues from the surface of production plants or the petroleum-containing formation surrounding the borehole in petroleum production and processing, characterized in that the asphalt residues with an ester of formula (I) according to claim 1 in liquid form at temperatures of be brought into contact at least 50 ° C until the residues have at least partially dissolved.

4. Crude oil or petroleum-containing agent for removing solid asphalt residues from the surface of production plants or the petroleum-containing formation surrounding the borehole during petroleum production and processing, containing more than 25% by weight of at least one fatty acid ester of the general formula (I) according to claim 1.

5. Composition according to claim 4, characterized in that it contains more than 50 wt .-% of at least one fatty acid ester of formula (I).

6. A method for removing solid asphalt residues from the surface of production plants or the petroleum-containing formation surrounding the borehole during petroleum production and processing, characterized in that the asphalt residues are in contact with an agent according to claim 4 at temperatures of at least 50 ° C. for so long be brought in until the residues have at least partially dissolved.