RU2542017C1 - Method for assessment and selection of effective solvents for deposits of paraffin type - Google Patents

Abstract

FIELD: oil and gas industry.

SUBSTANCE: method includes sampling of deposits from oil equipment, identification of a group composition and type for the deposits, a procedure of the preliminary mixing of empty weighing bottles, preparation of 10% petroleum paraffin solutions in these weighing bottles, wherein different hydrocarbons and their composites are used as solvents, bringing the content of the weighing bottles in the drying closet up to a fixed weight. Surveys are performed using petroleum paraffin of the B2 brand, the melting point of pure paraffin and the paraffin upon treatment by different hydrocarbons is determined additionally by differential scanning calorimetry and the efficiency of solvents for asphalt, resin and paraffin deposits is assessed.

EFFECT: improved accuracy of assessment of the reagents efficiency for the removal of the paraffin deposits.

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Description

FIELD OF THE INVENTION

The invention relates to the oil industry and can find application in the selection of effective solvents for removing paraffin deposits formed in the bottomhole formation zone, as well as on the surfaces of technological equipment used in the extraction, transportation and storage of oil. The technical result of the invention is to increase the accuracy of evaluating the effectiveness of reagents for removing paraffin deposits, which takes into account their melting point after treatment with various hydrocarbon solvents.

State of the art

The invention relates to the oil industry, and in particular to methods for evaluating the effectiveness of solvents for removing paraffin deposits by chemical methods.

The problem of the fight against the formation of asphalt-resin-paraffin deposits (AFS) in the oil fields of the world is solved mainly by the application of thermal and chemical methods. However, the need for systematic heat treatments to remove paraffin deposits in a large number of wells leads to significant material costs. Therefore, chemical methods are still considered the most promising, universal and cost-effective. The essence of chemical methods for removing deposits is their preliminary destruction or dissolution, followed by removal. Methods for the directional selection and evaluation of the effectiveness of solvents for paraffin deposits are well studied and described in (1. Kamenshchikov F.A. Removal of asphalt-resin-paraffin deposits with solvents. - M. - Izhevsk: Research Center "Regular and chaotic dynamics." Izhevsk Institute for Computer Research, 2008. - 384 sec .; 2. VN Glushchenko, MA Silin, Yu.G. Gerin. Oilfield chemistry: 5-vol. ed. - V. 5. - Prevention and elimination of asphalt-tar-paraffin deposits. - M .: Intercontact Science, 2009 .-- 475 p.). In the above studies, it was found that the main criterion for choosing a sediment solvent is the type of paraffin deposits. Depending on what components are contained in paraffin in high concentrations, paraffin, paraffin, asphaltene and mixed types can be. It is believed that low-boiling aliphatic hydrocarbons (HC) such as pentane, hexane and heptane are considered effective solvents for paraffin paraffin deposits (3. Investigation of the properties of asphalt-resin-paraffin deposits and development of measures for their removal from oilfield reservoirs / V.V. Ragulin, E.F. Smolyanets , A.G. Mikhailov et al. // Oilfield Business, 2001. - No. 5. - P.33-36.), And for the removal of asphaltene-type paraffin deposits, solvents based on aromatic hydrocarbons are used (4. Experience in the restoration and regulation of production and forcing water wells / NI Khisamutdinov, GZ Ibragimov, NI Kobyakov and others // Overview. Information, ser. “Technique and technology of oil production and the development of oil fields.” - M .: VNIIOENG, 1990 . - 52 p.). However, using reagents selected only on the basis of the type of paraffin, in the fields it is not always possible to achieve positive results. We believe that one of the main reasons for failure is that the selection and evaluation of the effectiveness of reagents for removing paraffin deposits is carried out without taking into account changes in their melting temperature after treatment with various reagents, while the solubility of paraffin directly depends on its melting temperature. The higher the melting point of paraffin, the lower its solubility.

Based on the foregoing, the technical result of the invention is to increase the accuracy of evaluating the effectiveness and feasibility of using various reagents to remove paraffin deposits, which takes into account not only the type of deposits, but also their melting temperature after treatment with various solvents.

This invention is taken as a prototype.

The implementation of the invention

The task is carried out due to the fact that in the method for evaluating and selecting effective solvents for paraffin-type deposits, including the selection of paraffin paraffin samples from oil equipment, the determination of the group composition and type of paraffin paraffin, in the event that paraffin paraffin-paraffin paraffin type, an additional procedure appears, namely : determination of the melting points of paraffin before and after their processing with reagents. Thus, the sequence of procedures in the method for evaluating and selecting effective solvents for paraffin deposits is as follows: taking paraffin paraffin samples from oil equipment, determining the composition and type of paraffin paraffin deposits, preliminary weighing of empty containers, preparation of 10% oil paraffin solutions in these containers, where various hydrocarbons and their compositions act as solvents, bringing the containers with contents to a constant weight in the oven, and if the paraffin wax is paraffin-type, then ditsya further definition wax melting temperatures before and after treatment with reagents, comparison test data from different solvents and the obtained melting temperatures assess the effectiveness of the solvent.

A reliable laboratory assessment of the effectiveness of AFS solvents is necessary for the correct choice of solvent and to increase the efficiency of washing oilfield equipment from paraffin deposits. Existing methods for the selection and evaluation of the effectiveness of AFS solvents are unreliable, because their selection is carried out only on the basis of the type of paraffin wax, without taking into account changes in the melting points of paraffin, and, therefore, without taking into account the solubility of the paraffins that make up the paraffin wax. The proposed invention solves the problem of improving the accuracy of evaluating the effectiveness of solvents of paraffin paraffin paraffin type.

The problem is solved as follows.

From oilfield equipment, AFS is sampled. The adsorption method according to Marcusson determines their group composition and type of deposits (5. Rybak M.S. Analysis of oil and oil products. - M .: GNTINGTL, 1962. - 888 p.). In case deposits are of paraffin type, then 10% solutions of petroleum paraffin grade B2 GOST 23683-89 in various reagents are prepared in preweighed boxes. The choice of this oil paraffin is based on the fact that it is highly purified, does not contain water and mechanical impurities, which can distort experimental results. Bins with contents in a drying cabinet are brought to constant weight. Then, the melting points of pure paraffin and paraffin are determined after treatment with various hydrocarbons by differential scanning calorimetry on a NETZSCH instrument with an accuracy of ± 0.1 ° C. Test data for different solvents are compared, and the effectiveness of paraffin solvents is estimated from the melting points obtained.

A feature of the proposed method is the determination of an effective AFS solvent based not only on the type of deposits, but also taking into account changes in the melting points of petroleum paraffin, before and after treatments with various hydrocarbons. As a result, when choosing an effective solvent for paraffin deposits, errors associated with the choice of reagent only by type of deposits are eliminated, an effective solvent is selected based on the solubility of paraffins, which are an integral part of paraffin paraffin wax.

Thus, when assessing the effectiveness of the AFS solvent, this method takes into account changes in the melting points of petroleum paraffin, before and after treatment with various reagents. Therefore, the selection of a solvent is carried out on the basis of a change in the solubility of paraffin in various hydrocarbons, which determines the exact determination and assessment of the effectiveness of the use of solvents for the removal of paraffin paraffin wax.

Concrete example

According to the proposed method, an effective solvent is selected and evaluated for the AFS of the Irelyakhskoye field of the oil and gas complex of the Republic of Sakha (Yakutia) (samples taken from the surface of tubing). Using the adsorption method according to Marcusson, it was established that the investigated paraffin deposits belong to the paraffin type (6. Ivanova I.K., Shits E.Yu. Use of gas condensate to combat organic deposits in conditions of abnormally low formation temperatures // Oil industry, 2009. - No. 12. - S.99-101), therefore, further studies are carried out on B2 oil paraffin (GOST 23683-89). N-hexane, a low-boiling aliphatic hydrocarbon that is considered effective in removing paraffin-type deposits, and a model composite aliphatic-aromatic solvent consisting of n-hexane and benzene in a 1: 1 ratio (1: 1) were selected as a potentially effective solvent for the paraffin deposits in the Irelyakhskoye field. GBS). In preweighed weights, 10% paraffin solutions in hexane and GBS are prepared. Bins with contents in a drying cabinet are brought to constant weight. Then, the melting temperature of paraffin and its models is measured on a NETZSCH DSC, on a pre-selected and tested optimum for shooting thermograms - the melting process is recorded in the range of 20-100 ° C, the heating rate is 0.5 K / min, the cooling rate - 0.3 K / min, measurement accuracy ± 0.1 ° C. At least three parallel measurements are taken. The research results are shown in table 1 and figure 1.

Figure 1 shows that the brand B2 oil paraffin consists of two fractions with melting points of 39.4 and 54.3 ° C. It was found that treatment with a mixture of n-hexane and benzene leads to a decrease in the melting point of paraffins compared to pure paraffin to 35.7 and 53.6 ° C for each fraction, i.e. the melting point of paraffin after treatment with GBS decreases by 3.7 and 0.7 ° C, respectively. As a result of treatment with n-hexane, as a potentially effective solvent for paraffin deposits, a tendency was found to increase the melting temperatures to 40.1 and 55.4 ° C, respectively, therefore, the melting temperature increases by 0.7 and 1.1 ° C for each fraction. The solubility of paraffin will be high in the reagent where its melting point is minimal, therefore, aliphatic-aromatic reagents should be used to remove paraffin paraffin wax, since the melting point of petroleum paraffin after treatment with such solvents decreases, therefore, its solubility in such composite reagents will be increased compared to aliphatic solvents.

Thus, based on the tests performed, it can be concluded that the technical result of the invention is to increase the accuracy of determining and evaluating the effectiveness of solvents of paraffin paraffin wax, which takes into account the melting temperature of paraffins before and after treatment with various reagents, which will lead to lower operating costs and increased solvent efficiency, used to remove paraffin paraffin wax in the extraction, transportation and storage of oil.

Table 1 Paraffin melting temperature ranges before and after treatment with various reagents Model t, ° C maximum minimal Paraffin 54.3 39,4 Paraffin + Hexane 55,4 40.1 Paraffin + Hexane + Benzene 53.6 35.7

Claims (1)

A method for evaluating and selecting effective solvents for paraffin-type deposits, including sampling from asphalt-resin-paraffin deposits from oil equipment, determining the group composition and type of deposits, the procedure for pre-weighing empty containers, preparing in these containers 10% solutions of oil paraffin, where various hydrocarbons and their compositions, the procedure for bringing to constant weight in the drying cabinet the containers with contents, an assessment of the effectiveness of asphalt solvents oloparaffin deposits, characterized in that if the deposits are of paraffin type, further studies are carried out using petroleum paraffin grade B2 and additionally include the procedure for determining the melting point of pure paraffin and paraffin after treatment with various hydrocarbons by differential scanning calorimetry.

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