RU2687717C9 - Method for evaluation of chemical reagents impact on oil rheological properties - Google Patents

Abstract

FIELD: oil and gas industry.SUBSTANCE: invention relates to the field of oil and gas industry and can be used for selection of chemical reagents for use in oil production technological processes on the basis of assessment of chemical composition impact on rheological properties of oil, in particular, high-viscosity and bituminous oil, to reduce operating costs and increase oil recovery factor. Disclosed is a method of assessing the effect of chemical reagents on rheological properties of oil, comprising sampling bituminous oil from wells, preparing samples of bituminous oil for analysis, which includes centrifuging bituminous oil for separation of water, mixing the calculated volume of oil and chemical reagents; conducting rheological analysis of the control sample and the sample with a chemical reagent on a viscometer. Evaluation of efficiency of chemical reagents effect on rheological properties and selection of the most effective reagent is carried out in accordance with generalized assessment of chemical reagents composition and taking into account the results of change of rheological properties of oil with analyzed chemical reagents depending on temperature and velocity gradient, having sufficient accuracy and reliability.EFFECT: high efficiency of using chemical reagents, which reduces material and operational costs, increases oil recovery and ultimately increases economic efficiency.1 cl, 4 dwg

Description

The invention relates to the field of the oil and gas industry and can be used to select chemicals for use in oil production processes based on the assessment of the influence of the chemical composition on the rheological properties of oil, in particular high-viscosity and bituminous oil, to reduce operating costs and increase the oil recovery coefficient.

Currently, a significant number of studies have been published to study the effect of solvents on the rheological properties of oil. However, they do not show how to evaluate and make a choice of solvent for use in oil production technologies with the best influence on the change in the rheological properties of high-viscosity and bituminous oil.

Thus, the task of developing a methodology for assessing the effect of chemical reagents on the rheological properties of oil is relevant.

There are known studies of the influence of solvents on the viscosity-temperature properties of oil (I.V. Pavlov et al. The effect of solvents on the viscosity-temperature properties of high-viscosity oil. Krasnoyarsk: Siberian Federal University, 2011 Youth and Science: Proceedings of the VII All-Russian Scientific and Technical Conference students, copy attached). The effect of chemicals was evaluated by changing the dynamic viscosity of oil in the temperature range from 10 ° C to 50 ° C.

So, at a temperature of 10 ° C, which is closest to the pour point of the original oil, the viscosity decreases by 3.2; 3.4 and 3.7 times after applying chemical reagents. The same chemicals at 30 ° C reduce the viscosity of oil by 2; 2.4 and 2.5 times.

There are well-known studies of the production of ultra-viscous oil and natural bitumen using a solvent (MR Yakubov, GV Romanov and others. Theory and practice of borehole technologies for the production of ultra-viscous oils and natural bitumen using solvents. Actual problems of oil and gas. 2012. No. 2 C. 4, copy attached). Measurements of the viscosity of mixtures of bitumen with various solvents in the temperature range of 10-80 ° C allowed us to determine the basic initial conditions for their use in technological processes.

To reduce the viscosity of bitumen in reservoir conditions to the level of 10-50 cP using solvents, their required amount is 10-25%, depending on the viscosity of the underlying fluids.

Known studies of the regulators of the rheological properties of highly resinous oil (PS Fakhretdinov and others. New regulators of the rheological properties of highly resinous oil. Electronic scientific journal Oil and Gas Business 2007. No. 2, a copy is attached). For the studied chemical reagents, 5, 10, 15, 25% solutions in toluene were prepared and introduced into the initial oil in dosages from 0.033% of the mass. up to 0.165% of the mass. In the course of the studies, the dynamic viscosity of the initial oil and oil with chemical reagents was determined at various strain rates (flow) or the so-called shear rate at a temperature of 5 ° C.

So, the proposed chemicals in dosages of 0.033-0.165% of the mass. at a temperature of 5 ° C, reduce the viscosity of the original oil by 1.3-6.4 times.

There are known studies of the influence of reagent-solvent on the rheological properties of heavy highly viscous oil of the North Komsomolskoye field (V.T. Litvin and others. The effects of reagent-solvent "A" on the rheological properties of heavy high-viscosity oil of the North Komsomolskoye field. National Research Tomsk Polytechnic University, Tomsk, 2012. Report p. 743-745, copy attached). To study the properties of pure oil in the PK-1 formation and oil with a chemical reagent (at a concentration of 3%) of the North Komsomolskoye field, dynamic tests were carried out at a temperature of 10 ° C to 31 ° C and a shear rate of 300 1 / s on a Rheotest RN instrument 4.1.

When heating the oil of the North Komsomolskoye field from 5 ° C to 31 ° C, a stable decrease in the viscosity of oil with a chemical reagent occurs from 1329.8 MPa to 222.08 MPa⋅s. A further increase in temperature leads to a smooth decrease in viscosity by more than 3 times.

A common drawback of all studies on the influence of solvents on the rheological properties of oil is the lack of a system for assessing the effect of chemicals on the change in the viscosity of oil.

The prototype of the proposed method is a methodology for studying the effectiveness of solvents of asphaltene-tar-paraffin deposits (Application for invention No. 2018107501, CL ЕВВ 43/22, priority date 09/28/2018). This technique takes into account the assessment of the dissolving power of the composition and the structure of the deposits, the presence of a formation surface, and also the dynamics of the process. The AFS solvent is recommended for use in commercial conditions under the conditions of dispersing efficiency, changing the effectiveness of the solvent when interacting with oil, the degree of phase separation when mixing the AFS solvent with an oil-water emulsion and formation water and evaluating the solvent.

The disadvantage of the prototype is the limited use, which is possible only when assessing the solvents of paraffin and the impossibility of its use to assess the effect of chemicals on the rheological properties of high-viscosity and tar oils.

The purpose of the invention is the development of a methodology for assessing the influence of chemical reagents on the rheological properties of high-viscosity and bituminous oil, characterized by the reliability of the assessment and increasing the efficiency of the use of chemical reagents, to reduce material and operating costs and increase oil recovery.

The methodology for assessing the influence of chemical reagents on the rheological properties of oil includes sampling bituminous oil from wells, preparing samples of bituminous oil for research, including centrifuging bituminous oil to separate water, mixing the calculated volume of oil and chemical reagents, conducting rheological studies of a control sample and a sample with a chemical reagent on a viscometer.

New is that the assessment of the effectiveness of the influence of chemical reagents on the rheological properties and the selection of the most effective reagent is carried out in accordance with a generalized assessment of the composition of chemical reagents and taking into account the results of changes in the rheological properties of oil with the studied chemical reagents, depending on temperature and velocity gradient, which has sufficient accuracy and reliability of the assessment.

The effectiveness of chemical reagents is currently checked by special laboratory tests. One of the most important is the task of monitoring and regulating the rheological properties of formation fluids during the injection of chemical agents (rims) into the bituminous formations of wells with further pressing through with hot steam to reduce viscosity and increase oil recovery.

The procedure for conducting laboratory tests to assess the effect of chemicals on the rheological properties of bituminous oil:

- sampling of bituminous oil from wells (samples are taken at the prescribed time by oil production operators, then samples are delivered from the oil and gas production workshop for research to the laboratory);

- preparation of samples of bituminous oil for research (dehydration on a UNIVERSAL 320R centrifuge);

- sampling from centrifuged bituminous oil (one control sample, the second sample for the preparation of a solution with a chemical reagent);

- mixing the calculated volume of oil and chemicals;

- carrying out rheological studies of the control sample and the sample with a chemical reagent on a Rheotest RN 4.1 rotational viscometer .;

- a similar study is carried out with various chemical compositions;

- compare the results of a control sample of oil and oil using chemical reagents. A chemical reagent is chosen in which the decrease in rheological characteristics between the control and the test samples is maximum at various speed gradients and temperature changes.

The invention relates to assessing the influence of chemical composition on the rheological properties of oil to reduce operating costs and increase oil recovery using rheological changes at various speed gradients and temperature changes and can be used in field and research laboratories for the complex analysis of high-viscosity and tar oils.

An example of a specific implementation of this method is illustrated by the following graphic materials:

- in FIG. 1 shows the technical specifications of the Rheotest RN 4.1 viscometer .;

- in FIG. 2 shows the technical characteristics of the UNIVERSAL 320R centrifuge;

- in FIG. 3 presents a table with the results of changes in the rheological properties of oil with the studied chemical reagents;

- in FIG. 4 presents a table with a generalized assessment of the composition of chemicals.

Before assessing the effect of chemical reagents on rheological characteristics, it is necessary to dewater the samples of well bituminous oil, for this a 50 ml oil sample is dehydrated by centrifugation on a UNIVERSAL 320R centrifuge for 30 minutes at a speed of 4000 rpm.

Next, mix the dehydrated oil with a chemical reagent of a given composition.

The following research parameters are set on a viscometer: the speed gradient during dynamic tests is gradually increased to 300 1 / s for 600 seconds, studies are carried out at different temperatures, the temperature is set depending on the conditions for further use.

Assess the effect of chemicals on the rheological properties of oil.

The effectiveness of the influence of chemical reagents on the rheological properties and the selection of the most effective reagent are evaluated in accordance with the tables in FIG. 3 and FIG. four.

Evaluation of the influence of chemical reagents on the rheological properties is carried out depending on the temperature and the velocity gradient.

From the presented data it follows that the proposed method has sufficient accuracy to determine the assessment of the influence of chemical reagents on the rheological properties of high-viscosity and tar oils. An accessible methodology has been developed for assessing the effect of chemicals on the rheological properties of high-viscosity and tar oils.

The technical result of this technique is to increase the assessment of the effectiveness of the use of chemical reagents, which will lead to a decrease in material and operating costs, an increase in oil recovery and, ultimately, an increase in economic efficiency.

Claims (1)

Methodology for assessing the effect of chemical reagents on the rheological properties of oil, containing sampling of bituminous oil from wells, preparing samples of bituminous oil for research, including centrifuging bituminous oil to separate water, mixing the calculated volume of oil and chemical reagents, conducting rheological studies of a control sample and a sample with a chemical reagent on a viscometer, characterized in that the evaluation of the effectiveness of the influence of chemical reagents on the rheological properties and the choice of the most f effective reagent is carried out in accordance with a generalized assessment of the composition of chemical reagents and taking into account the results of changes in the rheological properties of oil with the studied chemical reagents, depending on the temperature and speed gradient, which has sufficient accuracy and reliability.

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