Научная статья на тему 'ANALYSIS OF TRANSPORTATION METHODS FOR HIGH-VISCOSITY LOCAL OILS'

ANALYSIS OF TRANSPORTATION METHODS FOR HIGH-VISCOSITY LOCAL OILS Текст научной статьи по специальности «Химические технологии»

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Ключевые слова
HIGH-VISCOSITY OIL / PARAFFIN / TRANSPORTATION / FLUIDITY / AMOUNT OF WATER / CONCENTRATION / TEMPERATURE

Аннотация научной статьи по химическим технологиям, автор научной работы — Yamaletdinova Aygul, Adizov Bobirjon

The article describes the technological indicators of methods for transporting local high-viscosity oils. When transporting flooded and high-viscosity local oils with a complex composition, various difficulties arise. One of these difficulties is the low fluidity of high-viscosity oil through pipelines. This problem is solved by several methods, one of which is the addition of surfactants that reduce the viscosity of viscous oils.

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Текст научной работы на тему «ANALYSIS OF TRANSPORTATION METHODS FOR HIGH-VISCOSITY LOCAL OILS»

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ANALYSIS OF TRANSPORTATION METHODS FOR HIGH-VISCOSITY LOCAL OILS

Aygul Yamaletdinova

Senior teacher, Bukhara engineering-technological institute, Republic of Uzbekistan, Bukhara E-mail: [email protected]

Bobirjon Adizov

DSc., Senior Researcher Institute of General and Inorganic Chemistry of the AS of the RUzb

Republic of Uzbekistan, Tashkent

АНАЛИЗ МЕТОДОВ ТРАНСПОРТИРОВКИ ВЫСОКОВЯЗКИХ МЕСТНЫХ НЕФТЕЙ

Ямалетдинова Айгуль Ахмадовна

ст. преподаватель, Бухарский инженерно-технологический институт, Республика Узбекистан, г. Бухара

Адизов Бобиржон Замирович

д-р техн. наук, ст. науч. сотр. Институт общей и неорганической химии АН РУз, Республика Узбекистан, г. Ташкент

ABSTRACT

The article describes the technological indicators of methods for transporting local high-viscosity oils. When transporting flooded and high-viscosity local oils with a complex composition, various difficulties arise. One of these difficulties is the low fluidity of high-viscosity oil through pipelines. This problem is solved by several methods, one of which is the addition of surfactants that reduce the viscosity of viscous oils.

АННОТАЦИЯ

В статье описываются технологические показатели методов транспортировки местных высоковязких нефтей. При транспортировке обводнённых и высоковязких местных нефтей со сложным составом возникают различные сложности. Одно из этих сложностей является низкая текучесть высоковязкой нефти по трубопроводам. Эта проблема решается несколькоми методами, одним из которых является добавление ПАВ понижающих вязкости вязких нефтей.

Keywords: high-viscosity oil, paraffin, transportation, fluidity, amount of water, concentration, temperature.

Ключевые слова: высоковязкая нефть, парафин, транспортировка, текучесть, количество воды, концентрация, температура.

Introduction

One of the pressing issues of the oil production industry today is the transportation of the Well product of the fields, which are working at the final stage. The product of such deposits well is highly watered, has a complex composition, which causes various difficulties in the process of transportation. Also, the extraction and transportation of residual oil is carried out with the same difficulties [1].

Methods

Oils of complex composition are mainly considered residual oil, which is obtained by ternary extraction methods, working at the final stage, and we can see this in the example of our deposits.

In our study, we determined the composition of oils of local deposits (water content, paraffin content, salt content, amount of mechanical additives) and properties (density, viscosity) using appropriate methods [2].

To do this, we used the following standards: GOST 2517-85 Oil and petroleum products. Sampling methods; GOST 2477-65. Oil and petroleum products. Method for determining the water content; GOST 390085. Oil and petroleum products. Methods for determining density; GOST 6370-83. Oil, petroleum products and additives. Method of determination of mechanical impurities; GOST 11851-85 Oil. Method of paraffin determination; GOST 21534-76. Oil. Methods for determining the content of chloride salts; GOST R52247-2004 Oil. Methods for the determination of

Библиографическое описание: Yamaletdinova A.A., Adizov B.Z. ANALYSIS OF TRANSPORTATION METHODS FOR HIGH-VISCOSITY LOCAL OILS // Universum: технические науки : электрон. научн. журн. 2022. 11(104). URL: https://7universum. com/ru/tech/archive/item/14610

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organochlorine compounds; GOST 2177-99 Petroleum products. Methods for determining the fractional composition [3,8].

Table 1 provides information on the composition and properties of the product of oil wells in local fields.

Table 1.

Composition and properties of selected oil samples from the fields "Kokdumalak", "Amudarya", "Khaudag",

"Mirshodi", and "Jarkak"

Name of oil fields

Name of oil indicators Kokdumalak (control) Amudarya Khaudag Mirshodi Jarkak

Density at 20 0C, kg/m3 864 998 977,1 961 890

Solidification temperature, 0C -10 -24 -22 -4 -10

Content, % of total weight -asphaltenes -paraffin wax -silica gel resins - sulfur 2,85 3.8 4,68 2.09 49 6,6 59,2 9,3 9,20 3,80 50,4 3,60 8,35 7,80 38,69 3,40 5,92 6,30 14,23 6,14

As can be seen from table 1, compared to the composition of the well products of the Kokdumalak mine, the well products of the remaining deposits are considered complex in composition and high viscosity, and their transportation through pipelines requires a special approach [4,5,7,10].

In practice, several methods of transportation of high-viscosity oils are used. Methods of transportation through pipelines are classified as follows (fig.1)

Despite the possibility of choosing several methods for transporting high-viscosity oils through pipelines, a universal method of transportation has not yet been developed. Each method has its own advantages and disadvantages (Table 2).

Figure 1. Classification of methods for transporting high-viscosity oils

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Table 2.

Comparative analysis of methods for transporting high-viscosity oil through pipelines

Pumping method Advantages Disadvantages

Non - isothermal: 1. Hot pumping widespread high energy consumption; negative impact on the environment of the heat generated during transportation

2. Electric heating possibility of automated use; adjustment of the temperature mode of transportation within a wide range current-carrying cables are able to withstand only minor overloads; heat flows reduce the electrical strength of high-voltage insulation to an emergency level; high operating costs

Isothermal: 3. Pumping in the media stream applicability in northern conditions poor knowledge of the application

4. Hydro pumping efficiency when used over short distances the difficulty of providing a stable oil-in-water emulsion; the probability of phase dispersion; possible freezing of the pipeline in northern climatic conditions

5. Vibration treatment applicability for pumping oil from earthen barns time to restore the destroyed structure of oil; significant pressure losses in vibrating screens

6. Pumping of gas-saturated oils changes in the rheological properties of oil as a result of the utilization of petroleum gas danger of failure of the pumps, requiring separation before entering the pump; formation of gas plugs when pumping stops

7. Application of depressor landings significant reduction of hydraulic flow resistance the input temperature of the depressor additive must exceed the melting point of the paraffin (50-70 °C); lack of a universal additive suitable for all high-paraffin oils

8. Pumping of hydrocarbon diluents high economic efficiency in the presence of the necessary amount of diluent in the areas of production of HVO it is required to select the diluent concentration based on the initial rheological properties of the oil and the characteristics of the object

Results

In our studies, we chose a method based on reducing the viscosity of high-viscosity oils through pipelines and experimented with the addition of surfactants to the flow.

We observed a decrease in viscosity and an improvement in fluidity with the addition of various concentrations of a surfactant synthesized from local silk waste [3,4,9]. Also, a further increase in oil fluidity with an increase in temperature can be seen in table 3 below:

Table 3.

Added surfactant concentration and temperature dependence of high viscosity oil fluidity

Surfactant concentration, Oil fluidity

% by weight 5 0С 10 0С 15 0С 20 0С

Without reagent 18,4 21,16 25,6 32,26

0,2 24,1 27,71 33,54 42,26

0,6 30,13 34,64 41,92 52,82

1 35,55 40,88 49,47 62,33

1,4 40,53 46,61 56,39 71,06

1,8 45,39 52,2 63,16 79,58

We achieved positive results when we tried it by adding up to a concentration of 1.8% of the surfactant. When we added a surfactant with a concentration of more than 1.8%, the surface active substance acceptability of the oil was not observed, and its fluidity did not change [6,7,9].

Discussion of the results

As can be seen from our results, when we mixed the surfactant with oil in a concentration of 1.8%, we observed its acceptability for reducing viscosity and transportation. We found that this method is optimal in the case of the same oil in comparison with other methods [4,7,9,10].

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Conclusion

Based on the composition and properties of high-viscosity oils, the choice of the most optimal method, as well as an additive, minimizes the costs of transporting oil. For local high-viscosity oils, transportation by mixing a 1.8% concentration of the synthesized surfactant based on the waste of the silk industry has proven to be the most optimal.

References:

1. Koroleva M.Yu., Yurtov E.V. Investigation and modeling of rheological properties of concentrated reverse emulsions//GKZH.-1994. -Vol.56. -No.4. -pp.513-517

2. ^vard Devold. Oil and gas production handbook an introduction to oil and gas production, transport, refining and petrochemical industry. Oslo. 2003.

3. Abdurakhim Ochilov, Mirvokhid Sattorov, Aygul Yamaletdinova and Shakhnoza Bokieva. Reduction the viscosity of oil-slime emulsions of heavy oils using gas condensate. IOP Conference Series: Earth and Environmental Science 839 (2021) 042082 doi:10.1088/1755-1315/839/4/042082

4. Mirvokhid Sattorov, Aygul Yamaletdinova, Abdurakhim Ochilov and Shakhnoza Bokieva. Breakdown of local oil-water emulsions by binary systems of surface-active substances. IOP Conference Series: Earth and Environmental Science 839 (2021) 042085 doi:10.1088/1755-1315/839/4/042085

5. Loskutova Yu.V., Yudina N.V., Volkova G.I., Anufriev R.V. Studying the viscosity-temperature behavior of oil-water emulsions at the phase inversion point // International Journal of Applied and Fundamental Research. - 2017. -No. 10-2. - pp. 221-225.

6. Sattorov M. O., Yamaletdinova A. A., & Bakieva S. K. (2020). Application of binary systems of surfactants for dehydration of local oils. // Universum: technical sciences: electron. scientific. journal 2020. 11(80). DOI: 10.32743/UniTech.2020.80.11-4. 22-24.

7. Sattorov M.O., Yamaletdinova A.A., Bakieva Sh.K. Improvement of oil fluidity using a combination method of viscosity reduction // Universum: technical sciences: electron. scientific. journal 2020. 11(80). DOI: 10.32743/UniTech.2020.80.11-4.17-21.

8. Sattorov M.O., Yamaletdinova A.A., & Bakieva S.K. (2020). Analysis of the effectiveness of demulsifiers used in the destruction of local oil-water emulsions. Universum: Technical Sciences,(4-2 (73)), 52-58.

9. Rakhimov B.R., Adizov B.Z., Salikhanov D.S., & Toshev S.S. U. (2022). TESTING OF DEVELOPED COMPOSITIONS OF DEPRESSANTS TO INCREASE THE FLUIDITY OF HIGH-VISCOSITY OILS THROUGH PIPELINES. Universum: technical sciences, (7-3 (100)), 26-29.

10. Rakhimov B.R., Nabiev A.B., Adizov B.Z., & Abdurakhimov S.A. (2020). VISCOSITY REDUCING AGENT FOR HEAVY OILS BASED ON COTTON SOAPSTOCK. Universum: Technical Sciences, (5-2 (74)).

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