RU2364616C1 - Reprocessing method of heavy oil and/or natural bitumen - Google Patents

Abstract

FIELD: oil-and-gas production.

SUBSTANCE: invention relates to petroleum industry, particularly to methods of initial reprocessing of heavy oil and/or natural bitumen. Invention relates to method of reprocessing of heavy oil and/or natural bitumen, including its separation for distillate and residiums, usage of the latter in the capacity of fuel oil and bituminous products, herewith before separation flow of heavy oil and/or natural bitumen is divided for main, running to the separation and additional flow, directed to compounding with distillate residiums, recovered from main flow, with receiving of " synthetic " oil.

EFFECT: provided method of reprocessing of heavy oil and/or natural bitumen provides increasing of amount of received oil, ability of quality regulation and amount of "synthetic" oil for achieving of its optimal compound and following economically sound implementation and reprocessing.

2 ex, 4 tbl, 2 dwg

Description

The proposal relates to the oil industry, in particular to methods for the primary processing of heavy oil and / or natural bitumen.

A known method of oil refining at atmospheric (ELOU-AT) and vacuum (ELOU-AVT) primary distillation of oil for its separation into distillate fractions and fuel oil, tar (Oil refining technology. Part one. Primary oil refining / Ed. O. F. Glagoleva and V. M. Kapustin. - M.: Chemistry, KolosS, 2006, p.331).

The closest technical solution is the “Method for the processing of heavy highly viscous oil” (see application RU 2002105657/04, IPC 7 C10G 7/00, 09/20/2003), including the preparation of oil containing desalination and dehydration, its separation into fractions, obtaining commercial products, while prior to the oil treatment operation or immediately after it, high-molecular high-boiling fractions are isolated that are used for the preparation of commercial products: boiler fuel, bitumen, etc., and the rest of the oil is sent for further processing for receiving light petroleum products.

The disadvantages of this method in the processing of heavy oil and / or natural bitumen are the small amount of oil (distillate fractions) obtained, the unbalanced composition of the oil in the content of distillate and residual fractions, and, as a consequence, the economic inexpediency of the sale and processing of such oil.

The technical task of the invention is to increase the amount of oil obtained, the ability to control the quality and quantity of oil for its subsequent economically feasible implementation and processing.

The technical problem is solved by the method of processing heavy oil and / or natural bitumen, including its separation into distillate and residual fractions, using the latter as a component of boiler fuel and bitumen products.

What is new is that before separation, the stream of heavy oil and / or natural bitumen is divided into the main stream, which is separated, and an additional stream directed to compounding with distillate fractions separated from the main stream to produce “synthetic” oil.

1 and 2 are diagrams illustrating a method for processing heavy oil and / or natural bitumen using ELOU-AT and ELOU-AVT, respectively.

The main stream I of heavy oil and / or natural bitumen (Fig. 1) enters the atmospheric fractionation unit ELOU-AT, where it is divided into atmospheric distillate III (gasoline, kerosene, diesel fraction) and residue IV (fuel oil). Fuel oil IV can be used as a component of boiler fuel. An additional stream II of heavy oil and / or natural bitumen is sent to compounding with atmospheric distillate III to produce “synthetic” oil V.

The main stream I of heavy oil and / or natural bitumen (Fig. 2) enters the atmospheric vacuum fractionation unit ELOU-AVT, where it is divided into atmospheric distillate III (gasoline, kerosene, diesel fraction), vacuum distillate VI (vacuum gas oil) and the remainder IV (tar). Tar IV can be used as bitumen products. An additional stream of II heavy oil and / or natural bitumen is sent to compounding with atmospheric III and vacuum VI distillates to produce “synthetic” oil V.

Compounding heavy oil and / or natural bitumen with atmospheric and vacuum distillates to produce “synthetic” oil allows increasing the amount of oil and adjusting the quality and quantity of “synthetic” oil to achieve its optimal composition and subsequent economically feasible sale and processing.

A method for processing heavy oil and / or natural bitumen is considered by the example of processing natural bitumen of the Mordovo-Karmal deposit. Laboratory studies were carried out on the processing of natural bitumen from the Mordovo-Karmal deposit of OAO Tatneft using atmospheric and atmospheric vacuum fractionation to produce “synthetic” oil.

The invention is illustrated by the following examples.

Example 1 (atmospheric fractionation, figure 1).

Natural bitumen I of the Mordovo-Karmal deposit was subjected to atmospheric fractionation to obtain a fraction of n.k. - 300 ° C (atmospheric distillate III) and a residue above 300 ° C (fuel oil IV). After this, natural bitumen II and atmospheric distillate III were compounded in the ratios 60/40, 55/45, 50/50, 45/55, 40/60 to produce “synthetic” oil V of various quality. Qualitative and quantitative indicators of natural bitumen, atmospheric distillate and “synthetic” oil are presented in Table 1, where, for comparison, the characteristic of high-sulfur oil of OAO Tatneft is also given. From table 1 it follows that the compounding of natural bitumen II and atmospheric distillate III in the ratios 60/40 - 40/60 can increase the yield of oil V from 26.0% (atmospheric distillate) to 36.9-46.8% (“synthetic "

table 2 Characteristics of fuel oil and boiler fuel brand M-100 Name of indicator Fuel oil M-100 brand fuel oil in accordance with GOST 10585-99 1 Conditional viscosity at 80 ° C, degrees WU 16 no more than 16 2 Kinematic viscosity at 80 ° C, m ² / s (cSt) 94 · 10 ^-6 (94.0) no more than 118 · 10 ^-6 (118.0) 3 Ash content,% 0.05 0.05 4 Mass fraction of mechanical impurities,% 0,07 no more than 1,0 5 Mass fraction of water,% 0.1 no more than 1,0 6 Mass fraction of sulfur,% 4.2 no more than 3,5 7 Flash point in an open crucible, ° С 193 not lower than 110 8 pour point, ° С 13 no higher than 25 9 Density at 20 ° С, kg / m ³ 972 not standardized

oil). At the same time, “synthetic” oil surpasses high-sulfur oil in its characteristics and has a balanced fractional composition. The optimal ratio of qualitative and quantitative indicators of “synthetic” oil determines the economic feasibility of its sale and processing.

Fuel oil obtained from the natural bitumen of the Mordovo-Karmal deposit by distillation of atmospheric distillate - 300 ° C, corresponds to M-100 brand fuel oil in accordance with GOST 10585-99 with the exception of the “sulfur content” indicator and can be used as a component of boiler fuel. The characteristics of fuel oil and boiler fuel grade M-100 are presented in table 2.

Example 2 (atmospheric vacuum fractionation, figure 2).

Natural bitumen I of the Mordovo-Karmal deposit was subjected to atmospheric vacuum fractionation to obtain fractions n.k. - 360 ° C (atmospheric distillate III), 360-480 ° C (vacuum distillate VI) and a residue above 480 ° C (tar IV). After this, natural bitumen II and atmospheric vacuum distillate III + VI were compounded in the ratios 50/50, 40/60, 30/70, 20/80 to produce “synthetic” V oil of various quality. Qualitative and quantitative indicators of natural bitumen, atmospheric, vacuum, atmospheric vacuum distillates and “synthetic” oil are presented in Table 3, where, for comparison, the characteristic of high-sulfur oil of OAO Tatneft is also given. From table 3 it follows that the compounding of natural bitumen II and atmospheric vacuum distillate III + VI in ratios 50/50 - 20/80 allows you to increase the yield of oil V from 58% (atmospheric vacuum distillate) to 63.3-73.4 % ("Synthetic" oil). At the same time, “synthetic” oil surpasses high-sulfur oil in its characteristics and has a balanced fractional composition. The optimal ratio of qualitative and quantitative indicators of “synthetic” oil determines the economic feasibility of its sale and processing.

Tar obtained from natural bitumen of the Mordovo-Karmal deposit by distillation of atmospheric (NK - 360 ° C) and vacuum (360-480 ° C) distillates corresponds to road bitumen of all grades according to GOST 22245-90. The characteristics of tar and road bitumen are presented in table 4.

The proposed method for the processing of heavy oil and / or natural bitumen has the following advantages: it allows to increase the amount of oil produced, the ability to control the quality and quantity of “synthetic” oil to achieve its optimal composition and subsequent economically feasible sale and processing.

Table 4 Characterization of tar and road bitumen Name of indicator Tar Road bitumen in accordance with GOST 22245-90 BN 130/200 OKP 02 5612 0204 BN 90/130 OKP 02 5612 0203 BN 60/90 OKP 02 5612 0202 1 Softening temperature according to KiSh, ° С 42.9-45.4 not lower than 38 not lower than 41 not lower than 45 2 Penetration, mm at 25 ° C 76.0-146.0 131-200 91 - 130 60-90 at 0 ° С 16.0-24.5 not less than 18 not less than 15 not less than 10 3 Stretch, cm at 25 ° C more than 100 not less than 80 not less than 80 not less than 70 at 0 ° С 1.2-5.8 4 Fragility temperature, ° С minus 13.5 - minus 19.8 no higher than minus 12 no higher than minus 10 no higher than minus 6

Claims (1)

A method of processing heavy oil and / or natural bitumen, including its separation into distillate and residual fractions, using the latter as boiler fuel and bitumen products, characterized in that before separation, the flow of heavy oil and / or natural bitumen is divided into the main one, which is divided , and an additional stream directed to compounding with distillate fractions separated from the main stream to produce “synthetic” oil.

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