RU2676325C1 - Method for extracting oil fraction from crude oil sludge and crude oil - Google Patents

Abstract

FIELD: oil and gas industry.SUBSTANCE: invention relates to a method for extracting petroleum fraction from crude oil sludge. Said method for extracting oil from crude oil sludge includes: first stage (1) involving mixing crude oil sludge (A) with crude oil (B) in such a way that the proportion of crude oil sludge (A) to the mixture of crude oil sludge (A) and crude oil (B) is equal to from 20 to 95 % by weight, and then heating and mixing this mixture of sludge of crude oil (A) with crude oil (B) at 40–200 °C to produce heated and mixed sludge of crude oil (A) and crude oil (B); second stage (1) involving centrifuged separation of the heated and mixed mixture at 40–200 °C to a light liquid and a heavy fraction to produce a light liquid; and third stage (1) involving bringing the temperature of the light liquid to a temperature that is equal or greater than its melting point, and mixing this light liquid, which has a temperature that is equal or greater than the melting point, with crude oil (B) in the crude oil pumping line, where the temperature of crude oil (B) is equal to or higher than the temperature of the light liquid, or the temperature of crude oil (B) is lower than the temperature of the light liquid, and the difference between the temperature of the light liquid and the temperature of crude oil (B) is 40 °C or less. Proposed are a variant of the method and crude oil produced using the claimed methods.EFFECT: reduction of sludge formation.7 cl, 1 tbl, 1 dwg, 7 ex

Description

Field of Invention

The present invention relates to a method for recovering oil from crude oil sludge deposited in a crude oil tank in which crude oil is stored.

State of the art

Crude oil sludge deposited in crude oil tanks is usually treated as industrial waste after being taken from crude oil tanks, but its disposal requires a lot of cost. On the other hand, crude oil sludge in many cases contains from about 30 to 80% by volume of the oil fraction, and thus there is a great need to recover oil from crude oil sludge.

Therefore, traditionally attempts have been made to extract oil from crude oil sludge by applying a vacuum distillation method, a separation method by heating, a centrifugal separation method, or the like (e.g., International Publication No. WO 2012/141024, Japanese Patent Laid-Open No. 3-226481, laid out open access Japanese patent No. 2004-243300).

However, the oil extracted from the crude oil sludge is of poor quality, and thus, in the case of producing good quality fuel by using this oil fraction as a crude oil, the cleaning costs become high. Therefore, the oil fraction recovered from the crude oil sludge is often directly used as inexpensive fuel oil.

In this case, when the oil fraction extracted from the crude oil sludge is mixed with commercial oil, this mixture becomes possible to sell not as inexpensive fuel oil, but as more expensive crude oil. Studies of the authors of the present invention, however, revealed that the oil fraction extracted from the crude oil sludge has low fluidity and poor compatibility with the crude oil, and thus, when mixing this oil fraction in the form in which it exists, with crude oil again easily forms sludge.

Therefore, it is an object of the present invention to provide a method for recovering an oil fraction from a crude oil sludge, in which even if the oil fraction recovered from the crude oil sludge is mixed with the crude oil, the formation of the sludge is unlikely.

Summary of the invention

The above problem is solved by the following present inventions.

That is, according to the present invention (1), a method for extracting an oil fraction from a crude oil sludge is provided, comprising:

the first stage (1) of mixing the slurry of crude oil (A) with crude oil (B) so that the proportion of slurry of crude oil (A) to the sum of the slurry of crude oil (A) and crude oil (B) becomes equal to from 20 to 95% by weight, and then heating and mixing this mixture of crude oil sludge (A) with crude oil (B) at 40-200 ° C, thereby obtaining heated and mixed sludge from crude oil (A) and crude oil (B) );

the second stage (1) of centrifugal separation of the heated and mixed substances at 40-200 ° C into a light liquid and a heavy fraction, thereby obtaining a light liquid; and

the third stage (1) bringing the temperature of the light liquid to an equal or higher temperature than its melting point, and mixing the light liquid having an equal or higher temperature than the melting point with crude oil (B) in a crude oil transfer pipe, where the temperature of the crude oil (B) is equal to or higher than the temperature of the light liquid, or the temperature of the crude oil (B) is less than the temperature of the light liquid, and the difference between the temperature of the light liquid and the temperature of the crude oil (B) is 40 ° C. or less.

In addition, according to the present invention (2), a method for extracting an oil fraction from a crude oil sludge is provided, comprising:

a first step (2) of heating the crude oil sludge (A) at 40-200 ° C. to thereby obtain a heated crude oil sludge substance (A);

the second stage (2) of centrifugal separation of the heated substance at 40-200 ° C into a light liquid and a heavy fraction, thereby obtaining a light liquid; and

the third stage (2) bringing the temperature of the light liquid to an equal or higher temperature than its melting point, and mixing the light liquid having an equal or higher temperature than the melting point with crude oil (B) in a crude oil transfer pipe, where the temperature of the crude oil (B) is equal to or higher than the temperature of the light liquid, or the temperature of the crude oil (B) is less than the temperature of the light liquid, and the difference between the temperature of the light liquid and the temperature of the crude oil (B) is 40 ° C. or less.

In addition, according to the present invention (3) proposed crude oil (G) obtained by:

the first stage (1) of mixing the slurry of crude oil (A) with crude oil (B) so that the proportion of slurry of crude oil (A) to the sum of the slurry of crude oil (A) and crude oil (B) becomes equal to 20 to 95% by weight, and then heating and mixing this mixture of crude oil sludge (A) with crude oil (B) at 40-200 ° C, thereby obtaining heated and mixed sludge from crude oil (A) and crude oil (B) );

the second stage (1) of centrifugal separation of the heated and mixed substances at 40-200 ° C into a light liquid and a heavy fraction, thereby obtaining a light liquid; and

the third stage (1) bringing the temperature of the light liquid to an equal or higher temperature than its melting point, and mixing this light liquid having an equal or higher temperature than the melting point with crude oil (B) in a pumping pipeline for crude oil, where the temperature of the crude oil (B) is equal to or higher than the temperature of the light liquid, or the temperature of the crude oil (B) is less than the temperature of the light liquid, and the difference between the temperature of the light liquid and the temperature of the crude oil (B) is 40 ° C. or less.

In addition, according to the present invention (4) proposed crude oil (D) obtained by:

a first step (2) of heating the crude oil sludge (A) at 40-200 ° C. to thereby obtain a heated crude oil sludge substance (A);

the second stage (2) of centrifugal separation of the heated substance at 40-200 ° C into a light liquid and a heavy fraction, thereby obtaining a light liquid; and

the third stage (2) bringing the temperature of the light liquid to an equal or higher temperature than its melting point, and mixing this light liquid having an equal or higher temperature than the melting point with crude oil (B) in the pumping pipeline for crude oil, where the temperature of the crude oil (B) is equal to or higher than the temperature of the light liquid, or the temperature of the crude oil (B) is less than the temperature of the light liquid, and the difference between the temperature of the light liquid and the temperature of the crude oil (B) is 40 ° C. or less.

According to the present invention, a method for recovering an oil fraction from a crude oil sludge can be provided, in which even if the oil fraction extracted from the crude oil sludge is mixed with the crude oil, the formation of the sludge is unlikely.

A brief description of the graphic materials

FIG. 1 is a view illustrating a light fluid mixing system of a crude oil used in the examples and comparative examples.

DETAILED DESCRIPTION OF PREFERRED EMBODIMENTS

A method for recovering an oil fraction from a crude oil sludge according to a first aspect of the present invention is a method for extracting an oil fraction from a crude oil sludge, comprising:

the first stage (1) of mixing the slurry of crude oil (A) with crude oil (B) so that the proportion of slurry of crude oil (A) to the sum of the slurry of crude oil (A) and crude oil (B) becomes equal to from 20 to 95% by weight, and then heating and mixing this mixture of crude oil sludge (A) with crude oil (B) at 40-200 ° C. to thereby obtain heated and mixed sludge from crude oil (A) and crude oil (B) ;

the second stage (1) of centrifugal separation of the heated and mixed substances at 40-200 ° C into a light liquid and a heavy fraction, thereby obtaining a light liquid; and

the third stage (1) bringing the temperature of the light liquid to an equal or higher temperature than its melting point, and mixing the light liquid having an equal or higher temperature than the melting point with crude oil (B) in a crude oil transfer pipe, where the temperature of the crude oil (B) is equal to or higher than the temperature of the light liquid, or the temperature of the crude oil (B) is less than the temperature of the light liquid, and the difference between the temperature of the light liquid and the temperature of the crude oil (B) is 40 ° C. or less.

The first step (1) in the method for extracting an oil fraction from a crude oil sludge according to the first aspect of the present invention is the step of mixing the crude oil sludge (A) with the crude oil (B) and then heating and mixing this mixture of crude oil sludge (A) with the crude oil (B) at 40-200 ° C to obtain, by means of this, a heated and mixed substance of sludge crude oil (A) and crude oil (B).

Crude oil sludge (A) in the first stage (1) is a sludge obtained from stored crude oil and deposited at the bottom of the crude oil tank. Crude oil sludge (A) includes crude oil sludge, which is formed from crude oil refined from solid contents, moisture and the like, after the extraction of crude oil and storage in the tank for crude oil, and before being sent to refineries, and it is deposited on bottom of the tank for crude oil; Crude oil sludge deposited at the bottom of the crude oil tank in a crude oil tanker; and crude oil sludge, which is formed from crude oil in a crude oil storage tank before refining at a refinery and is deposited at the bottom of the crude oil tank. Crude oil sludge (A) may form from one type of crude oil or may form from many types of crude oil.

Crude oil sludge (A) contains an oil fraction, asphaltene, iron, sand, water and the like. The oil fraction in the sludge of crude oil (A) is mainly paraffins and aromatic hydrocarbons having 40 carbon atoms or more. Then, the oil fraction in the crude oil sludge (A) is a component to be extracted from the crude oil sludge (A) by the method of extracting the oil fraction from the crude oil sludge according to the present invention.

A method for collecting crude oil sludge (A) deposited in a crude oil tank from a crude oil tank is not particularly limited, and examples thereof include a method (COW: washing crude oil) in which, after recovering the crude oil in a crude oil tank From a crude oil tank, high pressure crude oil is jetted to the crude oil sludge (A) deposited in the crude oil tank to destroy or partially dissolve the crude oil sludge (A), which is then expelled from the crude oil tank with swarm oil, and a method in which after extraction of crude oil in the tank for crude oil from the reservoir crude oil crude slurry (A), deposited in the tank of crude oil, shown by manpower.

Crude oil (B) to be mixed with the slurry of crude oil (A) is not particularly limited and may be crude oil before being removed from solid contents, moisture, and the like after the extraction of crude oil and stored in the crude oil reservoir, may be crude oil shortly after purification from solid content, moisture, and the like after the extraction of crude oil, and starting to be stored in the crude oil tank and until the formation of crude oil sludge, or may be the supernatant of crude oil in the tank for I crude oil after the formation of crude oil sludge at the bottom of the crude oil tank for a certain period of storage of crude oil in the crude oil tank. Crude oil (B) may be the same crude oil as crude oil serving as a source of sludge formation of crude oil (A), or may be a different crude oil.

When a sludge of crude oil (A) is taken from a reservoir for crude oil and in a case where a slurry of crude oil (A) is removed by pushing a slurry of crude oil (A) using crude oil outside a reservoir for crude oil (e.g. COW), a substance taken from the crude oil reservoir is a mixture of crude oil sludge (A) with crude oil used to select crude oil sludge (A), but in this case, the crude oil used to select crude oil sludge (A) is included in the crude oil (B).

In the first stage (1), firstly, the slurry of crude oil (A) is mixed with crude oil (B) so that the proportion of slurry of crude oil (A) to the sum of the slurry of crude oil (A) and crude oil (B) becomes equal to from 20 to 95% by weight, preferably from 40 to 90% by weight, and more preferably from 60 to 90% by weight. If the proportion of crude oil sludge (A) to the sum of crude oil sludge (A) and crude oil (B) is less than the above interval, the amount to be processed in the first stage (1) increases and economic efficiency decreases; and if this fraction exceeds the above range, the recovery of the oil fraction from the sludge of crude oil (A) becomes insufficient.

In addition, when taking crude oil sludge (A) from a crude oil tank and in case a crude oil sludge (A) is removed by pushing a crude oil sludge (A) using crude oil outside the crude oil tank (e.g., COW washing ), the crude oil used to select the crude oil sludge (A) is included in the crude oil (B), and the fraction of the crude oil sludge (A) to the sum of the crude oil sludge (A) and the crude oil (B) is calculated. Therefore, in this case, through the use of crude oil in such an amount that the proportion of crude oil sludge (A) deposited at the bottom of the crude oil tank to the sum of crude oil sludge (A) and crude oil to be used for the selection of crude oil sludge ( A) is a predetermined ratio for mixing, that is, the proportion of sludge of crude oil (A) to the sum of sludge of crude oil (A) and crude oil (B) is from 20 to 95% by weight, preferably from 40 to 90%, by weight by weight, and more preferably from 60 to 90% by weight, sludge of crude oil (A) may be selected from a tank for crude oil to obtain a mixture, and that the selected crude oil slurry (A) with the crude oil as a mixture of crude oil slurry (A) and crude oil (B) to be applied for the heating and stirring.

Alternatively, by using a small amount of crude oil, the crude oil sludge (A) deposited at the bottom of the crude oil tank can be taken from the crude oil tank for further mixing to a mixture of the selected crude oil sludge (A) with crude oil, the same crude oil as the crude oil used to select the slurry of crude oil (A), or crude oil other than it, to obtain a predetermined mixing ratio, that is, by adjusting the proportion of slurry of crude oil (A) to the amount of crude sludge oil (A) and crude oil (B) up to 20-95 % by weight, preferably 40-90% by weight, and more preferably 60-90% by weight, to obtain the resulting mixture in the form of a mixture of sludge crude oil (A) with crude oil (B) to be used for heating and stirring.

In the first step (1), the mixture of crude oil sludge (A) and crude oil (B) is then heated and mixed at 40-200 ° C, preferably at 50-150 ° C and more preferably at 60-100 ° C to obtain, by of this heated and mixed substance sludge crude oil (A) and crude oil (B). If the heating and stirring temperature is lower than the above interval, the extraction of the oil fraction from the crude oil sludge (A) becomes insufficient; and if the temperature exceeds the above range, a disadvantage is formed due to the loss of light fractions. The method of heating and mixing a mixture of sludge of crude oil (A) with crude oil (B) is not particularly limited, and examples thereof include a method in which a mixture of slurry of crude oil (A) with crude oil (B) is heated and mixed in a tank, where Crude oil sludge (A) collected from the crude oil reservoir is stored. The heating and stirring time is not particularly limited and is selected according to the stirring conditions so as to obtain a homogeneous mixed state.

The content of the oil fraction in the sludge of crude oil (A) is not particularly limited, but usually ranges from 30 to 80% by weight. Then the oil fraction in the sludge of crude oil (A) is dissolved in the crude oil (B) in the first stage by heating and mixing a mixture of sludge of crude oil (A) with crude oil (B) at 40-200 ° C, preferably at 50-150 ° C and more preferably at 60-100 ° C.

The second stage (1) in the method for extracting an oil fraction from a crude oil sludge according to the first aspect of the present invention is a centrifugal separation stage of a heated and mixed substance of a crude oil sludge (A) and a crude oil (B) obtained by carrying out the first stage (1), 40-200 ° C. to a light liquid and a heavy fraction to thereby obtain a light liquid.

In the second stage (1), the temperature at which the heated and mixed substance of the sludge of crude oil (A) and crude oil (B) is centrifugally separated is 40-200 ° C, preferably from 50 to 150 ° C and more preferably from 60 to 100 ° C. If the temperature of the centrifuge separation is lower than the above interval, then part of the heated and mixed substance of the sludge of crude oil (A) and crude oil (B) freezes, and the fluidity of the heated and mixed substance is significantly reduced during centrifuge separation and, thus, centrifugal separation cannot be carried out; and if this temperature exceeds the above range, a disadvantage is formed due to the loss of light fractions. In addition, in the second stage (1), the temperature at which the heated and mixed substance of the crude oil sludge (A) and the crude oil (B) is centrifugally separated is preferably made equal to or higher than the temperature of heating and mixing the crude oil sludge mixture (A ) with crude oil (B) in the first stage (1).

The heated and mixed sludge substance of crude oil (A) and crude oil (B) obtained by the first stage (1) is a mixture of a light liquid having a low specific gravity and a heavy fraction having a higher specific gravity than this light liquid ; and in the second stage (1), the light liquid and the heavy fraction are separated by a difference in specific gravity. Then the light liquid is a liquid obtained by the fact that the oil fraction in the sludge of crude oil (A) is dissolved in crude oil (B) in the first stage (1). That is, the light liquid mainly consists of crude oil (B) and the oil fraction in the slurry of crude oil (A) dissolved in crude oil (B). The heavy fraction is the components in the sludge of crude oil (A) that did not dissolve in the crude oil (B) in the first stage (1), and mainly represents asphaltene, moisture, iron, sand, the oil fraction carried in the data components and in a condition that impedes separation, and the like.

The centrifugal separation unit for centrifugal separation of the heated and mixed substance in the second stage (1) is not particularly limited and is suitable if it is able to continuously separate the light liquid and the heavy fraction by varying the specific gravity while maintaining the above centrifugal separation temperature. Examples thereof include a decanter type centrifuge separator, a disk separator type centrifuge separator, and a combination centrifuge separator.

The physical properties of the light liquid obtained by the second stage (1) are not particularly limited; but its density is preferably from 0.80 to 0.95 g / cm ³ and, more preferably from 0.80 to 0.88 g / cm ³ ; its melting point is preferably from 40 to 150 ° C, more preferably from 40 to 110 ° C and even more preferably from 40 to 90 ° C; its pour point is preferably from 30 to 140 ° C, more preferably from 30 to 100 ° C, and even more preferably from 30 to 80 ° C; and its own oil fraction is 60% by mass or more.

The third stage (1) in the method of extracting the oil fraction from the crude oil sludge according to the first aspect of the present invention is the stage of bringing the temperature of the light liquid obtained by the second stage (1) to an equal or higher temperature than its melting temperature, and mixing this light liquid having an equal or higher temperature than the melting temperature, with crude oil (B) in the pumping line for crude oil. If the temperature of the light liquid is lower than the melting point, it becomes difficult to mix the light liquid with crude oil (B) in the pumping line for crude oil.

In a third step (1), crude oil (B) to be mixed with a light liquid is not particularly limited and may be crude oil before being cleared of solid contents, moisture, and the like after the extraction of crude oil, and stored in the crude oil tank , may be crude oil shortly after being cleared of solid contents, moisture, and the like after the extraction of crude oil, and starting to be stored in the crude oil tank, and before the formation of crude oil sludge, or may be super tant crude oil in the tank for crude oil after the formation of sludge in crude oil tank bottom for crude oil over a period of storage of crude oil in a crude oil tank. Crude oil (B) may be the same crude oil as crude oil as a source of sludge for crude oil (A), may be a different crude oil, or may be the same crude oil as crude oil (B), or crude oil other than it.

The oil fraction in the sludge of crude oil (A) is mainly hydrocarbons having large molecular weights having 40 or more than 40 carbon atoms, and thus, if the temperature of the light liquid becomes too low compared to the temperature when the first stage (1) is heated and mixed, the light fluid solidifies, or the fluidity of the light fluid is noticeably reduced; therefore, in the third step (1), the temperature of the light liquid is brought to an equal or higher temperature than its melting point, and then the light liquid is mixed with crude oil (B). The temperature of the light liquid is preferably equal to or higher than the melting temperature and is in the range from 40 to 200 ° C, more preferably from 50 to 150 ° C, and even more preferably from 60 to 100 ° C.

In the third step (1), with regard to the relationship between the temperatures of crude oil (B) and light liquid when mixing the light liquid with crude oil (B), the temperature of the crude oil (B) is equal to or higher than the temperature of the light liquid, or the temperature crude oil (B) is lower than the temperature of the light liquid, and the difference between the temperature of the light liquid and the temperature of the crude oil (B) is 40 ° C. or less. When the temperature of the crude oil (B) is lower than the temperature of the light liquid, with a smaller difference between the temperature of the light liquid and the temperature of the crude oil (B) when mixing the light liquid with the crude oil (B), the deposition of the crude oil sludge fraction (A) ) in crude oil (B) is more inhibited, or, even if the oil fraction is deposited in the form of a precipitate, most of the oil fraction is deposited in the form of small particles, with less chance of causing the formation of sludge, and thus the difference between the temperature of the light liquidand a temperature of crude oil (B), which is 40 ° C or less, has the following effect: the deposition of the oil fraction of the slurry of crude oil (A) as a precipitate in the crude oil (B) is suppressed, or even if the oil fraction is deposited as a precipitate , the oil fraction is deposited in the form of fine particles, with a low probability of causing sludge formation. In addition, in the case where the temperature of the crude oil (B) is less than the temperature of the light liquid, the difference between the temperature of the light liquid and the temperature of the crude oil (B), which is preferably 30 ° C. or less, more preferably 20 ° C. or less and even more preferably 10 ° C. or less, enhances the following effect: the deposition of the oil fraction of the sludge of crude oil (A) as a precipitate in the crude oil (B) is suppressed, or even if the oil fraction is deposited as a precipitate, the oil fraction is deposited in the form of fine particles, with a low probability spine causing sludge formation. In addition, in the case where the temperature of the crude oil (B) is equal to or higher than the temperature of the light liquid when mixing the light liquid with the crude oil (B), the deposition of the oil fraction of the slurry of crude oil (A) as a precipitate in the crude oil (B) is suppressed, or even if the oil fraction is deposited in the form of a precipitate, the oil fraction is deposited in the form of fine particles, with little chance of causing the formation of sludge, and thus, the temperature of the crude oil (B) equal to or higher than the temperature of a light liquid, has the following effect: when mixing lay down liquids with crude oil (B), the deposition of the oil fraction of the sludge of crude oil (A) as a precipitate in the crude oil (B) is suppressed, or, even if the oil fraction is deposited as a precipitate, the oil fraction is deposited in the form of fine particles, with a small likelihood of sludge formation. In addition, in the case where the temperature of the crude oil (B) is equal to or higher than the temperature of the light liquid, the difference between the temperature of the crude oil (B) and the temperature of the light liquid is preferably 10 ° C. or less, and more preferably 5 ° C. or less .

In the third step (1), the temperature of the crude oil (B) flowing in the pumping line for the crude oil satisfies the above relationship between the temperature of the crude oil (B) and the temperature of the light liquid; however, when the temperature of the crude oil (B) is too high, a disadvantage arises from the loss of light fractions, and thus the temperature of the crude oil (B) is preferably 60 ° C. or less and, more preferably 50 ° C. or less.

In a third step (1), by mixing a light liquid with a crude oil (B) in a pumping line for a crude oil, this light liquid is mixed with a crude oil (B). A crude oil pumping pipeline is a pumping pipeline for pumping crude oil (B), and crude oil (B) flows therein, and thus mixing light liquid with crude oil (B) in a crude oil pumping pipeline refers to mixing light liquid with crude oil (B) in a state of flow in the pumping pipeline for crude oil. Then, in the third stage (1), by mixing the light liquid with crude oil (B) in the flow state, the sludge-deposited oil fraction of the crude oil sludge (A) can be rapidly dispersed in the crude oil (B) until the sludge-deposited oil fraction is aggregated fractions of the crude oil sludge (A) in the crude oil (B), and thus, the sludge is unlikely to form in the crude oil (B). In contrast, by directly adding light liquid and mixing with non-flowing crude oil, for example, with crude oil in a crude oil tank, the crude oil sludge fraction of crude oil (A), which is deposited as a precipitate in crude oil (B), with a small the probability will be dispersed in the crude oil (B), and thus, even if the oil fraction of the slurry of the crude oil (A) becomes a precipitate of fine particles, it is unlikely to form a slurry, formation of the slurry in the crude oil (B) is likely, since sedimentary oil This fraction immediately leads to aggregation after mixing.

A method for mixing a light liquid with a crude oil (B) in a crude oil transfer pipe comprises mixing by mixing lines, a static mixer, a spray nozzle, a mixing valve, or the like.

In a third step (1), the amount of light liquid to be mixed with the crude oil (B) is, with respect to 100 parts by volume of the crude oil (B), preferably 45 parts by volume or less, and more preferably from 2 to 15 parts by volume. When the amount of light liquid to be mixed with crude oil (B) is in the above range, formation of sludge in the crude oil (B) is unlikely.

In the third step (1), the linear velocity of the crude oil (B) flowing in the pumping line for the crude oil is preferably 1 cm / s or more, more preferably 4 cm / s or more, and even more preferably 6 cm / s or more. When the linear velocity of the crude oil (B) flowing in the crude oil transfer pipe is in the above range, the oil fraction of the crude oil sludge (A) deposited as a precipitate in the crude oil (B) easily becomes dispersed, and thus , formation of sludge in crude oil (B) becomes unlikely. Here, although there is no upper limit for the linear velocity of the crude oil (B) flowing in the pumping pipeline for crude oil, the usual linear velocity of the crude oil in the pumping pipeline for crude oil is in many cases 500 cm / s or less.

Then, through the third stage (1), crude oil (G) is obtained in which a light liquid is mixed with crude oil (B).

Crude oil (G) according to the present invention is a crude oil obtained by:

the first stage (1) of mixing the slurry of crude oil (A) with crude oil (B) so that the proportion of slurry of crude oil (A) to the sum of the slurry of crude oil (A) and crude oil (B) becomes equal to 20 to 95% by weight, and then heating and mixing the mixture of crude oil sludge (A) with crude oil (B) at 40-200 ° C. to thereby obtain heated and mixed sludge from crude oil (A) and crude oil (B);

the second stage (1) centrifugal separation of the heated and mixed substances at 40-200 ° C into a light liquid and a heavy fraction to obtain, through this, a light liquid; and

the third stage (1) bringing the temperature of the light liquid to an equal or higher temperature than its melting point and mixing the light liquid having an equal or higher temperature than the melting point with crude oil (B) in the pumping pipeline for crude oil, where the temperature of the crude oil (B) is equal to or higher than the temperature of the light liquid, or the temperature of the crude oil (B) is lower than the temperature of the light liquid, and the difference between the temperature of the light liquid and the temperature of the crude oil (B) is 40 ° C or less e.

Crude oil sludge (A), crude oil (B), a mixture of crude oil sludge (A) with crude oil (B), heated and mixed substance of crude oil sludge (A) and crude oil (B), the first stage (1), centrifugal separation, light liquid, heavy fraction, the second stage (1), crude oil (B) and the third stage (1) relevant to the crude oil (G) according to the present invention are the same as the slurry of crude oil (A) , crude oil (B), a mixture of sludge crude oil (A) with crude oil (B), heated and mixed substance sludge crude oil (A) and crude oil (B), the first stage (1), centrifuge a solid separation, a light liquid, a heavy fraction, a second stage (1), crude oil (B) and a third stage (1) relevant to a method for recovering an oil fraction from a crude oil sludge according to a first aspect of the present invention.

A method for recovering an oil fraction from a crude oil sludge according to a second aspect of the present invention is a method for extracting an oil fraction from a crude oil sludge, comprising:

a first step (2) of heating the crude oil sludge (A) at 40-200 ° C. to thereby obtain a heated crude oil sludge substance (A);

the second stage (2) of centrifugal separation of the heated substance at 40-200 ° C into a light liquid and a heavy fraction, thereby obtaining a light liquid; and

the third stage (2) bringing the temperature of the light liquid to an equal or higher temperature than its melting point, and mixing the light liquid having an equal or higher temperature than the melting point with crude oil (B) in the pumping pipeline for crude oil, where the temperature of the crude oil (B) is equal to or higher than the temperature of the light liquid, or the temperature of the crude oil (B) is lower than the temperature of the light liquid, and the difference between the temperature of the light liquid and the temperature of the crude oil (B) is 40 ° C or less .

The first step (2) of the method for recovering crude oil from crude oil sludge according to the second aspect of the present invention is the step of heating the crude oil sludge (A) at 40-200 ° C. to thereby obtain a heated substance of crude oil sludge (A).

The slurry of crude oil (A) in the first stage (2) is the same as the slurry of crude oil in the first stage (1).

In the first step (2), the crude oil sludge (A) is heated at 40-200 ° C, preferably at 50-150 ° C, and more preferably at 60-100 ° C, thereby obtaining a heated substance of crude oil sludge (A) ) If the heating temperature is lower than the above interval, the extraction of the oil fraction from the sludge of crude oil (A) becomes insufficient; and if the temperature exceeds the above range, heating costs increase and economic efficiency is lost. A method for heating a slurry of crude oil (A) is not particularly limited, and examples thereof include a method in which a slurry of crude oil (A) is heated in a reservoir that stores a slurry of crude oil (A) taken from a crude oil reservoir.

The second stage (2) in the method of extracting the oil fraction from the crude oil sludge according to the second aspect of the present invention is a centrifugal separation of the heated substance of the crude oil sludge (A) obtained by carrying out the first stage (2) at 40-200 ° C. a liquid and a heavy fraction to thereby obtain a light liquid.

In the second stage (2), the temperature during centrifugal separation of the heated substance of the sludge of crude oil (A) is from 40 to 200 ° C, preferably from 50 to 150 ° C, and more preferably from 60 to 100 ° C. If the temperature of the centrifuge separation is less than the above interval, then part of the heated substance of the crude oil sludge (A) solidifies, and the fluidity of the heated substance during centrifuge separation is significantly reduced and, thus, the centrifuge separation cannot be carried out; and if the temperature exceeds the above range, heating costs increase and economic efficiency is lost. In addition, in the second stage (2), the temperature during centrifugal separation of the heated substance of the crude oil sludge (A) is preferably made equal to or higher than the heating temperature of the crude oil sludge (A) in the first stage (2).

The heated crude oil sludge substance (A) obtained by carrying out the first stage (2) is a mixture of a light liquid having a low specific gravity and a heavy fraction having a higher specific gravity than a light liquid; and in the second stage (2), the light liquid and the heavy fraction are separated by a difference in specific gravity. Then the light liquid is the oil fraction in the sludge of crude oil (A). That is, the light liquid mainly consists of the oil fraction in the sludge of crude oil (A). The heavy fraction is the components in the sludge of crude oil (A), which have higher specific gravities than the oil fraction, mainly such as asphaltene, moisture, iron, sand, oil fraction transported in these components and in a difficult state for separation by heating in the first stage (2).

The centrifugal separation unit for centrifugal separation of the heated substance in the second stage (2) is not particularly limited and is suitable if it is capable of continuously separating a light liquid and a heavy fraction by difference in specific gravity while maintaining the above centrifugal separation temperature. Examples thereof include a decanter type centrifuge separator, a disk separator type centrifuge separator, and a combination centrifuge separator.

The physical properties of the light fluid obtained by the second stage (2) are not particularly limited; but its density is preferably from 0.80 to 0.95 g / cm ³ and, more preferably from 0.80 to 0.88 g / cm ³ ; its melting point is preferably from 40 to 150 ° C, more preferably from 40 to 110 ° C and even more preferably from 40 to 90 ° C; its pour point is preferably from 30 to 140 ° C, more preferably from 30 to 100 ° C, and even more preferably from 30 to 80 ° C; and the oil fraction therein is 60% by mass or higher.

The third stage (2) in the method of extracting the oil fraction from the crude oil sludge according to the second aspect of the present invention is the stage of bringing the temperature of the light liquid obtained by the second stage (2) to an equal or higher temperature than its melting temperature, and mixing the light liquid having an equal or higher temperature than the melting point with crude oil (B) in the pumping line for crude oil. If the temperature of the light liquid is lower than the melting point, it becomes difficult to mix the light liquid with crude oil (B) in the pumping line for crude oil. The third stage (2) is the same as the third stage (1), except that in the third stage (2) the light liquid to be mixed with crude oil (B) is a light liquid obtained by carrying out the first stage ( 2) and the second stage (2), while in the third stage (1) the light liquid to be mixed with crude oil (B) is a light liquid obtained by carrying out the first stage (1) and the second stage (1).

In a third step (2), crude oil (B) to be mixed with a light liquid is not particularly limited and may be crude oil before being removed from solid contents, moisture, and the like after the extraction of crude oil and stored in a crude oil tank, it may be crude oil shortly after purification from solid content, moisture and the like after extraction of crude oil and starting to be stored in a tank for crude oil and before the formation of a slurry of crude oil, or it may be a supernat nt crude oil in the tank for crude oil after the formation of sludge in crude oil tank bottom for crude oil over a period of storage of crude oil in a crude oil tank. Crude oil (B) may be the same crude oil as crude oil as a source of sludge formation of crude oil (A), or it may be a different crude oil.

The oil fraction in the sludge of crude oil (A) is mainly hydrocarbons having a high molecular weight, having 40 or more carbon atoms, and thus, if the temperature of the light liquid becomes too low compared to the temperature when conducting heating on the first stage (2), the light fluid solidifies, or the fluidity of the light fluid is markedly reduced; therefore, in the third stage (2), the temperature of the light liquid is brought to an equal or higher temperature than its melting point, and then the light liquid is mixed with crude oil (B). The temperature of the light liquid is preferably equal to or higher than the melting temperature and is in the range from 40 to 200 ° C, more preferably from 50 to 150 ° C, and even more preferably from 60 to 100 ° C.

In a third step (2), with regard to the relationship between the temperatures of crude oil (B) and light liquid, when mixing the light liquid with crude oil (B), the temperature of the crude oil (B) is equal to or higher than the temperature of the light liquid, or the temperature of the crude oil (B) is lower than the temperature of the light liquid, and the difference between the temperature of the light liquid and the temperature of the crude oil (B) is 40 ° C. or less. In the case where the temperature of the crude oil (B) is lower than the temperature of the light liquid, with a smaller difference between the temperature of the light liquid and the temperature of the crude oil (B) when mixing the light liquid with the crude oil (B), the deposition of the crude oil sludge fraction (A) ) in the form of a precipitate in crude oil (B) is suppressed to a greater extent, or, even if the oil fraction is deposited in the form of a precipitate, most of the oil fraction is deposited in the form of fine particles, with less chance of causing the formation of sludge, and thus the difference temperature went down liquid and a temperature of crude oil (B), which is 40 ° C or less, has the following effect: the deposition of the oil fraction of the sludge of crude oil (A) as a precipitate in the crude oil (B) is suppressed, or even if the oil fraction is deposited in in the form of sediment, the oil fraction is deposited in the form of fine particles, with a low probability of causing the formation of sludge. In addition, in the case where the temperature of the crude oil (B) is less than the temperature of the light liquid, the difference between the temperature of the light liquid and the temperature of the crude oil (B), which is preferably 30 ° C or less, more preferably 20 ° C or less, and even more preferably 10 ° C. or less, enhances the following effect: the deposition of the oil fraction of the sludge of crude oil (A) as a precipitate in the crude oil (B) is suppressed, or even if the oil fraction is deposited as a precipitate, the oil fraction is deposited as small particles, with a low probability spine causing sludge. In addition, in the case where the temperature of the crude oil (B) is equal to or higher than the temperature of the light liquid, when mixing the light liquid with the crude oil (B), the oil fraction of the slurry of crude oil (A) is deposited as a precipitate in the crude oil (B) is suppressed, or even if the oil fraction is deposited in the form of a precipitate, the oil fraction is deposited in the form of fine particles, with a low probability of causing sludge formation, and thus, the temperature of the crude oil (B), which is equal to or higher than the temperature of a light liquid, has the following effect: when mixed easily liquid fluid with crude oil (B), the deposition of the oil fraction of the sludge of crude oil (A) as a precipitate in the crude oil (B) is suppressed, or, even if the oil fraction is deposited as a precipitate, the oil fraction is deposited in the form of fine particles, with a small likelihood of sludge formation. In addition, in the case where the temperature of the crude oil (B) is equal to or higher than the temperature of the light liquid, the difference between the temperature of the crude oil (B) and the temperature of the light liquid is preferably 10 ° C. or less, and more preferably 5 ° C. or smaller.

In the third stage (2), the temperature of the crude oil (B) flowing in the pumping line for the crude oil satisfies the above relationship between the temperature of the crude oil (B) and the temperature of the light liquid; however, when the temperature of the crude oil (B) is too high, there is a disadvantage due to the loss of light fractions, and thus the temperature of the crude oil (B) is preferably 60 ° C. or less, and more preferably 50 ° C. or less.

In a third step (2), by mixing a light liquid with a crude oil (B) in a pumping line for a crude oil, this light liquid is mixed with a crude oil (B). That is, a light liquid is mixed with crude oil (B) in a flow state in a crude oil transfer pipe. In addition, in the third stage (2), by mixing the light liquid with crude oil (B) in the flow state, the sludge-deposited oil fraction of the crude oil sludge (A) can be rapidly dispersed in the crude oil (B) until the sludge is deposited the oil fraction of the crude oil strain (A) in the crude oil (B), and thus, sludge is less likely to form in the crude oil (B). In contrast, with direct addition of light liquid and mixing with non-flowing crude oil, for example, with crude oil in a crude oil tank, a sludge-like oil fraction of crude oil sludge (A) in crude oil (B) is unlikely to be dispersed in crude oil (B), and thus, even if the oil fraction of the slurry of crude oil (A) becomes a precipitate of fine particles, it is unlikely to form a slurry, formation of slurry in the crude oil (B) is likely, since in the form of sediment I fraction immediately leads to aggregation after mixing.

A method for mixing a light liquid with a crude oil (B) in a crude oil transfer pipe comprises mixing by mixing lines, a static mixer, a spray nozzle, a mixing valve, or the like.

In a third step (2), the amount of light liquid to be mixed with the crude oil (B) is, with respect to 100 parts by volume of the crude oil (B), preferably 45 parts by volume or less, and more preferably from 2 to 15 parts by volume. When the amount of light liquid to be mixed with the crude oil (B) is in the above range, formation of sludge in the crude oil (B) becomes unlikely.

In a third step (2), the linear velocity of the crude oil (B) flowing in the pumping line for the crude oil is preferably 1 cm / s or more, more preferably 4 cm / s or more, and even more preferably 6 cm / s or more. When the linear velocity of the crude oil (B) flowing in the pumping line for the crude oil is in the above range, the oil fraction of the crude oil sludge (A) deposited as a precipitate in the crude oil (B) easily becomes dispersed, and thus thus, formation of sludge in crude oil (B) becomes unlikely. Here, although there is no upper limit for the linear velocity of the crude oil (B) flowing in the pumping pipeline for crude oil, the usual linear velocity of the crude oil in the pumping pipeline for crude oil is in many cases 500 cm / s or less.

Then, through the third stage (2), crude oil (D) is obtained in which a light liquid is mixed with crude oil (B).

Crude oil (D) according to the present invention is a crude oil obtained by:

a first step (2) of heating the crude oil sludge (A) at 40-200 ° C. to thereby obtain a heated crude oil sludge substance (A);

the second stage (2) of centrifugal separation of the heated substance at 40-200 ° C into a light liquid and a heavy fraction, thereby obtaining a light liquid; and

the third stage (2) bringing the temperature of the light liquid to an equal or higher temperature than its melting point and mixing the light liquid having an equal or higher temperature than its melting point with crude oil (B) in the pumping pipeline for crude oil, where the temperature of the crude oil (B) is equal to or higher than the temperature of the light liquid, or the temperature of the crude oil (B) is lower than the temperature of the light liquid, and the difference between the temperature of the light liquid and the temperature of the crude oil (B) is 40 ° C or it bigger.

Crude oil sludge (A), heated substance of crude oil sludge (A), first stage (2), centrifugal separation, light liquid, heavy fraction, second stage (2) and third stage (2) relevant to crude oil (D) according to the present invention are the same as crude oil sludge (A), heated substance of crude oil sludge (A), first stage (2), centrifugal separation, light liquid, heavy fraction, second stage (2) and third stage (2 ) relevant to a method for recovering an oil fraction from a crude oil sludge according to a second aspect of the present iso grip.

Crude oil (G) according to the present invention is obtained by carrying out the first stage (1), the second stage (1) and the third stage (1), and thus, the storage of crude oil (G) in the tank for crude oil is unlikely to form a crude oil sludge . In addition, upon receipt of the crude oil (D) according to the present invention by carrying out the first stage (2), the second stage (2) and the third stage (2), when storing the crude oil (D) in the crude oil tank, the formation of crude oil sludge is unlikely.

In the method for recovering an oil fraction from a crude oil sludge according to a first aspect of the present invention, the oil fraction can be extracted from a crude oil sludge (A) by dissolving the oil fraction in a crude oil sludge (A) in a crude oil (B) and centrifugal separation of a light liquid, i.e. crude oil (B) containing the oil fraction in the sludge of crude oil (A) dissolved in it from the heavy fraction, that is, components excluding the oil fraction in the sludge of crude oil (A) by carrying out the first stage (1) and second stage (1). Further, in the method for recovering an oil fraction from a crude oil sludge according to a second aspect of the present invention, the oil fraction can be extracted from a crude oil sludge (A) by centrifugally separating the oil fraction in the crude oil sludge (A) as a light liquid from a heavy fraction, i.e. , components excluding the oil fraction in the sludge of crude oil (A), by carrying out the first stage (2) and the second stage (2).

Here, the oil fraction in the sludge of crude oil (A) cannot be dissolved in crude oil (B) at the storage temperature of the crude oil (usually from 20 to 40 ° C), and thus when the light liquid obtained by the second stage (1) or the second stage (2), returns directly to the crude oil tank, simultaneously with the contacting of the light liquid with the crude oil in the crude oil tank, the oil fraction in the crude oil sludge (A), dissolved in the light liquid, is deposited in the form of a precipitate of large solid particles and forms a large siege k, which thus again forms a sludge.

Then, in the method of extracting the oil fraction from the crude oil sludge according to the present invention by carrying out the third stage (1) or the third stage (2), that is, by bringing the temperature of the light liquid to an equal or higher temperature than its melting point and mixing the light liquid with crude oil (B), whose temperature is equal to or higher than the temperature of the light liquid, or whose temperature is lower than the temperature of the light liquid, where the temperature difference between the crude oil (B) and the light liquid was 40 ° C or less, the deposition of the crude oil sludge fraction (A) as a sludge in the crude oil (B) is suppressed, or even if the oil fraction is deposited as a sludge, this oil fraction is deposited as fine particles, making sludge formation unlikely ; and by mixing the light liquid in the crude oil (B) in a fluid state, the oil fraction in the slurry of the crude oil (A) can be dispersed in the crude oil (B) before aggregating the oil fraction of the slurry of crude oil (A), which is deposited as a precipitate in the crude oil (AT); thus, the oil fraction in the slurry of crude oil (B) can be obtained so that it is unlikely to form a slurry in crude oil (B).

EXAMPLES

Hereinafter, the present invention will be more specifically described by way of Examples, but the present invention is not limited to them.

Crude oil sludge (A)

Crude oil sludge recovered from the crude oil tank.

Values for analysis: oil fraction content: 75.1% by mass, asphaltene content: 10.3% by mass, moisture content: 11.0% by mass, sediment content: 3.6% by mass.

Crude oil sludge (B)

Crude oil 6, having the following meanings in the analysis:

API degree (density in degrees American Petroleum Institute): 30.3 °, water and sediment content: 0% by volume.

Crude oil (B)

The above crude oil 6 was used as crude oil (B).

(Examples 1-4)

Crude oil sludge a and crude oil 6 were added to the mixing vessel so that the proportion of crude oil sludge to the sum of both became equal to 70% by weight; and this mixture was heated and stirred at 80 ° C.

Then, while maintaining a temperature of 80 ° C, the heated and mixed substance was placed in a centrifuge separator with a temperature of 80 ° C and centrifugally separated under the following conditions: 80 ° C, 1000 g and 1 min.

Then, the light liquid was separated by decantation, thereby obtaining a light liquid. The values in the analysis of the obtained light fluid are shown in Table 1.

Then, a light liquid heated to 80 ° C was mixed in the appropriate proportion indicated in Table 1 with crude oil 6 with a temperature of 50 ° C flowing at the corresponding linear speed indicated in Table 1, thereby obtaining a mixture (mixed sample). The mixing method is as shown in FIG. one.

Then, the resulting mixture was allowed to stand at rest at 35 ° C. for 5 days, and the amount of sludge deposited, API, and the water and sludge content of the crude oil purified from the sludge were measured.

The results are shown in Table 1.

The method of measuring the amount of deposited sludge

100 ml of the sample was placed in a 100 ml centrifuge tube and allowed to stand at rest at 35 ° C for 5 days. Then the centrifuge tube was tilted and the supernatant discarded for 15 s; and the centrifuge tube was then inverted and left to stand at rest for 30 s. Then, the initial position of the centrifuge tube was restored, and it was allowed to stand at rest at 80 ° C for 60 min; and the amount of sludge remaining in the centrifuge tube was measured.

(Comparative Examples 1 and 2)

A light liquid heated to 80 ° C was mixed in an appropriate proportion, shown in Table 1, with crude oil 6 with a temperature of 30 ° C, flowing at the corresponding linear speed indicated in Table 1, thereby obtaining a mixture (mixed sample) ) Here, a light liquid was obtained in the same manner as in the Examples.

Then, the resulting mixture was allowed to stand at rest at 35 ° C. for 5 days, and the amount of sludge deposited, API, and the water and sludge content of the crude oil purified from the sludge were measured. The results are shown in Table 1.

(Comparative Example 3)

A light liquid heated to 80 ° C was added and mixed, without shaking, in the proportion indicated in Table 1, with crude oil 6 at a temperature of 30 ° C, which was allowed to stand at rest in a vessel. Here, a light liquid was obtained in the same manner as in the Examples.

Then, the resulting mixture was allowed to stand at rest at 35 ° C. for 5 days, and the amount of sludge deposited, API, and the water and sludge content of the crude oil purified from the sludge were measured. The results are shown in Table 1.

Claims (19)

1. The method of extracting oil from sludge crude oil, including: the first stage (1) of mixing the slurry of crude oil (A) with crude oil (B) so that the proportion of slurry of crude oil (A) to the sum of the slurry of crude oil (A) and crude oil (B) becomes equal to from 20 to 95% by weight, and then heating and mixing this mixture of crude oil sludge (A) with crude oil (B) at 40-200 ° C. to thereby obtain heated and mixed sludge from crude oil (A) and crude oil (B) ; the second stage (1) of centrifugal separation of the heated and mixed substances at 40-200 ° C into a light liquid and a heavy fraction, thereby obtaining a light liquid; and the third stage (1) bringing the temperature of the light liquid to an equal or higher temperature than its melting point, and mixing the light liquid having an equal or higher temperature than the melting point with crude oil (B) in a crude oil transfer pipe, where the temperature of the crude oil (B) is equal to or higher than the temperature of the light liquid, or the temperature of the crude oil (B) is less than the temperature of the light liquid, and the difference between the temperature of the light liquid and the temperature of the crude oil (B) is 40 ° C. or less. 2. A method of extracting oil from crude oil sludge, including: a first step (2) of heating the crude oil sludge (A) at 40-200 ° C. to thereby obtain a heated crude oil sludge substance (A); the second stage (2) of centrifugal separation of this heated substance at 40-200 ° C into a light liquid and a heavy fraction, thereby obtaining a light liquid; and the third stage (2) bringing the temperature of the light liquid to an equal or higher temperature than its melting point, and mixing the light liquid having an equal or higher temperature than the melting point with crude oil (B) in a crude oil transfer pipe, where the temperature of the crude oil (B) is equal to or higher than the temperature of the light liquid, or the temperature of the crude oil (B) is less than the temperature of the light liquid, and the difference between the temperature of the light liquid and the temperature of the crude oil (B) is 40 ° C. or less. 3. The method of extracting oil from crude oil sludge according to claim 1 or 2, wherein in the third stage, the temperature of the light liquid when mixing the light liquid with crude oil (B) is from 50 to 150 ° C. 4. The method of extracting oil from crude oil sludge according to any one of paragraphs. 1-3, in which in the third stage, the amount of light liquid mixed on the basis of 100 parts by volume of crude oil (B) is 45 parts by volume or less. 5. The method of extracting oil from crude oil sludge according to any one of paragraphs. 1-4, in which in the third stage, the linear velocity of the crude oil (B) flowing in the pumping pipeline for crude oil is 1 cm / s or more. 6. Crude oil (G) obtained through: the first stage (1) of mixing the slurry of crude oil (A) with crude oil (B) so that the proportion of slurry of crude oil (A) to the sum of the slurry of crude oil (A) and crude oil (B) becomes equal to 20 to 95% by weight, and then heating and mixing this mixture of crude oil sludge (A) with crude oil (B) at 40-200 ° C. to thereby obtain heated and mixed sludge from crude oil (A) and crude oil (B) ; the second stage (1) of centrifugal separation of the heated and mixed substances at 40-200 ° C into a light liquid and a heavy fraction, thereby obtaining a light liquid; and the third stage (1) bringing the temperature of the light liquid to an equal or higher temperature than its melting point, and mixing this light liquid having an equal or higher temperature than the melting point with crude oil (B) in a pumping pipeline for crude oil, where the temperature of the crude oil (B) is equal to or higher than the temperature of the light liquid, or the temperature of the crude oil (B) is less than the temperature of the light liquid, and the difference between the temperature of the light liquid and the temperature of the crude oil (B) is 40 ° C. or less. 7. Crude oil (D) obtained through: a first step (2) of heating the crude oil sludge (A) at 40-200 ° C. to thereby obtain a heated crude oil sludge substance (A); the second stage (2) of centrifugal separation of this heated substance at 40-200 ° C into a light liquid and a heavy fraction, thereby obtaining a light liquid; and the third stage (2) bringing the temperature of the light liquid to an equal or higher temperature than its melting point, and mixing this light liquid having an equal or higher temperature than the melting point with crude oil (B) in the pumping pipeline for crude oil, where the temperature of the crude oil (B) is equal to or higher than the temperature of the light liquid, or the temperature of the crude oil (B) is less than the temperature of the light liquid, and the difference between the temperature of the light liquid and the temperature of the crude oil (B) is 40 ° C. or less.

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