JP2003049174A - Method of cracking of heavy oil - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a method of cracking of heavy oil such as thermal cracking, catalytic cracking or hydrocracking in which the yield of light oil is increased and the amount of an energy consumption is decreased by suppressing coke formation in the cracking. SOLUTION: When heavy oil is treated by cracking, it is subjected, in advance, to a thermal treatment at 150-350 deg.C, or a relaxation treatment against asphaltene by adding a relaxation agent.

Description

Detailed Description of the Invention

[0001]

TECHNICAL FIELD The present invention relates to a method for cracking and processing heavy oil. More specifically, the present invention, in cracking treatment such as thermal cracking, catalytic cracking, hydrocracking of heavy oil, by pre-heating the heavy oil, suppresses generation of coke in the cracking treatment, The present invention relates to a heavy oil cracking treatment method for improving the yield of light oil and reducing energy consumption.

[0002]

2. Description of the Related Art Crude oil atmospheric distillation residue oil and vacuum distillation residue oil, heavy gas oil, catalytic cracking residue oil, visbreaking oil,
Heavy oils such as bitumen are generally subjected to various cracking treatments such as thermal cracking, catalytic cracking and hydrocracking in order to be lightened. Heavy oil is a high molecular weight mixture of various fused aromatic rings linked by alkyl chains of various lengths, and thus the ratio of hydrogen to carbon (hydrogen / carbon ratio) that makes up the heavy oil. ) Is very low compared to light oil. In order to lighten a heavy oil having a low hydrogen / carbon ratio to obtain a light oil having a high hydrogen / carbon ratio, it is necessary to balance hydrogen between the heavy oil and the light oil by some method. Therefore, the heavy oil cracking process is
(1) A process of supplying hydrogen from the outside, or (2) receiving no supply of hydrogen from the outside to generate an olefin-rich fraction, or a coke or a fraction with a very low hydrogen / carbon ratio It will be one of the processes of taking it out as raw. The hydrocracking treatment method belongs to the cracking process of (1), while the thermal cracking and catalytic cracking treatment methods belong to the cracking process of (2).

The hydrocracking method is a method in which decomposition and hydrogenation reactions are carried out under high pressure, and since desulfurization and denitrification are also carried out simultaneously with the decomposition, a product with excellent properties can be obtained and the reaction It has the advantage that the yield of naphtha, kerosene, light oil, etc. can be controlled by changing the conditions. On the other hand, in the thermal decomposition treatment method, a visbreaking process and a caulking process are known, and the former visbreaking process is a thermal decomposition reaction under mild conditions, so the decomposition rate is low, but the existing It is possible to modify and divert the atmospheric distillation apparatus and the vacuum distillation apparatus, and it is advantageous in terms of economy. In the latter coking process, metal components contained in heavy oil, impurities such as asphaltene can be concentrated in the product coke and taken out, and the decomposition rate into the middle distillate is relatively high, Since cracked oil contains unstable olefins, hydrorefining is necessary to obtain the final product. Since the catalytic cracking treatment method is a catalytic reaction using a catalyst, the selectivity of the reaction is high, the yield of the desired product is good, and the product properties are better than those of the thermal cracking treatment method. Used as a gasoline base material. However, cracked gas oil has a low cetane number because it is rich in olefins and aromatics.
It is not suitable for light oil bases and is mainly used as A heavy oil bases. As the catalytic cracking method, a fluidized catalytic cracking method is usually adopted.

However, in such cracking treatment of heavy oil, (1) a large amount of coke is produced in the treatment process, (2) reactivity is low, and the catalyst often does not function effectively, (3) ) The deactivation of the catalyst due to the adhesion of coke is fast,
(4) The actual situation is that it has problems such as high energy consumption. On the other hand, a method of improving the properties of crude oil by storing it under hydrogen pressure has been proposed (JP-A-6-93272). However, this method is actually a method of causing a very mild hydrocracking reaction and has a drawback that it needs to be retained in a large-capacity tank for a long time. In addition, as a pretreatment of the coker, a method of suppressing coking in the heating furnace tube by preheating to a temperature not higher than the start of decomposition has been proposed (JP-A-52-69906). However, this method is unsuitable for the coagulation relaxation treatment of asphaltene in that it is preheated to 370 ° C. in Example, and it is considered that coking has actually started.

[0005]

Under such circumstances, the present invention suppresses generation of coke in cracking treatment of heavy oil such as thermal cracking, catalytic cracking and hydrocracking. It is an object of the present invention to provide a heavy oil cracking treatment method that improves the yield of light oil and reduces energy consumption.

[0006]

Means for Solving the Problems As a result of intensive studies to achieve the above-mentioned object, the present inventors have found that a heavy oil is subjected to a relaxation treatment at a specific temperature in advance before being decomposed, or It was found that the purpose can be achieved by using an alleviating agent to alleviate the asphaltene aggregation during the decomposition treatment. The present invention has been completed based on such findings. That is, in the present invention, when the heavy oil is cracked to be lightened, the heavy oil is previously treated with 150 to 3
Disclosed is a method for decomposing heavy oil, which comprises heat-treating at a temperature of 50 ° C. and / or adding a emollient.

[0007]

BEST MODE FOR CARRYING OUT THE INVENTION In the heavy oil cracking treatment method of the present invention, the heavy oil used as a feedstock is not particularly limited. For example, crude oil residual oil under reduced pressure and residual oil under reduced pressure, heavy oil Examples include dense petroleum fractions such as light oil, catalytically cracked residual oil, visbreaking oil, and bitumen. These heavy oils usually contain 1% by weight or more of asphaltene. Also, asphaltene extracted from these heavy oils can be used. In the present invention, as the raw material oil, these may be used alone or in combination of two or more.

The asphaltene means a heptane-insoluble matter extracted from heavy oil by solvent extraction. When the content of asphaltene in the heavy oil is less than 1% by weight, the effect of reducing coke generation due to coagulation relaxation of asphaltene, which is the object of the present invention, is not sufficiently exhibited. In the present invention, when the cracking treatment for lightening these heavy oils is performed, the asphaltene coagulation relaxation treatment is performed before the cracking treatment. In the present invention, as the aggregation relaxation treatment, heat treatment at a temperature of 150 to 350 ° C., addition of a relaxation agent, or a combination thereof is used. By such a treatment, aggregation of asphaltene can be mitigated in the cracking treatment of heavy oil, and as a result, generation of coke is suppressed.

In the relaxation treatment by heat treatment, if the heat treatment temperature is in the temperature range of 150 to 350 ° C., the asphaltene coagulation relaxation effect is sufficiently exerted, and the decomposition of heavy oil and the formation of coke by the polymerization reaction are caused. It can be efficiently suppressed. From the above points, the preferable heat treatment temperature in the present invention is in the range of 200 to 350 ° C., and particularly 250
The range of ˜330 ° C. is preferable. Further, the pressure at that time is not particularly limited and may be autogenous pressure, but may be pressurized by introducing an inert gas such as nitrogen gas. In this case, the pressure is usually 0.1 to 200 MPa, preferably 1 to 20 MP
It is selected within the range of a. The treatment time depends on the treatment temperature and the like and cannot be determined in a general manner, but usually 10
About 120 minutes is sufficient. In this heat treatment, stirring with a rotating blade and ultrasonic irradiation can be used together to further enhance the effect of alleviating the asphaltene aggregation.

In the present invention, the asphaltene coagulation relaxation can be carried out by using a relaxation agent. As such a relaxing agent, various organic solvents such as aromatic solvents, polar solvents and hydrogen transfer solvents can be used. Examples of the aromatic solvent include 1-methylnaphthalene and toluene, examples of the polar solvent include quinoline and N-methylpyrrolidone, and examples of the hydrogen transfer solvent include decalin and tetralin. You can These solvents may be used alone or in combination of two or more.

The amount of the easing agent used is preferably in the range of 0.1 to 10 times the weight of asphaltene in the heavy oil, and is appropriately selected according to the molecular structure of the asphaltene. The relaxation agent penetrates into the asphaltene cohesive structure,
Although the relaxation effect is exhibited, if the amount is within the above range, the aggregation relaxation effect is sufficiently exhibited, which is economically advantageous. The more preferable amount of this coagulant relaxation agent is 0.5 to 5 times the weight of asphaltene. In the present invention, the emollient is preferably added before the heavy oil is decomposed, but is not particularly limited. Further, in the present invention, in the presence of the relaxing agent, the temperature is 150 to 350 ° C.
It is preferable to perform the heat treatment in order to further enhance the asphaltene coagulation relaxation effect.

In the heavy oil decomposing process of the present invention, the heavy oil is preliminarily heat-treated in this way, or a emollient is added thereto, and if necessary, the heat treatment is carried out in the presence of the emollient to agglomerate asphaltene. After the treatment to alleviate, it is decomposed to make it lighter. The cracking method is not particularly limited, a method conventionally used for cracking heavy oil,
For example, a thermal cracking process such as a visbreaking method or a caulking method, a catalytic cracking process such as fluid catalytic cracking, a partial hydrocracking process or a hydrocracking process can be used.
Heavy oil is lightened by these cracking treatments, and light oil can be efficiently obtained.

[0013]

EXAMPLES The present invention will now be described in more detail with reference to examples, but the present invention is not limited to these examples. The coke yield in each example was measured according to the method described below. <Coke Yield Measuring Method> Of the reaction products, toluene-insoluble matter was used as coke, and the coke yield was calculated by the following formula. Coke yield (%) = [coke weight (g) / weight of heavy oil of raw material (g)] × 100 As heavy oil A of raw material, asphaltene extracted from vacuum distillation residual oil was used.

Example 1 In an autoclave, 2.0 g of heavy oil A was charged, nitrogen gas was introduced, pressure 5.0 MPa, temperature 300.
The relaxation treatment was performed by heating for 60 minutes under the condition of ° C. After that, 1 at the reaction temperature of 440 ° C. and the pressure of 0.7 MPa.
After performing a thermal decomposition reaction for minutes, the coke yield was obtained. The results are shown in Table 1. Comparative Example 1 The coke yield was determined by the same procedure as in Example 1 except that the heat treatment was not performed. The results are shown in Table 1.

Example 2 In an autoclave, 2.0 g of heavy oil A and 8.0 g of decalin were charged, nitrogen gas was introduced, and the pressure was adjusted to 5.0 M.
Under the conditions of Pa and temperature of 300 ° C., heating was performed for 60 minutes to perform relaxation treatment. After that, reaction temperature 440 ℃, pressure 7.0M
After performing the thermal decomposition reaction for 1 minute under the condition of Pa, the coke yield was obtained. The results are shown in Table 1. Example 3 The procedure of Example 2 was repeated except that the heat treatment was not performed, and the coke yield was determined. The results are shown in Table 1.

Example 4 In an autoclave, 2.0 g of heavy oil A and 8.0 g of quinoline were charged, nitrogen gas was introduced, and the pressure was adjusted to 5.0 M.
Under the conditions of Pa and temperature of 300 ° C., heating was performed for 60 minutes to perform relaxation treatment. After that, reaction temperature 440 ℃, pressure 7.0M
After performing the thermal decomposition reaction for 1 minute under the condition of Pa, the coke yield was obtained. The results are shown in Table 1. Example 5 Example 4 was repeated except that the heat treatment was not performed, and the coke yield was obtained. The results are shown in Table 1.

[0017]

[Table 1]

[0018]

INDUSTRIAL APPLICABILITY According to the present invention, in cracking treatment of heavy oil such as thermal cracking, catalytic cracking and hydrocracking, the heavy oil is preheated and / or a emollient is added. As a result, the production of coke in the cracking process can be suppressed, the yield of light oil can be improved, and the energy consumption can be reduced.

   ─────────────────────────────────────────────────── ─── Continued front page    (72) Inventor Takami Tokiko             1-chome, Higashi 1-1-chome, Tsukuba City, Ibaraki Prefecture             AIST, Tsukuba Center             Within F-term (reference) 4H029 AA11 AD10 AD11 AD14 BA11                       DA02 DA03 DA06 DA12 DA14

Claims (7)

[Claims] 1. A method for decomposing a heavy oil, which comprises heating the heavy oil in advance at a temperature of 150 to 350 ° C. before decomposing the heavy oil to lighten it. 2. The heat treatment in the presence of a relaxation agent.
A method for decomposing heavy oil as described. 3. A method for decomposing heavy oil, which comprises adding a relaxation treatment agent in advance when decomposing the heavy oil to lighten it. 4. The relaxation agent is an organic solvent as claimed in claim 2 or 3.
The method for decomposing heavy oil as described in. 5. The method for decomposing heavy oil according to claim 4, wherein the organic solvent is at least one selected from an aromatic solvent, a polar solvent and a hydrogen transfer solvent. 6. The emollient is used in a range of 0.1 to 10 times the weight of the asphaltene in the heavy oil.
The method for decomposing heavy oil according to any one of 1. 7. The method for cracking heavy oil according to claim 1, wherein aggregation of asphaltene in the cracking treatment of heavy oil is alleviated.