JP5398681B2 - Heavy oil composition and method for producing the same - Google Patents

Description

  The present invention relates to a heavy oil composition and a method for producing the same.

Conventionally, a heavy oil composition has been used as a fuel oil for various uses in various industrial fields. According to JIS K2205, 1 type (A heavy oil), 2 types (B heavy oil), and 3 types (C Heavy oil).
Among these heavy oil compositions, A heavy oil is generally used as fuel oil for heating equipment for house warming cultivation and buildings, etc., and B heavy oil and C heavy oil are fuel oils for large diesel engines for ships. It is used as fuel oil for large-scale boilers in factories, power plants, district heating and cooling systems.

  As described above, since the C heavy oil and the A heavy oil have different viscosities, the blending of the base materials is also different. That is, A heavy oil and C heavy oil are both formed by blending various heavy and viscous residual oils obtained in the petroleum refining process and a relatively light light oil base material. Whereas the residual oil is blended in a certain proportion with respect to the light oil base material, C heavy oil is composed of a slight proportion of the light oil base material as a cutter material with respect to the residual oil. And its viscosity is higher than that of A heavy oil.

  In addition, the residual oil may contain the catalyst used during oil refining, and during use, fuel injection pumps, piston rings, cylinder liners, etc. may wear out. Standard ISO 8217 stipulates that the total amount of aluminum and silicon should be 80 mg / kg or less (the total amount of catalyst fine particles is equivalent to about 160 mg / kg) in heavy oil compositions corresponding to JIS heavy oil class 3 (C heavy oil). For this reason, when C heavy oil is used, the catalyst is separated in advance by a centrifugal oil purifier or the like. In this case, since it is necessary to lower the viscosity during the separation process in the cleaner, the C heavy oil is supplied to the boiler or the like after the catalyst is removed, usually after being heated to around 100 ° C. Has been.

  However, when C heavy oil is supplied to a boiler that operates in a batch, a boiler immediately after operation, etc., it takes time until the C heavy oil is sufficiently heated. In this case, if the circulation is continued for a long time in a heated state, the heavy fraction in the fuel oil may be polymerized to generate sludge.

As a heavy oil composition for suppressing the generation of sludge, for example, as a sludge dispersant, a polymer having> C = N ⁺ <bond in the molecule, a long-chain alkyl phosphate ester and / or an alkyl sulfosuccinate ester A heavy oil composition to which a mixture of the above is added has been reported (see Patent Document 1 (Japanese Patent Laid-Open No. 5-331470)).

  However, the heavy oil composition described in Patent Document 1 is uneconomical because it is purposely added with a sludge dispersant, and also from the viewpoint of efficiency in producing C heavy oil, even if it does not contain a sludge dispersant. There has been a demand for a heavy oil composition capable of suppressing the generation of sludge.

  On the other hand, in recent years, from the viewpoint of reducing environmental burden and suppressing flue corrosion, the reduction of sulfur in residual oil that is a heavy oil base material has been studied, and a heavy oil composition using such a low sulfur base material. Things are being sought.

JP-A-5-331470

  Under such circumstances, the present invention has a first object to provide a low-sulfurized heavy oil composition capable of suppressing the generation of sludge without containing a sludge dispersant. A second object is to provide a method for easily producing a composition.

  In order to solve the above technical problem, the present inventors diligently studied and surprisingly found that when directly desulfurized heavy oil is used as a heavy oil base material, it is easy to generate sludge, and further, specific direct desulfurization is performed. It is found that the first object can be achieved by a heavy oil composition containing a desired amount of heavy oil and a desired amount of a specific slurry oil and a specific high-viscosity mixed base material, respectively, the direct desulfurized heavy oil, It was found that the second object can be achieved by mixing a predetermined amount of slurry oil and a high-viscosity mixed base material to produce a heavy oil composition, and the present invention was completed based on these findings. It has come to be.

That is, the present invention
(1) (A) Sulfur content 0.05 to 0.4 mass%, residual carbon content 2 to 6 mass%, actual sediment content 0.01 to 1 mass%, asphaltene content 4 mass% or less in, together with the density comprises 65 to 98 volume% of the direct desulfurization of heavy oil is 0.916 ~0.931g / cm ³ at 15 ° C.,
(B) 1 to 25% by volume of slurry oil having a sulfur content of 0.3 to 0.8% by mass and a residual carbon content of 5.5% by mass or less;
(C) A heavy oil composition comprising 1 to 10% by volume of a mixture of heavy oil base materials other than directly desulfurized heavy oil and slurry oil, the kinematic viscosity at 50 ° C. adjusted to 380 to 1620 mm ² / s. object,
(2) A method for producing a heavy oil composition,
(A) Sulfur content 0.05 to 0.4 mass%, residual carbon content 2 to 6 mass%, actual sediment content 0.01 to 1 mass%, asphaltene content 4 mass% or less, 15 65 to 98% by volume of direct desulfurized heavy oil having a density at 0.9 ° C. of 0.916 to 0.931 g / cm ³ ,
(B) 1 to 25% by volume of slurry oil having a sulfur content of 0.3 to 0.8% by mass and a residual carbon content of 5.5% by mass or less;
(C) A heavy oil composition comprising kneading viscosity at 50 ° C. adjusted to 380 to 1620 mm ² / s, and 1 to 10% by volume of a mixture of heavy oil base materials other than directly desulfurized heavy oil and slurry oil. The manufacturing method of this is provided.

  ADVANTAGE OF THE INVENTION According to this invention, while providing the low-sulfurized heavy oil composition which can suppress generation | occurrence | production of sludge even if it does not contain a sludge dispersing agent, the method of manufacturing this heavy oil composition simply Can be provided.

First, the heavy oil composition of the present invention will be described.
The heavy oil composition of the present invention comprises:
(A) Sulfur content 0.05 to 0.4 mass%, residual carbon content 2 to 6 mass%, actual sediment content 0.01 to 1 mass%, asphaltene content 4 mass% or less, 15 Containing 65-98% by volume of direct desulfurized heavy oil having a density at 0.9 ° C. of 0.916 to 0.931 g / cm ³ ;
(B) 1 to 25% by volume of slurry oil having a sulfur content of 0.3 to 0.8% by mass and a residual carbon content of 5.5% by mass or less;
(C) The kinematic viscosity at 50 ° C. is adjusted to 380 to 1620 mm ² / s, and comprises 1 to 10% by volume of a mixture of heavy oil base materials other than directly desulfurized heavy oil and slurry oil. is there.

In the heavy oil composition of the present invention, (A) direct desulfurized heavy oil has a sulfur content of 0.05 to 0.4% by mass, a residual carbon content of 2 to 6% by mass, and an actual sediment content of 0.01 to 1. The asphaltene content is 4% by mass or less, and the density at 15 ° C. is 0.916 to 0.931 g / cm ³ .

  The direct desulfurized heavy oil (A) constituting the heavy oil composition of the present invention is a heavy fraction obtained by hydrodesulfurizing an atmospheric distillation residue, a vacuum distillation residue or a mixture thereof.

In the heavy oil composition of the present invention, (A) the direct desulfurized heavy oil contains 0.05 to 0.4% by mass of sulfur, and preferably contains 0.05 to 0.35% by mass.
(A) When the sulfur content in the direct desulfurized heavy oil is within the above range, the heavy oil composition can be produced efficiently and economically, and it is discharged when burned in an industrial furnace or boiler. The amount of SOx can be suppressed, the environmental load can be reduced, and the occurrence of flue corrosion can be suppressed.
In addition, in this application document, the said sulfur content means the value measured according to JISK2541.

In the heavy oil composition of the present invention, (A) direct desulfurized heavy oil contains 2 to 6% by mass of residual carbon, preferably 2 to 5.8% by mass, and preferably 2 to 5.5% by mass. More preferably.
(A) When the residual carbon content in the direct desulfurized heavy oil is within the above range, the amount of soot discharged during combustion in an industrial furnace or boiler can be reduced.
In the present application documents, the residual carbon content means a value measured according to JIS K2270.

In the heavy oil composition of the present invention, the ash content of (A) direct desulfurized heavy oil is preferably 0.5% by mass or less, and more preferably 0.4% by mass or less.
In the heavy oil composition of the present invention, (A) the amount of soot discharged during combustion in an industrial furnace, boiler, etc. is reduced when the residual carbon content of direct desulfurized heavy oil is within the above range and the ash content is within the above range. Further reduction can be achieved.
In the present application document, the ash content means a value measured according to JIS K2272.

In the heavy oil composition of the present invention, (A) the actual sediment amount in the direct desulfurized heavy oil is 0.01 to 1% by mass, preferably 0.01 to 0.9% by mass, preferably 0.01 to 0%. More preferably, it is 8 mass%, and it is still more preferable that it is 0.01-0.7 mass%.
In the heavy oil composition of the present invention, (A) the actual sediment amount in the direct desulfurized heavy oil is within the above range, so that the heavy oil composition of the present invention is heated or stored at a high temperature or has a long-term heat history. Even if it comes to have this, the amount of sludge to produce | generate can be suppressed.
In the present application document, the above-mentioned actual segment means a value measured according to the IP375 method.

In the heavy oil composition of the present invention, the amount of asphaltenes in (A) direct desulfurized heavy oil is 4% by mass or less, preferably 3.9% by mass or less, and more preferably 3.5% by mass or less. .
In the heavy oil composition of the present invention, (A) the amount of asphaltenes in the direct desulfurized heavy oil is 4% by mass or less, so that the amount of sludge accumulated when used in an industrial furnace or boiler can be suppressed.
In addition, in this application document, the said amount of asphaltenes means the value measured according to JPI-5S-22-83.

In the heavy oil composition of the present invention, the nitrogen content in the (A) direct desulfurized heavy oil is preferably 0.20% by mass or less, and more preferably 0.15% by mass or less.
In the heavy oil composition of the present invention, (A) the nitrogen content in the direct desulfurized heavy oil is within the above range, so that the amount of NOx discharged when combusted in an industrial furnace or boiler can be reduced. Can be reduced.
In the present application documents, the nitrogen content means a value measured according to JIS K2609.

In the heavy oil composition of the present invention, the water content of (A) direct desulfurized heavy oil is preferably 0.5% by mass or less, and more preferably 0.4% by mass or less.
In the heavy oil composition of the present invention, the moisture content of (A) direct desulfurized heavy oil is 0.5% by mass or less, thereby suppressing non-uniformity of combustion and misfire when used in an industrial furnace or boiler. In addition, metal corrosion and filter clogging in winter can be suppressed.
In addition, in this application document, the said water | moisture content means the value measured according to JISK2275.

In the heavy oil composition of the present invention, the density of (A) directly desulfurized heavy oil at 15 ° C. is 0.916 to 0.931 g / cm ³ , and preferably 0.919 to 0.928 g / cm ³ .
In the heavy oil composition of the present invention, (A) the direct desulfurized heavy oil has a density at 15 ° C. within the above range, so that a sufficient calorific value per volume can be given to the heavy oil composition, such as an industrial furnace or boiler. It is possible to suppress the non-uniformity of combustion and misfires during use.
In the application documents, the density at 15 ° C. means a value measured according to JIS K2249.

In the heavy oil composition of the present invention, (A) the directly desulfurized heavy oil has a kinematic viscosity at 50 ° C. of preferably 100 to 300 mm ² / s, and more preferably 110 to 280 mm ² / s.
In the heavy oil composition of the present invention, (A) the kinematic viscosity at 50 ° C. of the directly desulfurized heavy oil is within the above range, so that the heavy oil composition can be stably supplied to an industrial furnace, a boiler, etc. It is possible to suppress non-uniform combustion and misfire when using heavy oil.
In the present application documents, the kinematic viscosity at 50 ° C. means a value measured according to JIS K2283.

In the heavy oil composition of the present invention, the flash point of (A) direct desulfurized heavy oil is preferably 90 ° C. or higher, and more preferably 120 ° C. or higher.
In the heavy oil composition of the present invention, when the flash point of (A) direct desulfurized heavy oil is 90 ° C. or higher, the heavy oil composition can be easily handled.
In the present application documents, the flash point means a value measured according to JIS K2265.

In the heavy oil composition of the present invention, the pour point of (A) direct desulfurized heavy oil is preferably 15 ° C. or lower, more preferably 10 ° C. or lower.
In the heavy oil composition of the present invention, (A) the direct desulfurized heavy oil has a pour point of 15 ° C. or lower, so that the fluidity of the heavy oil composition in winter can be secured and the heavy oil composition can be stably supplied. .
In the present application document, the pour point means a value measured according to JIS K2269.

In the heavy oil composition of the present invention, the reaction of (A) direct desulfurized heavy oil is preferably neutral.
In the heavy oil composition of the present invention, (A) the reaction of the direct desulfurized heavy oil is neutral, so that excellent storage stability can be exhibited in fuel tanks, fuel pipes and the like.
In the present application document, the above reaction means a value measured according to JIS K2252.

The heavy oil composition of the present invention contains 65 to 98% by volume, and preferably 70 to 95% by volume of (A) direct desulfurized heavy oil.
In the heavy oil composition of the present invention, when the content ratio of (A) the direct desulfurized heavy oil is within the above range, the actual amount of sediment in the heavy oil composition can be suppressed to a desired range, and the sulfur in the heavy oil composition Minutes can be suppressed to a desired range.

  In the heavy oil composition of the present invention, the (B) slurry oil has a sulfur content of 0.3 to 0.8 mass% and a residual carbon content of 5.5 mass% or less.

  The slurry oil constituting the heavy oil composition of the present invention is a fraction or residual oil having a boiling point of about 230 to 600 ° C., which is produced from a fluid catalytic cracking apparatus or a residual oil fluid catalytic cracking apparatus.

In the heavy oil composition of the present invention, the sulfur content of the slurry oil (B) is 0.3 to 0.8% by mass, and preferably 0.3 to 0.7% by mass.
In the heavy oil composition of the present invention, the sulfur content of the slurry oil (B) is within the above range, so that the heavy oil composition can be produced efficiently and economically, and in an industrial furnace or boiler. It is possible to reduce the amount of SOx discharged when burned, reduce the environmental load, and suppress flue corrosion.
In addition, in this application document, the said sulfur content means the value measured according to JISK2541.

In the heavy oil composition of the present invention, the residual carbon content of the slurry oil (B) is 5.5% by mass or less, preferably 5.4% by mass or less, and preferably 5.3% by mass or less. More preferably, the content is 0.01 to 5.3% by mass.
In the heavy oil composition of the present invention, the residual carbon content of the slurry oil (B) is 5.5% by mass or less, thereby reducing the amount of smoke emitted when the heavy oil composition is burned in an industrial furnace or a boiler. can do.
In the present application documents, the residual carbon content means a value measured according to JIS K2270.

In the heavy oil composition of the present invention, the ash content of the slurry oil (B) is preferably 0.5% by mass or less, and more preferably 0.4% by mass or less.
In the heavy oil composition of the present invention, when (B) the residual carbon content of the slurry oil is within the above range and the ash content is 0.5% by mass or less, the heavy oil composition is burned in an industrial furnace or a boiler. It is possible to further reduce the amount of smoke emitted.
In the present application document, the ash content means a value measured according to JIS K2272.

In the heavy oil composition of the present invention, the actual amount of (B) slurry oil is preferably 0 to 0.05 mass%, more preferably 0 to 0.03 mass%, and more preferably 0 to 0.01. More preferably, it is mass%.
In the heavy oil composition of the present invention, (B) the actual sediment amount of the slurry oil is within the above range, so that the heavy oil composition of the present invention has a heat history over a long period of time when heated or stored at a high temperature. Even in such a case, the amount of sludge to be generated can be suppressed.
In the present application document, the above-mentioned actual segment means a value measured according to the IP375 method.

In the heavy oil composition of the present invention, the amount of asphaltene in the slurry oil (B) is preferably 5.0% by mass or less, more preferably 3.0% by mass or less, and 1.0% by mass or less. More preferably.
In the heavy oil composition of the present invention, when the amount of asphaltenes in the slurry oil (B) is 5.0% by mass or less, the amount of sludge accumulation when used in an industrial furnace or a boiler can be suppressed.
In addition, in this application document, the said amount of asphaltenes means the value measured according to JPI-5S-22-83.

In the heavy oil composition of the present invention, the nitrogen content of the slurry oil (B) is preferably 0.5% by mass or less, and more preferably 0.4% by mass or less.
In the heavy oil composition of the present invention, (B) the amount of NOx discharged when the heavy oil composition is burned in an industrial furnace, boiler or the like is reduced by the nitrogen content of the slurry oil being 0.5% by mass or less. Environmental load can be reduced.
In the present application documents, the nitrogen content means a value measured according to JIS K2609.

In the heavy oil composition of the present invention, the water content of the (B) slurry oil is preferably 1% by mass or less, and more preferably 0.5% by mass or less.
In the heavy oil composition of the present invention, (B) the water content of the slurry oil is 1% by mass or less, thereby suppressing non-uniform combustion and misfire when the heavy oil composition is used in an industrial furnace or boiler. In addition, metal corrosion and winter filter clogging can be suppressed.
In addition, in this application document, the said water | moisture content means the value measured according to JISK2275.

In fuel oil compositions of the present invention, is the density at 15 ℃ of (B) the slurry oil is preferably 0.98~1.10g / cm ^3, a 0.98~1.05g / cm ³ More preferably, it is 0.985 to 1.05 g / cm ³ .
In the heavy oil composition of the present invention, when the density of (B) slurry oil at 15 ° C. is within the above range, a sufficient calorific value per volume can be imparted to the heavy oil composition, such as an industrial furnace or boiler. It is possible to suppress non-uniform combustion, misfire, etc. during use in
In the application documents, the density at 15 ° C. means a value measured according to JIS K2249.

In fuel oil compositions of the present invention, kinematic viscosity at 50 ° C. of (B) the slurry oil is preferably 20~120mm ² / s, more preferably 20~110mm ² / s.
In the heavy oil composition of the present invention, (B) the kinematic viscosity at 50 ° C. of the slurry oil is within the above range, so that the heavy oil composition can be stably supplied to industrial furnaces, boilers and the like. In addition, non-uniform combustion and misfire can be suppressed.
In the present application documents, the kinematic viscosity at 50 ° C. means a value measured according to JIS K2283.

  The heavy oil composition of the present invention contains (B) slurry oil having a density at 15 ° C. and a kinematic viscosity at 50 ° C. within the above ranges, so that the heavy oil composition contains a desired amount of aromatics and the like. For this reason, it is considered that the actual amount of sediment in the heavy oil composition can be controlled within a desired range to suppress the generation of sludge.

In the heavy oil composition of the present invention, the flash point of the slurry oil (B) is preferably 60 ° C. or higher, and more preferably 65 ° C. or higher.
In the heavy oil composition of the present invention, when the flash point of the slurry oil (B) is 60 ° C. or lower, handling of the heavy oil composition becomes easy.
In the present application documents, the flash point means a value measured according to JIS K2265.

In the heavy oil composition of the present invention, the pour point of (B) slurry oil is preferably 10 ° C. or less, and more preferably 7.5 ° C. or less.
In the heavy oil composition of the present invention, (B) the pour point of the slurry oil is 10 ° C. or less, so that the fluidity of the heavy oil composition in winter can be secured and the heavy oil composition can be stably supplied. Become.
In the present application document, the pour point means a value measured according to JIS K2269.

In the heavy oil composition of the present invention, the reaction of (B) slurry oil is preferably neutral.
In the heavy oil composition of the present invention, (B) the reaction of the slurry oil is neutral, whereby the heavy oil composition can exhibit excellent storage stability in the fuel tank and the fuel pipe.
In the present application document, the above reaction means a value measured according to JIS K2252.

The heavy oil composition of the present invention contains (B) 1-25 vol.%, Preferably 2-20 vol.% Of slurry oil.
In the heavy oil composition of the present invention, when the content ratio of (B) slurry oil is within the above range, the heavy oil composition of the present invention has a heat history over a long period of time when heated or stored at a high temperature. Even in this case, the amount of sludge to be generated can be suppressed and the amount of residual catalyst contained in the slurry oil can be suppressed.

The mixture of (C) heavy oil base material constituting the heavy oil composition of the present invention is prepared by mixing a heavy oil base material other than directly desulfurized heavy oil and slurry oil, and the kinematic viscosity at 50 ° C. is adjusted to 380 to 1620 mm ² / s. It has been done.

  In the heavy oil composition of the present invention, (C) the heavy oil base material other than the direct desulfurized heavy oil and the slurry oil constituting the mixture of the heavy oil base material includes atmospheric distillation residual oil, straight-run gas oil, vacuum distillation residual oil, reduced pressure Two or more kinds selected from light oil, solvent extraction oil, desulfurized vacuum light oil, catalytic cracking light oil, and direct desulfurized light oil can be mentioned.

The atmospheric distillation residue is a residual oil when crude oil is subjected to atmospheric distillation to distill LPG, naphtha, kerosene, and straight-run gas oil.
The vacuum distillation residual oil is a residual oil when the atmospheric distillation residual oil is further distilled under reduced pressure to distill the vacuum gas oil.
Further, the above-mentioned vacuum distillation residue contains a heavy fraction suitable for a high viscosity lubricating oil and an asphalt fraction, and the heavy fraction suitable for the lubricating oil is a solvent extraction oil.
The desulfurized vacuum gas oil is a general term for light desulfurized vacuum gas oil and heavy desulfurized vacuum gas oil, and the light desulfurized vacuum gas oil is a light one of the light oil fractions obtained by indirect desulfurization of the vacuum gas oil. The heavy desulfurized vacuum gas oil is a heavy gas oil fraction obtained by indirectly desulfurizing the vacuum gas oil.
Catalytic cracking gas oil is a 150-380 degreeC fraction produced | generated from a fluid catalytic cracking apparatus or a residual oil fluid catalytic cracking apparatus.
Direct desulfurized gas oil is a light fraction obtained by hydrodesulfurizing the above atmospheric distillation residue, vacuum distillation residue or a mixture thereof.

In the heavy oil composition of the present invention, the (C) heavy oil base mixture preferably has a sulfur content of 2.0 to 5.0 mass%, and preferably 2.0 to 4.5 mass%. More preferred.
In the heavy oil composition of the present invention, when the sulfur content of the mixture of the heavy oil base material (C) is within the above range, the heavy oil composition can be produced efficiently and economically, such as in an industrial furnace or boiler. It is possible to reduce the amount of SOx discharged when burned, reduce the environmental load, and suppress flue corrosion.
In addition, in this application document, the said sulfur content means the value measured according to JISK2541.

In the heavy oil composition of the present invention, the (C) heavy oil base mixture preferably has a residual carbon content of 18.0% by mass or less, more preferably 17.5% by mass or less, and 17.0%. More preferably, it is at most mass%.
In the heavy oil composition of the present invention, when the residual carbon content of the mixture of the heavy oil base material (C) is 18.0% by mass or less, soot discharged when the heavy oil composition is burned in an industrial furnace, a boiler, or the like The amount can be reduced.
In the present application documents, the residual carbon content is a value measured according to JIS K2270, and the ash content is a value measured according to JIS K2272.

In the heavy oil composition of the present invention, the (C) heavy oil base mixture preferably has an ash content of 0.5% by mass or less, and more preferably 0.4% by mass or less.
In the heavy oil composition of the present invention, the residual carbon content of the (C) heavy oil base material mixture is 18.0% by mass or less, and the ash content is 0.5% by mass or less. It is possible to further reduce the amount of smoke emitted when combusting with a boiler or the like.
In the present application document, the ash content means a value measured according to JIS K2272.

In the heavy oil composition of the present invention, (C) the mixture of the heavy oil base material has an actual sediment of preferably 0.05% by mass or less, more preferably 0.04% by mass or less, and 0.03%. More preferably, it is at most mass%.
In the heavy oil composition of the present invention, when (C) the actual sediment of the mixture of heavy oil base is 0.05% by mass or less, the heavy oil composition of the present invention is heated or stored at a high temperature or for a long time. Even when the thermal history is extended, the amount of sludge to be generated can be suppressed.
In the present application document, the above-mentioned actual segment means a value measured according to the IP375 method.

In the heavy oil composition of the present invention, the amount of asphaltene in the (C) heavy oil base mixture is preferably 10% by mass or less, more preferably 9% by mass or less, and 8% by mass or less. Is more preferable.
In the heavy oil composition of the present invention, (C) the amount of asphaltene in the heavy oil base material mixture is 10% by mass or less, thereby suppressing the amount of sludge accumulation when the heavy oil composition is used in an industrial furnace, a boiler, or the like. Can do.
In addition, in this application document, the said amount of asphaltenes means the value measured according to JPI-5S-22-83.

In the heavy oil composition of the present invention, the (C) heavy oil base material mixture preferably has a nitrogen content of 0.5% by mass or less, and more preferably 0.4% by mass or less.
In the heavy oil composition of the present invention, the amount of NOx discharged when combusted in an industrial furnace or boiler is reduced by the nitrogen content of the (C) heavy oil base material mixture being 0.5% by mass or less. , Environmental load can be reduced.
In the application documents, the nitrogen content means a value measured according to JIS K2609.

In the heavy oil composition of the present invention, the (C) heavy oil base mixture preferably has a moisture content of 0.5% by mass or less, more preferably 0.4% by mass or less.
In the heavy oil composition of the present invention, when the water content of the (C) heavy oil base material mixture is 0.5% by mass or less, nonuniform combustion and misfire when the heavy oil composition is used in an industrial furnace, a boiler, or the like. It is possible to suppress metal corrosion and filter clogging in winter.
In addition, in this application document, the said water | moisture content means the value measured according to JISK2275.

In fuel oil compositions of the present invention, (C) a mixture of heavy oil base is a kinematic viscosity at 50 ° C. is 380~1620mm ² / s, is preferably 380~1600mm ² / s, 380~1580mm ² / It is more preferable that it is s, and it is further more preferable that it is 380-1560mm < ² > / s.
In the heavy oil composition of the present invention, when the kinematic viscosity at 50 ° C. of the mixture of the heavy oil base material (C) is within the above range, the heavy oil composition can be stably supplied to an industrial furnace, a boiler, etc. Non-uniform combustion and misfires can be suppressed.
In the present application documents, the kinematic viscosity at 50 ° C. means a value measured according to JIS K2283.

In the heavy oil composition of the present invention, the (C) heavy oil base material mixture preferably has a density at 15 ° C. of 0.97 to 1.03 g / cm ³ , and 0.97 to 1.01 g / cm ^3. It is more preferable that
In the heavy oil composition of the present invention, when the density at 15 ° C. of the mixture of the heavy oil composition (C) is within the above range, a sufficient calorific value per volume can be imparted to the heavy oil composition, When used in an industrial furnace, boiler, etc., it is possible to suppress non-uniform combustion and misfires.
In the application documents, the density at 15 ° C. means a value measured according to JIS K2249.

In the heavy oil composition of the present invention, the (C) heavy oil base mixture preferably has a flash point of 75 ° C. or higher, and more preferably 80 ° C. or higher.
In the heavy oil composition of the present invention, when the flash point of the mixture of the (C) heavy oil base material is 75 ° C. or higher, the heavy oil composition can be easily handled.
In the present application documents, the flash point means a value measured according to JIS K2265.

In the heavy oil composition of the present invention, the mixture of the (C) heavy oil base material preferably has a pour point of 7.5 ° C. or lower, and more preferably 5.0 ° C. or lower.
In the heavy oil composition of the present invention, when the pour point of the mixture of the heavy oil base material (C) is 7.5 ° C. or less, the fluidity of the heavy oil composition in winter can be secured, and the heavy oil composition is stabilized. Can be supplied.
In the present application document, the pour point means a value measured according to JIS K2269.

In the heavy oil composition of the present invention, it is preferable that the mixture of the (C) heavy oil base material has a neutral reaction.
In the heavy oil composition of the present invention, the reaction of the mixture of the heavy oil base material (C) is neutral, whereby the heavy oil composition can exhibit excellent storage stability in the fuel tank and the fuel pipe.
In the present application document, the above reaction means a value measured according to JIS K2252.

In the heavy oil composition of the present invention, the mixture of (C) heavy oil base is, for example, the above atmospheric distillation residue, straight-run gas oil, vacuum distillation residue, vacuum gas oil, solvent extraction oil, desulfurized vacuum gas oil, cracked gas oil, Two or more kinds selected from direct desulfurized light oil can be adjusted by appropriately blending so that the kinematic viscosity at 50 ° C. is 380 to 1620 mm ² / s.

In the heavy oil composition of the present invention, the mixture of (C) heavy oil base material is contained in an amount of 1 to 10% by volume, preferably 1.5 to 10% by volume.
In the heavy oil composition of the present invention, when the content ratio of the mixture of the heavy oil base material (C) is within the above range, the actual sediment amount in the heavy oil composition can be suppressed, and the sulfur content in the heavy oil composition can be suppressed. The amount of SOx can be controlled within a desired range, so that the amount of SOx in the combustion gas can be reduced, the environmental load can be reduced, and flue corrosion can be suppressed.

The heavy oil composition of the present invention preferably has a sulfur content of 0.05 to 0.5 mass%, more preferably 0.05 to 0.45 mass%.
In the heavy oil composition of the present invention, when the sulfur content is within the above range, the sulfur content is effectively controlled, the amount of SOx discharged when used in an industrial furnace or boiler is suppressed, and the environmental load is reduced. And flue corrosion can be suppressed.
In the present application documents, the sulfur content means a value measured according to JIS K2541.

The heavy oil composition of the present invention preferably has a residual carbon content of 1 to 6% by mass, more preferably 1 to 5.9% by mass, and even more preferably 1 to 5.8% by mass. .
In the heavy oil composition of the present invention, when the residual carbon content is within the above range, the amount of smoke emitted when burned in an industrial furnace, a boiler, or the like can be reduced.
In addition, in this application document, the said residual carbon content means the value measured by the method based on JISK2270.

The heavy oil composition of the present invention preferably has an ash content of 0.5% by mass or less, and more preferably 0.4% by mass or less.
In the heavy oil composition of the present invention, when the residual carbon content in the heavy oil composition is within the above range and the ash content is 0.5% by mass or less, the heavy oil composition is combusted in an industrial furnace or a boiler. The amount of smoke discharged can be further reduced.
In addition, in this application document, the said ash content means the value measured by the method based on JISK2272.

In the heavy oil composition of the present invention, the actual sediment is preferably 0.1% by mass or less, more preferably 0.09% by mass or less, and further preferably 0.01 to 0.08% by mass. Preferably, it is 0.01-0.07 mass%.
In the heavy oil composition of the present invention, since the actual sediment is within the above range, the generation of sludge can be suppressed even if the heavy oil composition has been heated for a long time.
In the present application document, the above-mentioned actual segment means a value measured according to the IP375 method.

  The heavy oil composition of the present invention comprises a desired amount of a mixture of a specific (A) direct desulfurized heavy oil, (B) slurry oil, and (C) heavy oil base material. Even if the actual sediment amount brought in from heavy oil is more than 0.1% by mass of the entire heavy oil composition, (B) the actual sediment amount in the heavy oil composition is dissolved by the aromatic components constituting the slurry oil. Can be controlled within a desired range.

In the heavy oil composition of the present invention, the amount of asphaltenes is preferably 5.0% by mass or less, and more preferably 4.5% by mass or less.
In the heavy oil composition of the present invention, when the amount of asphaltenes is 5.0% by mass or less, the amount of sludge deposited when the heavy oil composition is used in an industrial furnace, a boiler, or the like can be reduced.
In addition, in this application document, the said amount of asphaltenes means the value measured according to JPI-5S-22-83.

The heavy oil composition of the present invention preferably has a nitrogen content of 0.5% by mass or less, and more preferably 0.4% by mass or less.
In the heavy oil composition of the present invention, when the nitrogen content is 0.5% by mass or less, the amount of NOx discharged when burned in an industrial furnace, a boiler or the like can be reduced, and the environmental load can be reduced.
In the application documents, the nitrogen content means a value measured according to JIS K2609.

The heavy oil composition of the present invention preferably has a water content of 1.0% by mass or less, and more preferably 0.5% by mass or less.
In the heavy oil composition of the present invention, when the water content is 1.0% by mass or less, it is possible to suppress non-uniform combustion and misfire when used in an industrial furnace, a boiler, etc. Filter clogging can be suppressed.
In the present application documents, the water content means a value measured according to JIS K2275.

The heavy oil composition of the present invention preferably has a kinematic viscosity at 50 ° C. of 80 to ²⁰⁰ mm ² / s, and more preferably 80 to 190 mm ² / s.
In the heavy oil composition of the present invention, since the kinematic viscosity at 50 ° C. is within the above range, nonuniform combustion and misfire can be suppressed, and the heavy oil composition can be supplied stably.
In the present application documents, the kinematic viscosity at 50 ° C. means a value measured according to JIS K2283.

Fuel oil composition of the present invention is preferably a density at 15 ℃ is 0.90~0.97g / cm ^3, more preferably 0.91~0.97g / cm ^3.
In the heavy oil composition of the present invention, when the density at 15 ° C. is within the above range, a sufficient calorific value per volume can be exhibited, and moisture separation during tank storage is facilitated. Moreover, misfire of an industrial furnace, a boiler, etc. can be suppressed and suitable combustibility can be exhibited.
In the application documents, the density at 15 ° C. means a value measured according to JIS K2249.

The heavy oil composition of the present invention preferably has a flash point of 100 to 180 ° C, more preferably 100 to 170 ° C.
In the heavy oil composition of the present invention, when the flash point is in the above range, the heavy oil composition can be easily handled.
In the present application documents, the flash point means a value measured according to JIS K2265.

The heavy oil composition of the present invention preferably has a pour point of 12.5 ° C. or lower, and more preferably 10 ° C. or lower.
When the pour point of the heavy oil composition is 12.5 ° C. or less, the fluidity of the heavy oil composition in winter can be secured and the heavy oil composition can be supplied stably.
In the present application document, the pour point means a value measured according to JIS K2269.

The heavy oil composition of the present invention preferably has a neutral reaction.
When the reaction of the heavy oil composition of the present invention is neutral, the heavy oil composition can exhibit excellent storage stability in a fuel tank or a fuel pipe.
In the present application, the above reaction means a value measured according to JIS K2252.

  ADVANTAGE OF THE INVENTION According to this invention, even if it does not contain a sludge dispersing agent, the low-sulfurized heavy oil composition which can suppress generation | occurrence | production of sludge can be provided.

  The heavy oil composition of this invention can be manufactured with the manufacturing method of the heavy oil composition of this invention.

The method for producing a heavy oil composition of the present invention is a method for producing a heavy oil composition,
(A) Sulfur content 0.05 to 0.4 mass%, residual carbon content 2 to 6 mass%, actual sediment content 0.01 to 1 mass%, asphaltene content 4 mass% or less, 15 65 to 98% by volume of direct desulfurized heavy oil having a density at 0.9 ° C. of 0.916 to 0.931 g / cm ³ ,
(B) 1 to 25% by volume of slurry oil having a sulfur content of 0.3 to 0.8% by mass and a residual carbon content of 5.5% by mass or less;
(C) A kinematic viscosity at 50 ° C. is adjusted to 380 to 1620 mm ² / s, and 1 to 10% by volume of a mixture of heavy oil base materials other than directly desulfurized heavy oil and slurry oil is mixed. .

  In the method for producing a heavy oil composition of the present invention, the details of the mixture of the above (A) direct desulfurized heavy oil, (B) slurry oil and (C) heavy oil base are as described above.

  In the manufacturing method of the heavy oil composition of this invention, it can prepare by mixing the mixture of the said (A) direct desulfurization heavy oil, (B) slurry oil, and (C) heavy oil base material by arbitrary methods.

  In the method for producing a heavy oil composition of the present invention, it is preferable that (A) direct desulfurized heavy oil is mixed in an amount of 65 to 98% by volume, and 70 to 95% by volume. In the method for producing a heavy oil composition of the present invention, (A) the amount of actual sediment in the obtained heavy oil composition can be suppressed to a desired range by obtaining the mixing ratio of the direct desulfurized heavy oil in the above range, and the obtained The sulfur content in the heavy oil composition can be suppressed within a desired range.

  In the manufacturing method of the heavy oil composition of this invention, it is preferable to mix (B) 1-25 volume% of slurry oil, and to mix 2-20 volume%. In the method for producing a heavy oil composition of the present invention, by setting the mixing ratio of the slurry oil (B) to the above range, the obtained heavy oil composition has a heat history over a long period of time when heated or stored at a high temperature. Even if it comes to have, while being able to suppress the amount of sludge to produce | generate, the carry-in amount to the heavy oil composition of the residual catalyst contained in slurry oil can be suppressed.

  In the manufacturing method of the heavy oil composition of this invention, it is preferable to mix 1-10 volume% of the mixture of (C) heavy oil base material, and to mix 1.5-10 volume%. In the method for producing a heavy oil composition of the present invention, by setting the mixing ratio of the mixture of the heavy oil base material (C) in the above range, the amount of actual sediment in the obtained heavy oil composition can be suppressed, and the heavy oil composition It is possible to control the amount of sulfur content in the desired range to reduce the amount of SOx in the combustion gas, reduce the environmental load, and suppress flue corrosion.

  The details of the heavy oil composition obtained by the production method of the present invention are as described above.

  ADVANTAGE OF THE INVENTION According to this invention, even if it does not contain a sludge dispersing agent, the method of manufacturing easily the low-sulfurized heavy oil composition which can suppress generation | occurrence | production of sludge can be provided.

  EXAMPLES Hereinafter, although an Example demonstrates this invention further in detail, this invention is not limited at all by this Example.

  In the following examples and comparative examples, the density at 15 ° C. is JIS K 2249, the kinematic viscosity at 50 ° C. is JIS K 2283, the sulfur content is JIS K 541, the residual carbon content is JIS K 2270, the flash point is JIS K 2265, the actual amount of sedimentation Is IP-375 method, the amount of asphaltene is JIS K-5269, the pour point is JIS K2269, the nitrogen content is JIS K2609, the ash content is JIS K2272, the water content is JIS K2275, and the reaction is JIS K2252. Measurements were performed in compliance.

In the following examples and comparative examples, the amount of precipitate was determined by the following method.
First, 20 g of each heavy oil composition was collected as a measurement sample, and the collected sample was heated in a centrifuge tube at 80 ° C. for 5 minutes, and then centrifuged at 3000 rpm for 5 minutes at 65 ° C. After centrifugation, the centrifuge tube with the sample attached was inverted and heated at 80 ° C. for 30 minutes and allowed to cool to room temperature. Thereafter, the amount (g) of the deposit was measured, and the amount of precipitate was calculated by the following formula.
Amount of precipitate (mass%) = (Amount of deposit (g) / Amount of sample collected (g)) × 100

  The heavy oil composition with the amount of sediment (mass%) of 0.6 mass% or less is evaluated as “◯” as not producing sludge that closes the cleaner, etc., and the amount of sediment exceeds 0.6 mass%. About a heavy oil composition, it evaluated as "x" as a heavy oil composition which may produce the said sludge.

(Examples 1 to 10 and Comparative Examples 1 to 5)
Direct desulfurized heavy oil (DDSP-1 to DDSP-6) having the properties shown in Table 1, slurry oil (SLO-1 to SLO-4) having properties shown in Table 2, vacuum distillation residual oil and cracked light oil Example 1 by blending at a ratio shown in Tables 4 to 6 using a mixture of heavy oil base materials (CBR-H-1 to CBR-H-3) having the properties shown in Table 3 -The heavy oil composition which concerns on Example 10 and Comparative Example 1- Comparative Example 5 was produced.
Properties of the obtained heavy oil compositions are shown in Tables 4 to 6.

From Table 4 and Table 5, the heavy oil composition of the present invention obtained in Examples 1 to 10 has (A) a sulfur content of 0.05 to 0.4 mass%, a residual carbon content of 2 to 2. 65 to 98 volumes of direct desulfurized heavy oil having a mass content of 6 mass%, an actual sediment content of 0.01 to 1 mass%, an asphaltene content of 4 mass% or less and a density at 15 ° C. of 0.916 to 0.931 g / cm ³ 1% to 25% by volume of slurry oil obtained from a fluid catalytic cracking device having a sulfur content of 0.3 to 0.8% by mass and a residual carbon content of 5.5% by mass or less, (C) The kinematic viscosity at 50 ° C. is adjusted to 380 to 1620 mm ² / s, and comprises 1 to 10% by volume of a mixture of heavy oil base materials other than directly desulfurized heavy oil and slurry oil. Even without a dispersant It turns out that the low-sulfurized heavy oil composition which can suppress generation | occurrence | production of a ludge can be provided.

  Further, from Table 6, the heavy oil compositions obtained in Comparative Examples 1 to 5 do not contain a mixture of heavy oil base materials with high viscosity (Comparative Example 1), or the sulfur content and residual carbon of the slurry oil. The content of the component is outside the range of the heavy oil composition of the present invention (Comparative Example 2 and Comparative Example 3), or the residual carbon content of the directly desulfurized heavy oil, the content of asphaltenes and the actual sediment is the heavy oil of the present invention. It turns out that it is a thing outside the range of a composition (comparative example 4 and comparative example 5), and there are many amounts of deposits and it cannot suppress the production | generation of sludge.

  ADVANTAGE OF THE INVENTION According to this invention, while providing the low-sulfurized heavy oil composition which can suppress generation | occurrence | production of sludge even if it does not contain a sludge dispersing agent, the method of manufacturing this heavy oil composition simply Can be provided.

Claims (2)

(A) Sulfur content 0.05 to 0.4 mass%, residual carbon content 2 to 6 mass%, actual sediment content 0.01 to 1 mass%, asphaltene content 4 mass% or less, 15 Containing 65-98% by volume of direct desulfurized heavy oil having a density at 0.9 ° C. of 0.916 to 0.931 g / cm ³ ;
(B) 1 to 25% by volume of slurry oil having a sulfur content of 0.3 to 0.8% by mass and a residual carbon content of 5.5% by mass or less;
(C) A heavy oil composition comprising 1 to 10% by volume of a mixture of heavy oil base materials other than directly desulfurized heavy oil and slurry oil, the kinematic viscosity at 50 ° C. adjusted to 380 to 1620 mm ² / s. object. A method for producing a heavy oil composition comprising:
(A) Sulfur content 0.05 to 0.4 mass%, residual carbon content 2 to 6 mass%, actual sediment content 0.01 to 1 mass%, asphaltene content 4 mass% or less, 15 65 to 98% by volume of direct desulfurized heavy oil having a density at 0.9 ° C. of 0.916 to 0.931 g / cm ³ ;
(B) 1 to 25% by volume of slurry oil having a sulfur content of 0.3 to 0.8% by mass and a residual carbon content of 5.5% by mass or less;
(C) A heavy oil composition comprising kneading viscosity at 50 ° C. adjusted to 380 to 1620 mm ² / s, and 1 to 10% by volume of a mixture of heavy oil base materials other than directly desulfurized heavy oil and slurry oil. Manufacturing method.