JP5053797B2 - Fuel oil composition for diesel engines - Google Patents

Description

  The present invention relates to a fuel oil composition for a diesel engine. More specifically, the present invention relates to a fuel oil composition for a diesel engine in which a fatty acid alkyl ester in which crystallization is suppressed in the fuel oil during storage at a temperature higher than the cloud point is mixed.

In recent years, in order to cope with the global warming problem, in order to reduce CO ₂ emitted from automobiles, development and introduction of new technologies for reducing CO ₂ by improving fuel consumption, such as hybrid cars, have been actively performed. Has been done. Efforts to reduce CO ₂ are being actively pursued not only in the automobile industry but also in the oil industry. In particular, the CO ₂ emission protocol, the so-called Kyoto Protocol, substitutes biomass-derived fuel for which CO ₂ emissions are zero count. It is considered to be used as. Among them, biodiesel fuel is a renewable energy source because of its superior thermal efficiency of diesel engines over gasoline engines (advantage of CO ₂ emissions) and vegetable oil as a raw material. The combination of features such as the ability to convert waste into fuel has made it possible to reduce waste, and so social attention has increased considerably.

  However, there are various problems in the fatty acid alkyl ester fuel obtained by alkyl esterifying oils and fats of various animal and vegetable oils or waste cooking oil, which is the mainstream of current biodiesel fuel.

  For example, if the composition of fatty acid alkyl ester contains a large amount of saturated fatty acid alkyl ester, the low temperature performance is inferior, and when used in a low temperature environment such as winter, a filter installed in the fuel line of a diesel vehicle, etc. May block the fuel supply to the engine and hinder normal operation.

  In addition, in the case where the composition of the fatty acid alkyl ester contains a large amount of unsaturated fatty acid alkyl ester, unlike those containing a large amount of the saturated fatty acid alkyl ester, there are those having low temperature performance comparable to diesel oil, Decomposition / polymerization due to light is likely to occur, and trouble occurs due to degradation products / polymers derived from unsaturated fatty acid alkyl esters in high temperature environments such as in summer or when the fuel temperature becomes extremely high due to radiation heat from the engine there is a possibility.

  Furthermore, fatty acids such as triglycerides, diglycerides, monoglycerides and the like, and fatty acid glycerides such as triglycerides, diglycerides and monoglycerides remaining after the fats and oils of animal and vegetable oils or waste edible oils, which are raw materials for fatty acid alkyl ester production, are unreacted or incompletely reacted at the time of alkyl ester production. Alkaline metals such as glycerin produced when esterification is completely completed, alkyl alcohol used in the fatty acid alkyl ester production process, and potassium used as a catalyst are used for fuel tanks, fuel lines, and engine parts. Since it causes an adverse effect, it is necessary to pay attention not only to the fuel properties but also to various quality items regarding use as a light oil substitute fuel, and use as a simple light oil substitute fuel is not preferable.

In using such a fatty acid alkyl ester fuel, development of various additives (low temperature fluidity improver for BDF, antioxidant, etc.) Technical studies on mixing technology into light oil have been promoted. In particular, methods of appropriately mixing and using light oil have been studied actively (see, for example, Patent Document 1 and Patent Document 2), and the mixing of fatty acid alkyl esters with light oil is more than when using fatty acid alkyl esters alone. although slightly inferior in terms of CO ₂ reduction, while maintaining the fuel quality, and be the most practical usage for CO ₂ reduction also becomes possible.

Due to the above technical background, fatty acid alkyl esters can be mixed with light oil to diminish the problems of low temperature performance, stability, and refinability of the fatty acid esters, and mixed at a low concentration of 5% or less. Then, it became clear that it was possible to be a level with almost no problem.
JP-A-2005-23136 JP 2006-233224 A

  By the way, the present inventors have also studied the use of the fatty acid alkyl ester mixed with the light oil as described above. At that time, in the fatty acid alkyl ester mixed light oil composition, crystals derived from the fatty acid alkyl ester are sufficient in winter. It was confirmed that the phenomenon of precipitation in fuel oil at 10 ° C., which can be reached, may occur.

  Conventional gas oil uses a cloud point as an evaluation of low-temperature fluidity due to wax precipitation. If the temperature is higher than the cloud point, there is no example of wax crystals being precipitated even if stored for a long time, and the cloud point is related to crystal precipitation. It was a reliable value. However, in the fatty acid alkyl ester mixed light oil composition described above, if crystal precipitation derived from the fatty acid alkyl ester constantly occurs in the fuel oil during storage even at a temperature equal to or higher than the cloud point, for example, an SS tank In addition to the possibility of clogging the filter in the fuel line, the low temperature performance of the fuel oil is predicted from the test results on the low temperature performance such as pour point and clogging point when the stored fuel is used. It is easily imagined that there is a possibility that it will be less than the practical performance. However, no report has yet been made on this phenomenon, and therefore, there are no examples or knowledge that have been studied to solve the problem related to this phenomenon.

  The object of the present invention is to solve the above-mentioned technical background, at a temperature higher than the cloud point, which is a problem when a fatty acid alkyl ester fuel is mixed with a light oil base material used for a diesel engine fuel oil. Crystallization in fuel oil during storage, especially in refinery tanks and SS underground tanks where the temperature change due to the influence of outside air is small compared to the fuel tanks of diesel vehicles It aims at providing the fuel oil composition for diesel engines which suppressed the crystal precipitation at a certain 10 degreeC.

  As a result of analyzing the fuel oil composition for diesel engines from various angles and intensively examining the results, crystal precipitation in the fuel oil during storage at a temperature higher than the cloud point is 16 carbon atoms, Fatty acid alkyl esters and glycerides mixed with a light oil base, as determined by the interaction between heavy saturated fatty acid alkyl esters having 18 or more carbon atoms and glycerides generated as a by-product in producing the fatty acid alkyl esters Of the above-mentioned heavy saturated fatty acid alkyl ester and glycerides as much as possible, it is possible to suppress crystal precipitation in fuel oil during storage at a temperature above the cloud point. It came to the invention of the fuel oil composition for diesel engines. That is, the present invention provides a diesel engine fuel oil composition having the following characteristics.

(1) (a) It has a distillation property with a 10% by volume distillation temperature of 180 to 235 ° C., a 90% by volume distillation temperature of 280 to 350 ° C., a sulfur content of 10 mass ppm or less, and a saturated content of 80 A light oil having an aromatic content of 16.7 to 19.4 % by volume, an aniline point of 45 to 87 ° C., and a Kauributanol value of 25.1 to 26.7. The total content of (b) mono-, di-, and triglycerides is 1.76 to 2.06 mass% in the base material, of which the diglyceride content is 0.08 to 0.42 mass%, and the triglyceride content is 0. .07～0.62 the mass%, and diesel engines, wherein a Kauri butanol value is formed by mixing 0.1 to 5.0 wt% of fatty acid alkyl ester is from 65.4 to 67.7 Fuel oil composition.
(2) The fuel oil composition for a diesel engine according to (1), wherein the fatty acid alkyl ester is produced using a fat or oil containing animal or vegetable oil or waste cooking oil as a raw material.
(3) The fuel oil composition for a diesel engine according to (2), obtained by hydrodesulfurizing a light oil fraction obtained by subjecting crude oil to atmospheric distillation.

  In the fuel oil composition for diesel engines of the present invention, crystal precipitation in the fuel oil during storage at a temperature equal to or higher than the cloud point, particularly 10 ° C., is suppressed regardless of whether the fatty acid alkyl ester is mixed. And low temperature performance, such as a pour point and a clogging point, is excellent.

Details of the invention will be described below.
The amount of the fatty acid alkyl ester contained in the diesel engine fuel oil composition in the present invention is 0.1 to 5.0 mass%, preferably 0.5 to 5.0 mass%. When the fatty acid alkyl ester content is 5.0% by mass or less, there is no concern about oxidation stability and low temperature fluidity, which is a problem when the fatty acid alkyl ester is used as a fuel, and it is an oxygen-containing fuel. Therefore, the combustion state in the diesel engine can be improved, and particulate matter (PM) and the like can be reduced.

The distillation property of the light oil base in the diesel engine fuel oil composition mixed with the fatty acid alkyl ester of the present invention has a 10 vol% distillation temperature of 180 to 235 ° C, preferably 183 to 230 ° C, 90 vol% distillation temperature. Is 280 to 350 ° C, preferably 315 to 350 ° C.
If the 10% by volume distillation temperature is 180 ° C or higher, it can maintain an appropriate flash point and kinematic viscosity as a diesel engine fuel oil composition, and if it is 235 ° C or lower, it has moderate volatility. Mixing with air in the combustion chamber is promoted, and particulate matter (PM) and the like derived from heterogeneous mixed combustion can be reduced. Further, if the 90% by volume distillation temperature is 280 ° C or higher, the kinematic viscosity can be appropriately maintained, and if it is 350 ° C or lower, heavy components in the diesel engine fuel oil composition, particularly aromatic components, can be removed. It can be suppressed to a low level and good combustibility can be maintained.

Moreover, the sulfur content contained in the light oil base material in the fuel oil composition for diesel engines mixed with the fatty acid alkyl ester of the present invention is 10 mass ppm or less, preferably 8 mass ppm or less.
By setting the sulfur content to 10 mass ppm or less, the amount of sulfate that is a component of particulate matter (PM) discharged from the engine is reduced, and the influence on the performance of the exhaust gas aftertreatment device is also reduced.
In the present invention, the distillation property can be measured by the atmospheric pressure distillation test of JIS K 2254, and the sulfur content can be measured by the microcoulometric titration method of JIS K 2541.

In the fuel oil composition for diesel engines in which the fatty acid alkyl ester of the present invention is mixed, the saturated amount of the light oil base is 70 to 86% by volume, preferably 72 to 85% by volume, and the aromatic content is 14 to 30% by volume, preferably Is 15 to 28% by volume. Of this aromatic content, the content of bicyclic aromatics is preferably 5.0% by volume or less, more preferably 3.0% by volume or less, and the content of polycyclic aromatics having 3 or more rings is preferably 1%. 0.0% by volume or less, more preferably 0.5% by volume or less.
By adjusting the aromatic content to 14 to 30% by volume, it becomes possible to appropriately maintain the solubility of the fuel oil composition for diesel engines, and the precipitation of n-paraffin that causes filter blockage by precipitation at low temperatures. The deposition start temperature (cloud point) can be set to a low level, and the rubber packing used in the automobile fuel system can be appropriately swollen, and troubles such as fuel leakage can be avoided. In addition, the amount of PM and NOx emissions during combustion can be reduced by suppressing the saturated content to 70 to 86% by volume and the aromatic content to 14 to 30% by volume, especially polycyclic aromatics with 2 or 3 rings. Can be reduced.
In addition, the composition ratio here is calculated | required based on JPI-5S-49-97 "petroleum product-hydrocarbon type test method-high performance liquid chromatograph method (HPLC)".

The aniline point of the light oil base in the fuel oil composition for diesel engines mixed with the fatty acid alkyl ester of the present invention is 45 to 87 ° C, preferably 50 to 85 ° C.
If an aniline point is 87 degrees C or less, it will become possible to maintain the dissolving power of the fuel oil composition for diesel engines appropriately. Further, from the viewpoint of a sealing material using various rubbers, it is possible to ensure sealing performance by making rubber swelling moderate. If the aniline point is 45 ° C. or higher, it becomes possible to keep the aromatic component that contributes particularly to lowering the aniline point in the light oil component within the appropriate range as described above. In addition, NOx emissions can be reduced.
In addition, the aniline point here is calculated | required based on JISK2256 "Petroleum product aniline point and mixed aniline point test method".

The kauri-butanol value of the light oil base in the fuel oil composition for diesel engines mixed with the fatty acid alkyl ester of the present invention is 20 to 60, preferably 22 to 55.
If the Kauributanol number is 20 or more, various high molecular weight additives added to the fuel oil composition for diesel engines are surely dissolved, and from shipping from the refinery to refueling to the user's automobile. Various filters and various filters in the fuel system of automobiles can be passed through without stress, and since additives are not trapped by the filters, the quality equivalent to the initial stage of preparation should be maintained during the period of use. Can do. In addition, it is possible to suppress the precipitation of crystals that occur when stored for a long time at a temperature equal to or higher than the cloud point. Further, if the Kauri-butanol value is 60 or less, it becomes possible to keep the naphthene content and aromatic content that contribute greatly to the increase in Kauri-butanol value in the appropriate range as described above, among the components of the light oil base. Therefore, PM and NOx emission during combustion can be reduced.

The Kauri-butanol value here indicates the relative dissolving power of hydrocarbons, and the higher the Kauri-butanol value, the higher the resin solubility. The method for measuring the Kauri-butanol value in the present invention can be determined by the following method based on ASTM D 1133.
That is, 20 ± 0.1 g of a standard kauributanol solution prepared with natural kauri resin and butyl alcohol was placed in a 200 milliliter (hereinafter referred to as “mL”) Erlenmeyer flask, and the Erlenmeyer flask was added to an aqueous solution maintained at 25 ± 1 ° C. Immerse. Next, toluene is first taken into a burette and titrated into the above Erlenmeyer flask. The end point is when a printed type is placed under the flask and the type stroke becomes unclear. Similarly, titration is also performed for a mixed solution of toluene and n-heptane (volume ratio of toluene 25: n-heptane 75). Then, oil for measuring the Kauri-butanol value (hereinafter referred to as “sample”) is taken in a burette and titrated by the same operation. The Kauri-butanol value is calculated by the following equation (1).
<< Equation 1 >>
Kauri-butanol value = [[65 (CB)] / [AB]] + 40
A: Amount of toluene required for titration (mL)
B: Amount of n-heptane / toluene mixed solution required for titration (mL)
C: Amount of sample subjected to titration (mL)
In the above Kauri-butanol number measurement method, the standard Kauri-butanol solution has a Kauri-butanol value of 100 to 110 when titrated with toluene, and a Kauri-butanol value when titrated with a mixed solution of toluene 25: heptane 75 at a volume ratio. Is adjusted in advance to be 40.

The fatty acid alkyl ester to be mixed with the diesel engine fuel oil composition of the present invention preferably has a total content of mono-, di-, and triglycerides of 0.01% by mass to 5.0% by mass, more preferably 0.01% by mass. % To 4.5% by mass, of which diglyceride is preferably 0% to 1.5% by mass, more preferably 0% to 1.0% by mass, and triglyceride is preferably 0% The content is from 0.5% by mass to 1.5% by mass, more preferably from 0% by mass to 1.0% by mass. The Kauri-butanol value is 65 to 100, preferably 65 to 95.
The glycerides generated as a by-product when producing a fatty acid alkyl ester having a Kauri butanol value in the above range have a low melting point and are heavier than myristate alkyl ester and palmitic acid alkyl ester. Since the amount of saturated fatty acid alkyl ester produced is small, it does not interact with heavy saturated fatty acid alkyl ester, so there is no problem in terms of crystal precipitation during storage above the cloud point, but details are unknown at this time. In view of quality as a fuel oil product, it is preferably within the above range. That is, the presence of glycerides is preferably within the above-mentioned range because it affects fuel filter blockage of diesel vehicles and exhaust gas deterioration due to poor combustion.
In addition, the amount of glycerides here is based on EN14105 “Fat and oil derivatives-Fatty Acid Methyl Ester (FAME)-Determination of free and total glycerol and mono-, tri-cylinder”.

The Kauri-butanol value of the fatty acid alkyl ester mixed with the diesel engine fuel oil composition in the present invention is 65 to 100 as described above, but if the Kauri-butanol value is 65 or more, the composition in the fatty acid alkyl ester is myristine. Acid alkyl ester and palmitic acid alkyl ester (for the structure of both alkyl esters, refer to Table 1 in the representative examples of fatty acid alkyl esters described later). In other words, because the fatty acid alkyl ester itself has high solubility, it suppresses the generation of sludge due to the decrease in solubility when mixed with a light oil base and the decrease in oil permeability due to the decrease in solubility of additives, etc. can do. If the Kauri-butanol value is 100 or less, the sealing property can be ensured by making the rubber swelling of the sealing material using various rubbers mixed with the light oil base material moderate.
Here, the Kauri-butanol value is determined based on ASTM D 1133 as described above.

The fatty acid alkyl ester mixed in the diesel engine fuel oil composition in the present invention is preferably made from fats and oils such as animal and vegetable oils and waste cooking oil.
Fatty acid alkyl esters derived from fats and oils such as animal and vegetable oils and waste cooking oils do not contain sulfur, so mixing them with diesel oil bases keeps the sulfur content in diesel engine fuel oil compositions to a lower level. It is possible to reduce the amount of sulfate, which is a component of particulate matter (PM) discharged from the engine, and to reduce the influence on the performance of the exhaust gas aftertreatment device. In addition, the use of vegetable oils such as palm oil, rapeseed oil, soybean oil, and coconut oil is regarded as a renewable energy. Therefore, carbon neutral fuel is used in the international CO2 reduction protocol (Kyoto Protocol). This is also preferable from the viewpoint of reducing carbon dioxide emissions. Among them, the use of non-food-based vegetable oils, represented by Jatropha, can be used in terms of food problems due to competition between food and fuel, and cultivation in wasteland. From the viewpoint of greening of wasteland, it is more preferable.
Regarding the reaction method and purification for fatty acid alkyl ester production from raw oil and fat, general alkali catalyst method using alkali metal, acid catalyst method using acid catalyst such as organic acid, lipase method using lipase enzyme The fatty acid alkyl ester used in the present invention is not limited to the reaction / purification method.
The alkyl group of the fatty acid alkyl ester used in the present invention is various alkyl groups including isomers such as methyl group, ethyl group, propyl group, butyl group, pentyl group, and hexyl group. Table 1 below shows representative examples of fatty acid alkyl esters to which the alkyl group is bonded. However, in the present invention, the type of fatty acid alkyl ester used is not limited to the following representative examples.

  Analysis of fatty acid alkyl esters used in the present invention and fatty acids in fats and oils used as raw materials can be performed using a gas chromatograph (GC).

The density at 15 ° C. of the diesel engine fuel oil composition in the present invention is preferably 0.70 to 0.86 g / cm ³ , preferably 0.75 to 0.86 g / cm ³ . If the density at 15 ° C. is in the range of 0.70 to 0.86 g / cm ³ , the diesel vehicle designed on the assumption of the use of diesel oil will maintain the ignitability during diesel combustion and maintain an appropriate combustion state. It is preferable because it can be maintained.
The density at 15 ° C. can be measured by a density test method of JISK 2249 and a density / mass / capacity conversion table.

The 30 ° C. kinematic viscosity of the diesel engine fuel oil composition in the present invention is preferably 1.700 to 6.000 mm ² / s, more preferably 2.00 to 5.800 mm ² / s. If the kinematic viscosity at 30 ° C is 1.700 to 6.000 mm ² / s, it is suitable for diesel vehicles designed on the basis of the use of light oil in terms of wear of the fuel supply pump and fluidity of the fuel itself It is preferable because it can be used for
The kinematic viscosity at 30 ° C. can be measured by a kinematic viscosity test method and a viscosity index calculation method of JISK 2283.

The flash point of the diesel engine fuel oil composition in the present invention is 45 to 100 ° C, preferably 45 to 95 ° C. Within this range, the risk of ignition by fire is low, and it is preferable not only for handling ordinary vehicles but also for heavy machinery that has a high usage rate of diesel engines and has many opportunities for refueling at the site of use.
The flash point can be measured by the method of obtaining the flash point of JIS K 2265-3-Part 3: Penschem Lutens sealing method.

  The light oil base material used for the diesel engine fuel oil composition of the present invention adjusts its distillation properties by distillation from various petroleum fractions, and adjusts its composition by treatment such as hydrodesulfurization and aromatic extraction treatment, It can be manufactured so as to satisfy the properties defined in the present invention. The fuel oil composition of the present invention can be applied to any of No. 1, No. 1, No. 2, No. 3, and No. 3 of diesel oil defined in JIS standards. The manufacturing method of the light oil base material used for the fuel oil composition of the present invention is not particularly limited as long as the properties defined in the present invention are satisfied. For example, gas oil fraction obtained by atmospheric distillation of crude oil, a mixture of kerosene fraction and light oil fraction, heavy oil is catalytically cracked, hydrodesulfurized, hydrocracked, dearomatized and coker heavy. It can be produced using various fractions such as a light oil fraction that is fractionated after the oil is upgraded or the like. And the fuel oil composition for diesel engines of this invention is a fatty-acid alkylester which satisfy | fills the property prescribed | regulated to the above invention to the light oil base material which satisfy | fills the property prescribed | regulated to this invention obtained as mentioned above. , And can be produced by mixing at the ratio as described above.

  It is preferable to add the low temperature fluidity improver to the fuel oil composition for a diesel engine of the present invention in an amount of 10 to 1000 ppm by volume, preferably 50 to 700 ppm by volume. Addition of 10 ppm by volume or more of the low temperature fluidity improver is preferable because the clogging point (CFPP) and the pour point (PP) can be improved. Moreover, it is preferable that the addition amount of the low temperature fluidity improver is 1000 ppm by volume or less because aggregation of the additive itself can be prevented.

  Various low-temperature fluidity improvers used in the present invention can be used. Examples thereof include alkenyl succinimide, ethylene-vinyl acetate copolymer, ethylene-alkyl acrylate copolymer, polyethylene glycol derivative and the like. Polymers such as polymerized polymers, chlorinated polyethylene, and polyalkyl acrylates may be mentioned. These low temperature fluidity improvers may be used alone or in combination of two or more.

In the fuel oil composition for a diesel engine of the present invention, a lubricity improver may or may not be added as necessary. When added, it is generally 500 ppm by mass or less, preferably 300 ppm by mass. The following.
In general, fatty acid alkyl esters and glycerides have an effect of improving lubricity. In particular, saturated fatty acids having 16 or 18 carbon atoms, saturated fatty acid esters and glycerides are the main components of the lubricity improver. It is used as Therefore, a fuel oil composition for a diesel engine mixed with a fatty acid alkyl ester has a lubrication performance evaluation test as represented by the Petroleum Institute Test Method JPI-5S-50-98: Light Oil-Lubricity Test Method (HFRR Test). If sufficient lubricity is exhibited, it is not always necessary to add a lubricity improver. However, when a fatty acid alkyl ester mixed light oil is prepared as a product, it is realistic to prepare the product by adding a fatty acid alkyl ester to the product light oil to which a lubricity improver is added. In that case, saturated fatty acids, saturated fatty acid esters and glycerides that cause crystal precipitation are contained in the fuel oil composition for diesel engines in an amount corresponding to the lubricity improver added to the product gas oil used as the base. However, by setting the addition amount of the lubricity improver to 500 mass ppm or less, it becomes possible to suppress crystal precipitation at a temperature below the cloud point, particularly 10 ° C., and the fatty acid alkyl ester mixed light oil of the product It is preferable from the viewpoint of filterability.

  Moreover, various other additives can be suitably mix | blended with the fuel oil composition for diesel engines of this invention as needed. Examples of such additives include known fuel additives such as cetane number improvers, surfactants, preservatives, rust preventives, defoamers, detergents, antioxidants, and hue improvers. These can be added singly or in combination.

  Next, the present invention will be described more specifically with reference to examples and comparative examples. In addition, this invention is not restrict | limited at all by these examples.

  In Examples and Comparative Examples, the flash point, distillation properties, sulfur content, and 30 ° C. kinematic viscosity were measured according to the method defined in JIS K 2204. In addition, the 15 ° C. density was measured according to JIS K 2249, the cloud point was measured according to JIS K 2269, and the aniline point was measured according to JIS K 2256.

The ratio of the saturated component, the aromatic component, and the aromatic component according to the number of rings were measured based on JPI-5S-49-97. The apparatus configuration and analysis conditions of HPLC are shown below.
Equipment: Agilent 1100 Series (ALS: G1329A, Bin Pump: G1312A, Degasser: G1379A, Rid: G1362A, Colcom: G1316A)
Mobile phase: n-hexane Flow rate: 1.0 ml / min
Column: Silver nitrate impregnated silica column (4.6 ml. D. * 70 mm L. AgNO ₃ -1071-Y manufactured by Senshu Scientific)
Amine modified column (4.0 ml.D. * 250 mmL. 2 LICROSORB-NH ₂ manufactured by Senshu Kagaku)
Column temperature: 35 ° C
Sample concentration: 10 vol%
Injection volume: 5 μl

The paraffin content and naphthene content were determined by the following methods.
First, the sample was fractionated into a saturated component and an aromatic component by HPLC, and then type analysis was performed on the saturated component by GC-MS. Based on the analysis result obtained here, analysis was performed according to ASTM D 2786, and the content ratio of paraffins and naphthenes in the saturated content was determined. Moreover, the content of naphthenes was determined by multiplying the ratio of naphthenes by number of rings in the saturation obtained here by the saturation ratio determined as described above.
The analysis conditions are shown below.
Apparatus: HP-6890 HP5973 Quadrupole mass spectrometer Column: DB-1: 30 m × 0.25 mm I.D. D. × 0.25μm
Oven temperature: 40 ° C. (1 min) → 10 ° C./min→280° C. (5 min)
Inlet temperature: 43 ° C. Even track mode ON
Interface temperature: 300 ° C
Carrier gas: He: 55 KPa Constant flow mode ON
Solvent Delay: 4.5min
Mass range: 50-500 Threshold = 100 Sampling # 3
Ionization voltage: 70 eV
Injection method: On-column injection 1.0 μl

The n-paraffin content was measured by gas chromatography (GC). The measurement conditions are shown below.
-About light oil base material and fuel oil composition for diesel engine Equipment: 5890 series2 (Agilent Technologies)
Column: Ultra 1 (Agilent) Crosslinked Methyl Silicone Gum, 50 m × 0.20 mm I.D. D.
Film thickness 0.33μm
Detector: FID
Oven temperature: 60 ° C. (0 min) − (6 ° C./min)→340° C. (10 min) Run 56.7 min
Inlet: On-column
Inlet temperature: oven track mode (oven temperature + 3 ° C)
Detector temperature: 350 ° C
Carrier gas: He 280 kPa (constant pressure) 1.3 mL / min Linear velocity 29.7 cm / sec (at 60 ° C.)
Make-up gas: He
FID combustion gas: H ₂ 30 mL / min, Air 400 mL / min
Injection volume: 0.2 μl
Quantitative method: Internal standard method (Internal standard substance: Dibutyl phthalate)

[Preparation of Diesel Engine Fuel Oil Composition]
Examples 1-3, Comparative Examples 1-3
Using diesel oil bases having the properties shown in Table 2 and fatty acid alkyl esters having the properties shown in Table 3, these diesel oil bases and fatty acid alkyl esters are mixed at the blending ratios shown in Table 4, and fuel for diesel engines An oil composition was prepared. Properties of the obtained fuel oil composition are shown in Table 4.

[Crystal precipitation test during storage]
Using the fuel oil compositions obtained in Examples and Comparative Examples, a crystal precipitation test during storage was performed. This test was performed according to the following procedure.
100 mL of the test fuel is collected in a screw bottle and heated at 50 ° C. for 1 hour. After 1 hour, the sample is allowed to cool at room temperature for 30 minutes. After standing to cool, it is allowed to stand in a thermostat kept at 10 ° C., and crystal precipitation is visually confirmed every 12 hours. Then, in storage at 10 ° C., it was determined as “◯” if no crystal precipitation was confirmed in the liquid after one month, and “x” if crystal precipitation was confirmed.
Table 4 shows the determination results of the crystal precipitation test.
In addition, this test confirms that the crystal precipitation derived from the fatty acid alkyl ester is stored for 1 month, and the cloud point is measured after preparing the fuel oil compositions obtained in Examples and Comparative Examples, and then JIS K. It was measured according to 2269.

  The fuel oil composition obtained in Example 1 after storage for 1 month at 10 ° C. in the above crystal precipitation test is shown in FIG. 1, and the fuel oil composition obtained in Comparative Examples 2 and 3 is shown in FIG. The crystals of the fuel oil composition obtained in 1 are shown in FIG.

As shown in Table 4, in the fuel oil compositions obtained in Examples 1 to 3, no precipitation of crystals was confirmed in the storage test for 1 month at 10 ° C., and the light oil base material and fatty acid to be mixed It can be seen that crystal precipitation is suppressed by appropriate preparation of the alkyl ester.
On the other hand, in the fuel oil composition obtained in Comparative Example 1, the Kauri-butanol value of the fatty acid alkyl ester mixed with the light oil base was low, and the solubility after mixing with the light oil base could not maintain an appropriate value. From this, it can be confirmed that crystal precipitation occurred. In the fuel oil composition obtained in Comparative Example 2, the amount of fatty acid alkyl ester mixed was too large at 10% by mass, so that precipitation of crystals was confirmed. In the fuel oil composition obtained in Comparative Example 3, the properties of the base gas oil base, particularly the parameters indicating the solubility of the fuel oil, such as the kauri butanol number and the aniline point, are low. It cannot be maintained at a low value, and the precipitation of crystals cannot be suppressed.

It is the fuel oil composition obtained in Example 1 after 1-month storage at 10 degreeC in a crystal precipitation test. 3 is a fuel oil composition obtained in Comparative Examples 2 and 3 after storage for 1 month at 10 ° C. in a crystal precipitation test. It is a crystal | crystallization of the fuel oil composition obtained by the comparative example 1 after 1-month storage at 10 degreeC in a crystal precipitation test.

Claims (3)

(A) 10% by volume distillation temperature of 180 to 235 ° C., 90% by volume distillation temperature of 280 to 350 ° C., a sulfur content of 10 mass ppm or less, and a saturated content of 80.6 to A light oil base material having 83.3 volume%, aromatic content of 16.7 to 19.4 volume%, aniline point of 45 to 87 ° C., and Kauri butanol number of 25.1 to 26.7. ,
(B) The total content of mono-, di-, and triglycerides is 1.76 to 2.06 mass%, of which the diglyceride content is 0.08 to 0.42 mass%, and the triglyceride content is 0.07 to 0. A fuel oil composition for a diesel engine, characterized by being mixed with 0.1 to 5.0% by mass of a fatty acid alkyl ester having a .62% by mass and Kauributanol number of 65.4 to 67.7. object.   2. The fuel oil composition for diesel engines according to claim 1, wherein the fatty acid alkyl ester is produced using fats and oils including animal and vegetable oils or waste cooking oil as a raw material. The fuel oil composition for diesel engines according to claim 2, obtained by hydrodesulfurizing a light oil fraction obtained by subjecting crude oil to atmospheric distillation.