JP6348685B2 - Method for producing refined rapeseed oil, refined rapeseed oil obtained from said production method, acidic emulsified food containing said refined rapeseed oil, and method for reducing aldehydes in rapeseed oil - Google Patents

Description

  The present invention relates to a method for producing a refined rapeseed oil, a refined rapeseed oil obtained from the production method, an acidic emulsified food containing the refined rapeseed oil, and a method for reducing aldehydes in the rapeseed oil.

  2. Description of the Related Art In recent years, with consumers' health orientation, there is an increasing interest in nutritional functional foods that display the functions of specific nutritional components.

  In order to sell food as a functional nutritional food, it is necessary to satisfy the standard for functional nutritional food. As an example of the standard, when the nutritional component is α-tocopherol (vitamin E), the lower limit of the nutritional component amount included in the daily intake standard amount is 2.4 mg. According to an estimate based on the National Nutrition Survey (1995), Japanese intake an average of 14 grams of fat per day. Therefore, assuming that this intake amount is a reference intake amount of fats and oils, in order to sell the fats and oils as a nutritional functional food, when the nutritional component is α-tocopherol, it is necessary that the fats and oils contain 172 ppm or more of α-tocopherol. is there.

  By the way, it is known that content of (alpha) -tocopherol in fats and oils, such as rapeseed oil, may decrease with the conditions of a deodorizing process among the refinement | purification processes of fats and oils. The deodorizing step is a step of removing fat and taste components that are not edible in food and oil by heating and distilling the oil and fat under reduced pressure. Specifically, when the deodorizing temperature in the deodorizing step is high, α-tocopherol is reduced together with the volatile components in the fat, so that the obtained fat is a fat having a low α-tocopherol content.

  Therefore, the fats and oils that can be sold as nutritional functional foods are originally limited to sunflower oil, safflower oil, and the like that have a high α-tocopherol content. However, since sunflower oil and safflower oil are expensive, consumers may need a cheaper product. On the other hand, rapeseed oil (also called canola oil), which is a cheaper fat, has an α-tocopherol content of less than 172 ppm when subjected to a normal refining process. Had to be added.

  On the other hand, trans-fatty acids, which are known to increase the risk of heart disease, are produced under high temperature conditions in the oil refining process. Therefore, fats with low trans fatty acid content can be obtained by lowering the heating conditions in the deodorization process. Can be obtained. According to the guidelines of the Consumer Affairs Agency, if the content of trans fatty acid per 100 g of food is less than 0.3 g, it is possible to indicate that it does not contain trans fatty acid, so the content of trans fatty acid is more Low fats are desired.

  However, if the deodorizing step is performed under low temperature conditions in order to leave α-tocopherol in the fat and oil at a high concentration and / or to reduce the content of trans fatty acid in the fat and oil, it is the original purpose of the deodorizing step. The problem that an odor component cannot be removed and the flavor of the fats and oils obtained may be impaired.

  For example, Patent Document 1 discloses a method for reducing glycidol and the like in a glyceride composition by deodorizing a glyceride composition containing glycidol and the like under a low temperature condition of 100 to 240 ° C. ing. However, conventionally, in the deodorization step, a method for reducing the content of trans fatty acid while suppressing the reduction of the content of α-tocopherol in the fat and oil without damaging the flavor of the obtained fat has not been studied. .

JP 2011-074358 A

  The present invention has been made in view of such circumstances, and provides a method for producing a refined rapeseed oil in which the reduction of the content of α-tocopherol is suppressed, the content of trans fatty acid is reduced, and the flavor is good. For the purpose. Moreover, an object of this invention is to provide the refined rapeseed oil obtained from the said manufacturing method, and the acidic emulsified food containing the said refined rapeseed oil.

  In the deodorization step, the present inventors provide a contact step in which rapeseed oil and water vapor are brought into contact with each other under specific conditions, thereby suppressing reduction in the content of α-tocopherol and reducing the content of trans fatty acid. The present inventors have found that a refined rapeseed oil can be obtained, and have completed the present invention. Specifically, the present invention provides the following.

(1) A method for producing a refined rapeseed oil including a deodorizing step for deodorizing rapeseed oil,
The said deodorizing process includes the contact process which makes rapeseed oil and water vapor | steam contact for 53-100 minutes by the degree of vacuum of 300-800 Pa on the temperature conditions of 205-225 degreeC, The manufacturing method of the refined rapeseed oil characterized by the above-mentioned.

  (2) The method for producing a refined rapeseed oil according to (1), wherein the amount of the water vapor is 1.0 to 5.0 mass% with respect to the rapeseed oil.

  (3) The method for producing refined rapeseed oil according to (1) or (2), wherein the deodorizing step is performed by a tray-type deodorizing apparatus.

  (4) Refined rapeseed oil obtained from the production method according to any one of (1) to (3), wherein the content of α-tocopherol is 172 ppm or more.

  (5) An acidic emulsified food containing the refined rapeseed oil according to (4).

  (6) A method for reducing aldehydes in rapeseed oil, wherein rapeseed oil and water vapor are brought into contact with each other at a temperature of 205 to 225 ° C under a vacuum degree of 300 to 800 Pa for 53 to 100 minutes.

  ADVANTAGE OF THE INVENTION According to this invention, the reduction | decrease of content of (alpha) -tocopherol is suppressed, content of trans fatty acid is reduced, and the manufacturing method of refined rapeseed oil with favorable flavor is provided. Moreover, according to this invention, the refined rapeseed oil obtained from the said manufacturing method, the acidic emulsified food containing the said refined rapeseed oil, and the method of reducing the aldehydes in rapeseed oil are provided.

  Hereinafter, embodiments of the present invention will be specifically described.

[Deodorization process]
Rapeseed oil is known to contain α-tocopherol moderately. Therefore, rapeseed oil, if properly purified, satisfies the standard for α-tocopherol content (alpha-tocopherol content in oil and fat products is 172 ppm or more) necessary to sell as a nutritional functional food, It can be sold as a nutritional functional food without adding α-tocopherol. Therefore, the present inventors examined a purification method that does not reduce the content of α-tocopherol in rapeseed oil.

  It is known that the content of α-tocopherol in rapeseed oil is reduced when the deodorizing step is performed under high temperature conditions in the purification of rapeseed oil. Therefore, it can be said that in the purification of rapeseed oil, it is preferable to perform the deodorization step under low temperature conditions. On the other hand, when the deodorizing step is performed under a high temperature condition, the content of trans fatty acid in the rapeseed oil increases. Since excessive intake of trans fatty acids is known to increase the risk of heart disease, it is desirable to reduce the content of trans fatty acids in rapeseed oil. In particular, according to the guidelines of the Consumer Affairs Agency, if the content of trans fatty acid per 100 g of food is less than 0.3 g, it is possible to indicate that it does not contain trans fatty acid, so trans fatty acid in rapeseed oil It is desirable that the content of be lower than this value.

  Therefore, as a result of intensive studies by the present inventors, in the deodorization step, when a contact step in which rapeseed oil and water vapor are brought into contact with each other under conditions satisfying a temperature condition, a reduced pressure condition, and a contact time described later, α-tocopherol It has been found that a refined rapeseed oil having a reduced flavor, a reduced content of trans fatty acid, and a good flavor can be obtained. Hereinafter, each condition in a contact process is demonstrated.

(Temperature conditions in the contact process)
In the contact step in the present invention, rapeseed oil and water vapor are contacted at a temperature of 205 to 225 ° C, preferably 205 to 220 ° C, and most preferably 210 to 220 ° C. When the temperature condition is 205 ° C. or higher and 225 ° C. or lower, deodorization can be sufficiently performed, and the content of trans fatty acid in refined rapeseed oil having a good flavor can be reduced.

(Decompression conditions in the contact process)
The decompression condition of the contact step in the present invention is a vacuum degree of 300 to 800 Pa, preferably a vacuum degree of 300 to 533 Pa, and more preferably a vacuum degree of 300 to 470 Pa. When the degree of vacuum is 300 Pa or more, a reduction in the content of α-tocopherol in the obtained refined rapeseed oil can be suppressed. When the degree of vacuum is 300 Pa or more and 800 Pa or less, deodorization can be sufficiently performed, and a refined rapeseed oil having a good flavor can be obtained.

  The “vacuum degree” in the present invention is expressed on the basis of absolute pressure. This value indicates how close to an ideal vacuum state (absolute vacuum) is, with zero absolute vacuum.

(Contact time in the contact process)
In the contact step in the present invention, rapeseed oil and water vapor are contacted for 53 to 100 minutes, preferably 53 to 90 minutes, more preferably 53 to 85 minutes. Refined rapeseed oil having a good flavor is obtained when the contact time is 53 minutes or longer. When the contact time is 100 minutes or less, reduction in the content of α-tocopherol in the refined rapeseed oil can be suppressed.

  The contact time may be continuous or discontinuous. The contact time is preferably continuous in terms of energy efficiency. If it is the above-mentioned contact time in total, reduction of α-tocopherol in the refined rapeseed oil can be suppressed while giving a good flavor to the refined rapeseed oil.

(Amount of water vapor in the contact process)
The amount of water vapor to be brought into contact with the rapeseed oil in the contacting step is 1.0 to 5.0% by mass, preferably 1.5 to 5.0% by mass, more preferably 2.0 to 5.0% by mass with respect to the rapeseed oil. It may be. When the amount of water vapor is 1.0% by mass or more based on rapeseed oil, deodorization can be sufficiently performed, and a purified rapeseed oil having a good flavor can be obtained. The reduction | decrease of content of the alpha-tocopherol in refined rapeseed oil can be suppressed as the quantity of water vapor | steam is 5.0 mass% or less with respect to rapeseed oil.

(Conditions for deodorization process other than contact process)
In the deodorization step of the present invention, the conditions other than the contact step may be conditions normally used in the deodorization step, and are not particularly limited, but do not exceed the upper limit of the temperature condition (that is, 225 ° C.), And it is preferable not to exceed the range of the above decompression conditions (that is, the degree of vacuum of 300 to 800 Pa).

  Before and after the contacting step, when the temperature condition is raised to 205 ° C. or when the temperature is lowered from 205 ° C., in order to prevent the rapeseed oil from deteriorating under the temperature condition below the lower limit of the temperature condition (ie, 205 ° C.). The pressure is preferably reduced (for example, the degree of vacuum is 300 to 800 Pa). In addition, when the temperature condition is increased to 205 ° C. before or after the contact step, or when the temperature is decreased from 205 ° C., the rapeseed oil may or may not be contacted with water vapor. When making rapeseed oil contact with water vapor | steam, you may make it contact with 1.0-5.0 mass% water vapor | steam with respect to rapeseed oil for 20 to 100 minutes or less.

(Deodorizer)
As a deodorizing apparatus for realizing the deodorizing step, types such as a batch type, a semi-continuous type, and a continuous type are known. Moreover, various deodorizing apparatuses, such as a Gardler type, a Campro type, and a Campro Miura type, are known according to the structure. In the present invention, any type of deodorizing apparatus may be used.

  The Gardler type deodorization apparatus has a structure in which a tray is provided in a vertical cylindrical vacuum tower called a shell. A plurality of trays are provided in the deodorizing apparatus, and water vapor is normally blown into each tray. The rapeseed oil introduced into the deodorization apparatus is heated under reduced pressure and deodorized while being in contact with water vapor. The deodorized rapeseed oil is cooled in the tray after the contact step and recovered as a refined rapeseed oil.

  A Campro-type or Campro-Miura-type deodorization apparatus is provided with a set of two thin plates set in a tray so as to face each other in parallel. Further, a water vapor blowing pipe is provided at the lower end of the thin plate. When the lower end of the thin plate is immersed in rapeseed oil and heated under reduced pressure and steam is blown in, the rapeseed oil spreads on the surface of the thin plate together with the water vapor to form a thin film, during which the rapeseed oil is deodorized. Water vapor is normally blown into any tray of a Campro-type or Campro-Miura type deodorization apparatus.

  In the present invention, among various deodorizing apparatuses, the Gardler type, Campro type, Campro Miura type deodorizing apparatus is hereinafter referred to as “tray type deodorizing apparatus”. The “tray-type deodorization apparatus” in the present invention does not include a column-type deodorization apparatus that includes a thin-film column equipped with a regular filler. In the present invention, it is preferable to use a tray-type deodorizing device because it is easy to obtain fats and oils having a good flavor.

  Of the tray type deodorization devices that can be used in the present invention, the guardler type deodorization device is not particularly limited, but a single shell type device in which the vacuum tower is divided by a tray, and a plurality of shells are further incorporated in the vacuum tower. And a double shell type device in which each of the plurality of shells serves as a tray, and a combination shell type device in which a single shell type and a double shell type are combined.

  Of the tray-type deodorization devices that can be used in the present invention, the Campro-type or Campro-Miura-type deodorization device is not particularly limited, but is a device in which the trays are arranged side by side, or a type in which the trays are arranged vertically. And the like.

(rapeseed oil)
Although it does not specifically limit as rapeseed oil provided to the deodorizing process in this invention, Refined oil may be used and non-refined oil may be used. The refined oil may be obtained by a known purification method. As a known refining method, oil is obtained by pressing or / and solvent extraction on seeds (when pressing and solvent extraction are performed, fats and oils obtained in each oil collecting step may be mixed) and obtained. Examples of the method include obtaining a refined oil by performing a degumming step, a deoxidation step, a decolorization step, a deodorization step, and the like on the oil and fat.

  An object of this invention is to obtain the refined rapeseed oil by which the reduction | decrease of content of (alpha) -tocopherol was suppressed and content of trans fatty acid was reduced. Therefore, it is preferable to use fats and oils that have not undergone a deodorizing step that may reduce the content of α-tocopherol in the fats and oils and increase the content of trans fatty acids. It is more preferable to use rapeseed oil (rapeseed decoloring oil) that has not undergone the deodorization step but has undergone the decolorization step. It is more preferable to use rapeseed decolorized oil that has undergone degumming, deoxidation, and decolorization after oil collection.

[Refined rapeseed oil obtained from the production method of the present invention]
According to the production method of the present invention, it is possible to obtain a refined rapeseed oil that can suppress a decrease in the content of α-tocopherol and that can reduce the content of trans fatty acid and has a good flavor.

  The content of α-tocopherol in the refined rapeseed oil is specified according to “Oil Analytical Test Method 2.4.10-2003 Tocopherol (Fluorescence Detector—High Performance Liquid Chromatograph Method)” edited by Japan Oil Chemical Association.

  According to the production method of the present invention, the content of α-tocopherol is a standard for the content of α-tocopherol necessary for selling as a nutritional functional food (the content of α-tocopherol in the oil or fat product is 172 ppm or more. A refined rapeseed oil satisfying the above can be obtained.

  The content of trans fatty acid in the refined rapeseed oil is specified in accordance with AOCS (American Official Chemist's Society) official method “Ce 1f-96”.

  According to the production method of the present invention, it is possible to indicate that the content of trans fatty acid does not contain trans fatty acid, which is a standard on the guidelines of the Consumer Affairs Agency (the content of trans fatty acid per 100 g of food is A refined rapeseed oil satisfying (being less than 0.3 g) can be obtained.

  According to the production method of the present invention, since the pungent odor and the odor component amount of the refined rapeseed oil can be reduced, a refined rapeseed oil having a good flavor can be obtained. The “irritating odor” refers to an odor derived from a substance such as a lower aldehyde (acetaldehyde, propionaldehyde, acrolein, etc.) or a lower carboxylic acid (formic acid, etc.) contained in the oil. The irritating odor can be noticeable when the refined fat is fried at, for example, 180 ° C. or higher. The “odor component” refers to a volatile component contained in fats and oils. Among the volatile components, particularly aldehydes (acrolein, hexanal, cis-3-hexanal, trans-2-hexanal, octanal, trans-2-heptenal, nonanal, trans-2-octenal, trans, cis-2,4 -Heptadienal, trans, trans-2,4-heptadienal, trans, cis-2,4-decadienal, trans, trans-2,4-decadienal, 2-decenal, 2-undecenal, etc.) are irritating odors when oxidized Can cause According to the production method of the present invention, a refined rapeseed oil having a reduced pungent odor or odor component (particularly aldehydes) amount can be obtained. The pungent odor of refined rapeseed oil is specified by sensory evaluation by panelists. In addition, the amount of substances causing odors and odorous components in refined rapeseed oil is specified by a headspace gas chromatograph mass spectrometer or the like.

  The normal deodorization process performed under high temperature conditions is said to be a process of reducing odor components in fats and oils. However, according to the present invention, surprisingly, the amount of the odorous component in the fats and oils can be further reduced by performing the deodorizing step under a temperature condition lower than before. This indicates the possibility that by-products and the like were generated at a high temperature in the normal deodorizing process, and that these by-products and the like produced a new odor. On the other hand, according to the present invention, it is presumed that the production of such a by-product can be suppressed.

  Moreover, since the refined rapeseed oil obtained from the production method of the present invention has a good flavor, it can be suitably used as a material for acidic emulsified foods. When using the refined rapeseed oil obtained from the production method of the present invention as a material such as an acidic emulsified food, it is preferable that 30% by mass or more of the fat in the acidic emulsified food is the purified rapeseed oil obtained from the production method of the present invention. More preferably, 50% by mass or more of the fats and oils in the emulsified food is purified rapeseed oil obtained from the production method of the present invention, and 70% by mass or more of the fats and oils in the acidic emulsified food is obtained from the production method of the present invention. Most preferably. Although it does not specifically limit as an acidic emulsified food, Mayonnaise, an emulsified liquid dressing, a separation liquid dressing, etc. are mentioned. Among these, mayonnaise is preferable in that the content ratio of fats and oils is high and the balance with flavor with other materials such as vinegar is particularly good. Furthermore, the refined rapeseed oil obtained from the production method of the present invention can be suitably used as a cooking oil such as frying oil and fried oil because the amount of odorous components that can be generated during heating is reduced.

[Examples 1 to 5, Comparative Examples 1 to 4]
Rapeseed decoloring oil (manufactured by Nisshin Oillio Group Co., Ltd.) was deodorized using the deodorizing apparatus under the conditions described in Table 1 to obtain purified rapeseed oil of each Example and Comparative Example.

The used deodorizing apparatus is one of the following. The Gardler type deodorizing apparatus 1 is a continuous type deodorizing apparatus, and the trays are all connected via pipes provided between the trays, and oil and fat are continuously supplied into the apparatus. The guardler type deodorizing device 2 is a semi-continuous type deodorizing device, in which a valve is provided in each tray, and has a structure in which oils and fats between the trays are not easily mixed.
Device 1; Gardler type deodorizing device 1
Device 2; Gardler type deodorizing device 2
Device 3; Batch deodorization device

In the table below, “time of 205 ° C. or higher” refers to the total time that rapeseed oil that has passed through the deodorizer is exposed to temperature conditions of 205 ° C. or higher in the deodorizer.
In the following table, “water vapor blowing amount” indicates the total amount of water vapor with respect to the rapeseed oil blown into each tray in the deodorizing apparatus at 205 ° C. or higher.

[Evaluation]
The refined rapeseed oil of each Example and Comparative Example was evaluated according to the following index.

(Content of α-tocopherol)
Α-tocopherol in refined rapeseed oil of each Example and Comparative Example in accordance with “Oil Analysis Test Method 2.4.10-2003 Tocopherol (Fluorescence Detector—High Performance Liquid Chromatograph Method)” edited by Japan Oil Chemical Association The content of was measured. The results are shown in Table 1.

(Trans fatty acid content)
According to AOCS (American Official Chemistry's Society) Official Method “Ce 1f-96”, the content of trans fatty acid relative to all the constituent fatty acids in the refined rapeseed oil of each Example and Comparative Example (“%” in the table represents mass) % Is measured). The results are shown in Table 1.

(Taste evaluation)
Mayonnaise was produced using the refined rapeseed oil of each Example and Comparative Example, the sensory evaluation was performed on the obtained mayonnaise, and the flavor of the refined rapeseed oil of each Example and Comparative Example was evaluated.

The mayonnaise was produced by the following method.
In a food processor, 3 eggs, 45 g of rice vinegar, 5 g of salt, 2 g of mustard, 2 g of sugar and a little pepper were added and stirred for 10 seconds. Subsequently, 360 g of refined rapeseed oil of each example or comparative example was added little by little while stirring was continued. After the addition of purified rapeseed oil, the mixture was further stirred for about 3 minutes to obtain mayonnaise. The mayonnaise was included directly in the mouth and the flavor was evaluated. The results are shown in Table 1.

In addition, the evaluation criteria of flavor are as follows.
○ Well-balanced vinegar and oil flavor, no aftertaste × Vinegar flavor is strong, aftertaste remains

  As shown in Table 1, the refined rapeseed oil obtained from the production method of the present invention contains 172 ppm or more of α-tocopherol that can be displayed as a nutritional functional food label, and has a low content of trans fatty acid. Furthermore, the mayonnaise containing the refined rapeseed oil obtained from the production method of the present invention had a good flavor.

[Examples 6 and 7, Comparative Examples 5 and 6]
Rapeseed decolorized oil (manufactured by Nisshin Oillio Group Co., Ltd.) was deodorized using the deodorizer under the following conditions to obtain purified rapeseed oil of each Example and Comparative Example. Note that “device 1” and “device 2” referred to below are devices similar to “device 1” and “device 2” used in Examples 1 to 5 and Comparative Examples 1 to 4, respectively. .
Examples 6 and 7: Using “Apparatus 1” in Example 6 and “Apparatus 2” in Example 7, 220 ° C., degree of vacuum of 400 Pa (3 torr), 60 minutes, amount of steam blown 3.4 mass The rapeseed decolorizing oil and water vapor were contacted at%. This step corresponds to the “contact step” in the present invention.
Comparative Examples 5 and 6: Using “Apparatus 1” in Comparative Example 5 and “Apparatus 2” in Comparative Example 6, using 245 ° C., degree of vacuum of 400 Pa (3 torr), 60 minutes, steam blowing amount of 3.4 mass The rapeseed decolorizing oil and water vapor were contacted at%.

[Evaluation of flavor]
Based on the two-point preference test method, 20 panelists were allowed to select “preferred smell” and “low pungent odor” among the refined rapeseed oils of Example 6 and Comparative Example 5. For each of the refined rapeseed oils of Example 6 and Comparative Example 5, the number of panelists evaluated as “preferably smell” and the number of panelists evaluated as “less irritating odor” are shown in Table 2.

  Evaluation similar to the evaluation for the refined rapeseed oil of Example 6 and Comparative Example 5 was also performed for the refined rapeseed oil of Example 7 and Comparative Example 6. The results are shown in Table 2.

  As shown in Table 2, the refined rapeseed oil obtained from the production method of the present invention had a reduced odor and irritating odor and a good flavor.

[Example 8, Comparative Examples 7 and 8]
Rapeseed decoloring oil (manufactured by Nisshin Oillio Group Co., Ltd.) was deodorized under the conditions described in Table 3 using a deodorizing apparatus to obtain purified rapeseed oil of each Example and Comparative Example. Next, 800 g of each refined rapeseed oil was poured into a frying pan, and each refined rapeseed oil was fried by heating to 180 ° C. When the temperature reached 180 ° C., a part of each refined rapeseed oil was collected and subjected to the following evaluation.

[Evaluation]
(Α-tocopherol content and trans fatty acid content)
The content of α-tocopherol and the content of trans fatty acid in each collected rapeseed oil were measured in the same manner as in Examples 1 to 5 and Comparative Examples 1 to 4. The results are shown in Table 3.

(Analysis of odor components in each refined rapeseed oil)
2 g of each refined rapeseed oil was placed in a 20 ml vial, shaken for 10 minutes under heating at 180 ° C., and then analyzed for volatile components in the headspace by GC-MS. The analysis conditions are as follows <GC-MS analysis conditions>. As the amount of odor component, aldehydes in each refined rapeseed oil (acrolein, hexanal, cis-3-hexanal, trans-2-hexanal, octanal, trans-2-heptenal, nonanal, trans-2-octenal, trans, cis- 2,4-heptadienal, trans, trans-2,4-heptadienal, trans, cis-2,4-decadienal, trans, trans-2,4-decadienal, 2-decenal, 2-undecenal) and all odor components The AREA value of the total ion chromatogram (TIC) of (total volatile components) was calculated, and the relative value when the AREA value of Example 8 was “1” was calculated. The results are shown in Table 3.
<GC-MS analysis conditions>
GC-MS device: GC-MSD system (manufactured by Agilent Technologies)
Column: DB-WAX (60 m × φ0.25 mm × 0.5 μm)
Carrier gas: helium Column temperature: 35 ° C. (hold for 5 minutes) → 5 ° C./minute→240° C. (hold for 10 minutes)
MS detector: Scan analysis (29-500m / z)
Ion source: 230 ° C
Quadrupole: 150 ° C
Emission voltage: 70 eV

(Analysis by odor sensor)
The odor analysis of each refined rapeseed oil was performed using the odor identification sensor system FOX4000 (Alpha Moss Japan Co., Ltd.). About each refined rapeseed oil, it heated at 150 degreeC for 5 minute (s), sampled the head space, and analyzed by 18 sensors of FOX4000. As a result of the analysis, the sum of the numerical values obtained for each refined rapeseed oil was calculated, and the value of Example 8 was compared with the values of Comparative Examples 7 and 8. The obtained results are shown in Table 3 as relative values when the result of Example 8 is set to “1” (the higher the value, the greater the odor component in the refined rapeseed oil).

  As shown in Table 3, the refined rapeseed oil obtained from the production method of the present invention contains 172 ppm or more of α-tocopherol that can be displayed as a nutritional functional food label even after frying, and contains trans fatty acids. The amount is low. Furthermore, the refined rapeseed oil obtained from the production method of the present invention had a good flavor because the amount of odor components and the amount of aldehydes causing irritating odors were reduced even after frying. .

Claims (4)

A method for producing a refined rapeseed oil comprising a deodorization step of deodorizing rapeseed oil that has undergone a degumming step, a deoxidation step, and a decolorization step,
The deodorizing step includes a contact step of bringing rapeseed oil and water vapor into contact with each other at a temperature of 205 to 225 ° C. and a vacuum degree of 300 to 800 Pa for 53 to 100 minutes,
The upper limit of the temperature condition of the deodorizing step does not exceed 225 ° C,
The amount of the steam, Ri 2.5-5.0% by mass relative to the rapeseed oil,
The α-tocopherol content in the refined rapeseed oil obtained after the contacting step is 172 ppm or more,
A method for producing refined rapeseed oil.   The manufacturing method of the refined rapeseed oil of Claim 1 with which the said deodorizing process is performed with a tray type deodorizing apparatus. The manufacturing method of the refined rapeseed oil of Claim 1 or 2 whose refined rapeseed oil obtained after the said contact process is a material of an acidic emulsified food. With respect to the rapeseed oil, the rapeseed oil having undergone the degumming step, the deoxidation step, and the decolorization step at a degree of vacuum of 300 to 800 Pa for 53 to 100 minutes at a temperature condition of 205 ° C. or higher and the upper limit does not exceed 225 ° C. 2.5-5.0 contacting the mass% of water vapor, a method in which the content of α- tocopherol in the purified rapeseed oil after contact reduces the aldehyde in rapeseed oil, characterized in der Rukoto than 172 ppm.