KR101124152B1 - Benzopyrene reduced pressed oil manufacturing method - Google Patents

Abstract

The present invention is a benzopyrene harmful to the human body by minimizing contact or exposure to the air to prevent incomplete combustion by combining the skin and debris of the raw material of the raw material with oxygen in the distribution process of the compressed oil such as sesame oil or perilla oil The pressure-reducing oil can be effectively reduced, and the pressurized oil can be produced while maintaining the specific taste and color by carrying out the roasting process at high temperature, high pressure, high temperature and low pressure while reducing the roasting process time to the shortest time. In addition to supplying compressed milk with a secure taste and safety to the consumer, the production of compressed milk does not require a separate chemical treatment agent, which helps to reduce the increase in manufacturing costs and to further expand or change production facilities. It can be applied easily without any Eliminating the cost, and provides a method for producing pressed oil benzopyrene the reduction that can increase the compression significant yield.

Description

Benzopyrene reduced pressed oil manufacturing method

The present invention relates to a process for producing compressed benzopyrene with reduced pressure, and more particularly, to prevent incomplete combustion in the process of combining compressed oil with oxygen in a roasting process during the process of manufacturing compressed oil such as sesame oil or perilla oil. By minimizing contact or exposure, compressed oil can be produced while maintaining a specific taste and color while effectively reducing the content of benzopyrene, a carcinogen that is harmful to the human body.

In general, benzo (a) pyrene (B (a) P), a kind of polycyclic aromatic hydrocarbons (PAHs), has already been identified as a carcinogen causing mutations more than 60 years ago, and these PAHs compounds are known as benzopyrenes. There are more than 200 isomers, and most of these compounds are non-polar compounds with high molecular weight and very low solubility in water, and have similar structural and physical properties. In particular, benzopyrene is a representative carcinogenic substance among PAHs compounds. It has been reported to cause skin cancer, lung cancer and bronchial cancer in various animal experiments. In Europe, cooking oil is managed at less than 2.0 ppb for cooking oil and less than 10 ppb in China, and WHO (International Health Organization) and LARC (International Cancer Institute) ) Is classified as a carcinogen (1A).

Benzopyrene is a kind of polycyclic aromatic hydrocarbon compounds (PAHs), which contains not only carbon and hydrogen, but also other elements such as nitrogen, sulfur, and oxygen, and has low solubility in water and good melting property in oil. Due to its decomposition characteristics, it is known to be caused by incomplete combustion of organic substances such as fuel combustion of automobiles, industrial processes, waste incineration, tobacco smoke, etc., and therefore, a considerable amount of air, water, soil, tobacco, plants, and foods. It is reported that benzopyrene is detected.

In food, it is produced by carbonization of fat and protein by high-temperature cooking, and it is known to be attached to food. Especially, benzopyrene is produced and detected in charcoal-grilled meat and smoked products. It has been reported that not only benzopyrene may be generated in processed foods and hot cooked foods, but also the smoked time, temperature conditions, and the like of smoked foods significantly affect the production of benzopyrene.

Sesame (Sesamum indicum L.), one of the raw materials for compressed milk, is one of the important food ingredients in the world. Sesame seeds contain 45-63% (average 55%) of oil, which is a major maintenance resource. Oil not only has a unique flavor, but also contains abundant natural antioxidants, so it is very stable for long-term storage, has excellent nutritional quality as a basic seasoning for eating, has a unique flavor of sesame oil, sesamine, etc. It is a food containing antioxidants, and it is particularly useful as a natural salad oil that can be produced without de- leading. It is used as cooking oil such as various cooking oils, margarine, and shortening, as well as medicinal and soap production. And also widely used as an insecticide supernatant.

In addition, pressurized oils such as sesame oil and perilla oil have a difference in quality depending on the manufacturer, and this difference is caused by the manufacturing process of the pressurized oil. In particular, it is due to roasting conditions, filtration conditions, and the like. It is known to be affected by the steaming process and the pressing process, and the difference in the quality of fragrance, color, etc., as well as the content of benzopyrene may be shown by the difference in the manufacturing process of the compressed oil, and the Korea Food and Drug Administration According to the survey results, many sesame oil products with benzopyrene content in the sesame oil market exceeding 2ppb or less recommended by the EU have been reported to be nd-4.43ppb (nd: not detected-0.1 or less). .

Therefore, in order to solve the above problems, conventionally proposed techniques include various manufacturing methods such as minimizing benzopyrene that may occur in the roasting process by lowering the roasting temperature or using a blowing method through forced exhaust during the roasting process. Has been proposed. However, although the benzopyrene can be reduced by the conventionally proposed method, problems such as increasing the content of benzopyrene in order to maintain the peculiar taste and aroma of the compressed oil or to maintain the peculiar taste and aroma of the compressed oil are still present. Since it was a problem to be solved, it was desired to have a method of manufacturing compressed oil capable of effectively reducing the content of benzopyrene while maintaining the savory taste and aroma peculiar to the compressed oil to effectively solve these problems.

Accordingly, the present invention has been made to solve the above-mentioned conventional problems, the present invention is to provide a compressed air raw material is combined with oxygen in the roasting process during the manufacturing process of the compressed oil, such as sesame oil or perilla oil, so that incomplete combustion does not occur By minimizing the contact or exposure to benzopyrene, which is a carcinogen that is harmful to the human body, it can be manufactured in a state of maintaining the specific taste and color peculiar to compressed oil by carrying out the power distribution step at high temperature, high pressure, high temperature and low pressure. The purpose of the present invention is to provide a benzopyrene-reduced compressed oil production method capable of supplying compressed oil with a secure taste and safety to consumers.

According to an aspect of the present invention for achieving the above object, in the pressurized milk manufacturing method for producing a pressurized milk by going through a washing step, a drying step, a roasting step and a milking step of the raw material of the compressed oil such as sesame or perilla, In the process of the roasting process and the step of putting the pressurized milk raw material that has been completed the drying process for 50 to 70 minutes at 80 ~ 90 ℃ to the distribution pressure vessel, so that air does not penetrate inside the distribution pressure vessel Blocking and roasting the pressurized oil raw material in the pressure vessel for 15 to 25 minutes while maintaining the temperature at 130 to 150 ° C., and rapidly lowering the internal pressure of the pressure vessel for distribution. Provided is a benzopyrene-reduced pressurized milk manufacturing method, characterized in that the step of swelling and discharging the roasted pressurized milk raw material.

In addition, the pressure distribution vessel is characterized in that it further comprises the step of maintaining the distribution temperature 240 ~ 260 ℃ and the internal pressure of 5 ~ 7kg / ㎠.

In addition, the pressure vessel for power distribution is characterized in that it further comprises the step of maintaining the heat to 240 ~ 260 ℃ heat before the raw material is pressed.

The internal pressure of the pressure distribution vessel is controlled by a pressure controller.

On the other hand, according to another aspect of the present invention for achieving the above object, a pressurized milk manufacturing method for producing a pressurized milk by going through a washing step, a drying step, a roasting step and a milking step of the raw material of the pressurized milk such as sesame or perilla In the process of the power distribution process, the step of putting the pressurized oil raw material, the cleaning and drying process is completed in the distribution pressure vessel, blocking the air from penetrating the interior of the pressure vessel for distribution, and Dedicated pressure vessel is roasted for 15 to 25 minutes while maintaining the distribution temperature 240 ~ 260 ℃ and the raw material temperature of the pressurized milk raw material at 130 ~ 150 ℃, the inside of the pressure vessel for distribution vacuum pressure of 0.000001kg / ㎠ or less Benzopyrene-reduced compressed oil manufacturing method characterized in that the step of maintaining the step, and the step of discharging the roasted compressed oil raw material inside the pressure vessel for distribution This is provided.

In addition, the pressure vessel for power distribution is characterized in that it further comprises the step of maintaining the heat to 240 ~ 260 ℃ heat before the raw material is pressed.

The inside of the pressure vessel for distribution is maintained in a vacuum state by the operation of a vacuum pump, and the internal pressure of the pressure vessel for distribution is characterized in that it is controlled by a pressure controller.

As described above, the present invention minimizes contact or exposure to air so that the skin or debris of the raw material of the compressed oil is combined with oxygen in the distribution process of the compressed oil such as sesame oil or perilla oil to prevent incomplete combustion. It can effectively reduce the content of benzopyrene, a carcinogen that is harmful to the human body, and while maintaining the unique taste and color by carrying out the roasting process at high temperature, high pressure, high temperature and low pressure while reducing the roasting process time to the shortest time. The pressurized milk can be manufactured to not only supply the pressurized milk with a secure taste and safety to the consumer, but also suppress the increase in manufacturing cost because no additional chemical treatment agent is added during the pressurized milk production. Easy to apply without additional production facilities or changes In this way, it is possible to eliminate the cost burden due to new facility investment, and it is a very useful invention equipped with many advantages such as increasing the production yield of the compressed oil.

1 is a flow chart during the production of compressed oil according to the present invention
Figure 2 is a flow chart showing another embodiment when the pressurized oil production according to the present invention

Hereinafter, with reference to the accompanying drawings, preferred embodiments of the present invention for achieving the above object will be described in detail.

1 is a flow chart for the production of pressurized oil according to the present invention, and FIG. 2 is a flow chart showing another embodiment for the production of pressurized oil according to the present invention.

As shown in FIG. 1, the present invention provides a pressurized milk raw material in a pressurized milk manufacturing method for preparing a pressurized milk by performing a washing step, a drying step, a roasting step, and a milking step of a compressed milk raw material such as sesame or perilla. In order to proceed with the washing process and the drying process for 50 to 70 minutes at 80 ~ 90 ℃ and then the high pressure method, which is the dominant feature of the present invention, first, while the lid of the pressure vessel for distribution is opened inside After pressing the raw material into the pressurized oil, the lid is closed to seal the air to prevent penetration of the inside of the pressure vessel for distribution, and then the heat is applied to the pressure vessel for distribution to maintain a distribution temperature of 240 to 260 ° C. and a pressure controller. After roasting for 15 to 25 minutes while being pressurized to a pressure of 5 to 7 kg / cm 2 under the control of, by suddenly opening the lid of the pressure vessel for power distribution, the internal pressure is drastically dropped. After expanding and discharged the roasted compressed oil raw material therein, the expanded compressed raw material can be sequentially milked, settled, and packaged to produce compressed oil.

At this time, when manufacturing the pressurized oil according to the present invention, the reason for carrying out the roasting process in a high pressure state in which the pressurized oil raw material is put into a pressure vessel for distribution is sealed, when a roasting pot is used in the conventional roasting process. Since the raw material of the pressurized oil is exposed to air a lot, the debris and the skin of the pressurized oil raw material are combined with oxygen, which causes a lot of incomplete combustion, thereby increasing the content of benzopyrene, which is a carcinogenic substance. If the pressure vessel for distribution is carried out in a sealed state, the exposure of the compressed oil raw material to the maximum limit can be reduced to block oxygen, which promotes combustion, so that the phenomenon of incomplete combustion can be minimized. There is an effect that can be blocked.

In addition, unlike the conventional heating source is applied only the heating source, since the pressure and the heating source according to the present invention is applied at the same time compared to the existing distribution process time 30 to 40 minutes by about 15 minutes to shorten by a short time Since the roasting step can be completed, there is a unique effect of effectively reducing the generation of benzopyrene.

In addition, the existing roasting process is to reduce the production of benzopyrene by the roasting step is made at a low temperature (140 ~ 220 ℃) to reduce the production of benzopyrene, but has a disadvantage that does not have the savory taste and flavor peculiar to the compressed oil In the present invention, the benzopyrene can be reduced by shortening the time of the roasting process while the roasting process is performed at a high pressure of 5 to 7 kg / ㎠ in the pressure vessel to maintain the temperature of the pressure vessel at 240 to 260 ° C. At the same time, there is a characteristic that can maintain the unique flavor and aroma of compressed oil.

In addition, after the power distribution process is completed according to the present invention, the lid of the pressure vessel for power distribution is suddenly opened to rapidly drop the internal pressure, swells and discharges the compressed oil raw material roasted therein, and then proceeds with the milking process. Production yields can be improved to around 10% compared to conventional ones.

Hereinafter, the specific effects of the composition of the present invention will be described through concrete experimental data using sesame seeds in the raw material.

Distribution temperature condition
Benzopyrene
(Μg / kg) Savory taste indicator Blurry taste indicator Sesamolin
(Mg / kg) Sesamin
(Mg / kg) Sesamol
(Mg / kg) Pyrazine
(Mg / kg) Demethylpyrazine
(Mg / kg) General sesame oil
(Temperature 210 ℃) 1.67 1672.55 3069.62 56.56 21.45 11.04 Pressure vessel
(Temperature 180 ℃) 0.11 1701.33 3122.58 51.98 23.44 13.12 Pressure vessel
(Temperature 210 ℃) 0.32 2176.12 3822.40 66.21 15.35 4.87 Pressure vessel
(Temperature 240 ° C) 0.55 3187.03 5207.74 82.06 9.65 2.33

As shown in the comparison table of Table 1, the benzopyrene content and taste of the sesame oil and the conventional general sesame oil using the pressure vessel according to the embodiment of the present invention as a result, when the conventional general sesame oil at the time of the roasting temperature 210 ℃ Experimental results show that the content of benzopyrene (µg / kg) is 1.67, whereas the content of each benzopyrene is 0.11, when the roasting temperature is advanced to 180 ° C, 210 ° C and 240 ° C using the pressure vessel for distribution according to the present invention, respectively. By applying the present invention as 0.32, 0.55, it was found that the content of benzopyrene, which is a carcinogen, was significantly reduced compared to the conventional production method. Particularly, the benzopyrene content when the sesame oil according to the present invention was advanced to a roasting temperature of 180 ° C. during production This was found to be the most reduced.

In addition, when the conventional sesame oil was prepared at the roasting temperature of 210 ° C., the content of sesamoline and sesamine, which are savory taste indicators, was significantly lower than that of the present invention. The content of sesamoline and sesamin was the highest, and the content of sesamol, which is a taste indicator substance used in preparing conventional sesame oil, is higher than the roasting temperature of 180 ° C and 210 ° C but lower than the roasting temperature of 240 ° C according to the present invention. I could grasp it.

In addition, when the conventional sesame oil is prepared at a roasting temperature of 210 ° C., the content of the pyrazine, which is a light taste indicator material, is higher than the roasting temperature of 180 ° C. according to the present invention, and is the least at the roasting temperature of 240 ° C. according to the present invention. It can be seen that the content of dimethylpyrazine, which is a vivid taste indicator material, is increased after the roasting temperature of 180 ° C. according to the present invention when the conventional sesame oil is prepared at the roasting temperature of 210 ° C., the roasting temperature of 240 ° C. according to the present invention is increased. Was the least.

Distribution temperature condition
Color BCI
L a b General sesame oil
(Temperature 210 ℃) 94.42 ± 0.04 1.54 ± 0.06 6.96 ± 0.02 1.387 ± 0.001 Pressure vessel
(Temperature 180 ℃) 97.48 ± 0.05 0.87 ± 0.04 3.52 ± 0.02 0.743 ± 0.002 Pressure vessel
(Temperature 210 ℃) 95.21 ± 0.02 1.20 ± 0.04 4.32 ± 0.05 1.02 ± 0.002 Pressure vessel
(Temperature 240 ° C) 93.85 ± 0.04 1.74 ± 0.03 7.89 ± 0.03 1.574 ± 0.001

Brightness (L), redness (a; redness), yellowness (b; yellowness), browning color (BCI)

In addition, as shown in the comparison table of Table 2 above, when the color of the sesame oil produced by the pressure vessel according to the present invention and the color of the conventional general sesame oil was tested, when the conventional general sesame oil was produced at a roasting temperature of 210 ℃ Using the pressure vessel for power distribution according to the present invention, when the roasting temperature was advanced to 1800 ° C., 210 ° C. and 240 ° C., the brightness, redness, yellowness and brownness of sesame oil could be determined.

As can be seen in Table 2, the brightness of sesame oil became brighter when the roasting process was carried out at 240 ° C. in the pressure vessel according to the present invention, and the redness, yellowness, and brownness were found to be inherent in the color of sesame oil.

Therefore, basically, as described above, when the distribution process is carried out using the pressure vessel for distribution according to the present invention, while reducing the content of benzopyrene, which is a carcinogenic substance harmful to the human body, rather than the conventional general sesame oil production method, It is believed that sesame oil can be produced while maintaining the color. However, although the experiment was carried out by the pressure vessel of the present invention while maintaining the respective temperature differently, although the content of benzopyrene was slightly increased as the temperature is higher, considering the inherent taste, aroma and color of sesame oil comprehensively In comparison, it can be seen that it is preferable to proceed with the roasting process at the roasting temperature of 240 ° C.

Meanwhile, as shown in FIG. 2 as another embodiment of the present invention, in order to complete the washing and drying process of the pressurized oil raw material, and then proceed with the power distribution process in a low pressure manner, which is the dominant feature of the present invention, first, the pressure of the power distribution. In the state where the lid of the container is opened, pressurized oil raw material is introduced into the inside of the container, and then the lid is closed to seal the air to prevent penetration of the inside of the pressure vessel for distribution. Then, heat is applied to the pressure vessel for distribution. The temperature is 240 to 260 ° C., and roasted for 15 to 25 minutes while maintaining the raw material temperature of the compressed oil at 130 to 150 ° C.

At this time, when roasting the pressurized oil raw material, the inside of the pressure vessel for distribution is maintained at a vacuum pressure of 0.000001 kg / cm 2 or less. The inside of the pressure vessel for distribution is maintained in a vacuum state by the operation of a vacuum pump. The internal pressure of the distribution vessel is controlled by a pressure controller. When the pressure vessel is in a vacuum state, it is possible to minimize the generation of benzopyrene due to incomplete combustion by completely blocking the oxygen combined with the skin or debris of the compressed oil.

Then, when the roasting process of the raw material of the compressed oil is completed, the roasted compressed oil raw material is discharged from the inside of the pressure vessel for distribution, and the compressed oil raw material is sequentially milked, settled and packaged to proceed with the compressed oil. In another embodiment of the present invention as described above, the yield is lower than that of the embodiment of the present invention because the raw material is not expanded in the roasting process. Because of this it is possible to effectively reduce the production of benzopyrene than the embodiment of the present invention.

Distribution temperature condition
Benzopyrene
(Μg / kg) Savory taste indicator Blurry taste indicator Sesamolin
(Mg / kg) Sesamin
(Mg / kg) Sesamol
(Mg / kg) Pyrazine
(Mg / kg) Demethylpyrazine
(Mg / kg) General sesame oil
(Temperature 210 ℃) 1.67 1672.55 3069.62 56.56 21.45 11.04 Pressure vessel
(Temperature 180 ℃) 0.10 1526.28 2601.11 44.15 27.38 12.85 Pressure vessel
(Temperature 210 ℃) 0.18 1726.93 3270.67 60.17 18.15 9.44 Pressure vessel
(Temperature 240 ° C) 0.31 2013.55 4382.75 72.54 11.91 5.01

As shown in the comparison table of Table 3, when the benzopyrene content and taste of the sesame oil and the conventional general sesame oil using the pressure vessel according to another embodiment of the present invention was tested, when the conventional general sesame oil at the roasting temperature 210 ℃ Experimental results show that the content of benzopyrene (µg / kg) is 1.67, whereas the content of each benzopyrene is 0.10 when the roasting temperature is advanced to 180 ° C, 210 ° C and 240 ° C using the pressure vessel for distribution according to the present invention, respectively. By applying another embodiment of the present invention as 0.18, 0.31, it was found that the content of benzopyrene, which is a carcinogen, was significantly reduced compared to the conventional manufacturing method, and in particular, the sesame oil according to the present invention proceeded to a roasting temperature of 180 ° C. It was understood that the benzopyrene content was reduced the most.

In addition, when the conventional sesame oil is prepared at the roasting temperature of 210 ° C., the content of sesamoline and sesamine, which are savory taste indicators, is higher than 180 ° C. of the roasting temperature condition of the present invention, It is lower than 240 ℃, especially in the distribution temperature 240 ℃ according to the present invention was found to have the highest content of the sesamoline and sesamine, and also the content of sesamol which is a taste indicator material when preparing conventional sesame oil is the present invention According to the distribution temperature higher than 180 ℃, it could be understood that the distribution temperature is lower than 210 ℃ and 240 ℃.

In addition, when the conventional sesame oil is prepared, the content of pyrazine, which is a vivid taste indicator material, is increased after the roasting temperature of 180 ° C according to the present invention, and the lowest at the roasting temperature of 240 ° C according to the present invention. It can be seen that the content of dimethylpyrazine, which is a vivid taste indicator material, is increased after the roasting temperature of 180 ° C. according to the present invention when the conventional sesame oil is prepared at the roasting temperature of 210 ° C., the roasting temperature of 240 ° C. according to the present invention is increased. Was the least.

According to another embodiment of the present invention, in comparison with the embodiment, the benzopyrene content can be relatively reduced by lowering the conditions under which incomplete combustion between the raw material of pressurized oil and oxygen can occur in a vacuum state, but the roasting temperature is relatively low. When the temperature was less than 240 ° C., it did not appear to be effective in taste, fishy taste, etc., compared to general sesame oil. Therefore, in the case of maintaining the vacuum state of the roasting step of the present invention, the roasting temperature is determined to be 240 ° C or more while reducing the benzopyrene content while maintaining the unique flavor of sesame oil while minimizing fishy taste.

Claims (7)

In the pressurized milk manufacturing method for manufacturing the pressurized milk by going through the washing step, drying step, roasting step and milking step of the pressurized milk raw material such as sesame or perilla,
In the process of the roasting process and the step of putting the pressurized oil raw material that has been completed the drying process for 50 to 70 minutes at 80 ~ 90 ℃ in a pressure vessel for distribution,
Blocking air from penetrating the inside of the pressure vessel for distribution;
Roasting the product temperature of the pressurized oil raw material in the pressure vessel for 15 to 25 minutes in a state maintained at 130 ~ 150 ℃,
Benzopyrene-reduced compressed oil manufacturing method characterized in that the step of rapidly lowering the internal pressure of the pressure vessel for power distribution to expand the discharged raw material squeezed inside.
The method of claim 1, wherein the pressure vessel for distribution further comprises the step of maintaining the distribution temperature 240 ~ 260 ℃ and the internal pressure of 5 ~ 7kg / ㎠ the benzopyrene reduced compressed oil manufacturing method.
According to claim 1 or 2, wherein the pressure vessel for the distribution of benzopyrene-reduced compressed oil, characterized in that it further comprises the step of maintaining the heat to 240 ~ 260 ℃ heat before the raw material is pressed Way.
The method of claim 1, wherein the internal pressure of the pressure vessel for power distribution is controlled by a pressure controller.
In the pressurized milk manufacturing method for manufacturing the pressurized milk by going through the washing step, drying step, roasting step and milking step of the pressurized milk raw material such as sesame or perilla,
Injecting the pressurized oil raw material completed washing and drying process in the distribution vessel during the power distribution process,
Blocking air from penetrating the inside of the pressure vessel for distribution;
The pressure vessel for roasting and roasting for 15 to 25 minutes in a state in which the distribution temperature 240 ~ 260 ℃ and the pressurized milk raw material product temperature is maintained at 130 ~ 150 ℃,
Maintaining the inside of the pressure vessel for power distribution at a vacuum pressure of 0.000001 kg / cm 2 or less;
Benzopyrene reduced compressed oil manufacturing method characterized in that the step of discharging the roasted compressed oil raw material in the pressure vessel for the distribution.
The method of claim 5, wherein the pressure vessel for power distribution further comprises the step of maintaining the heat to 240 ~ 260 ℃ heat before the raw material for the pressurized oil benzopyrene reduced pressurized oil manufacturing method.
According to claim 5, wherein the interior of the pressure vessel for the distribution is maintained in a vacuum state by the operation of a vacuum pump, the pressure inside the pressure vessel for distribution is controlled by a pressure controller characterized in that the benzopyrene reduced compression Milk production method.

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