KR100894272B1 - Tenderization methods of meat using supercritical carbon dioxide - Google Patents

Abstract

The present invention relates to a method for increasing the year of meat using supercritical carbon dioxide, and more particularly to a method for improving the year of meat, comprising the step of treating supercritical carbon dioxide to meat. It is about the year promotion method of the.

According to the present invention, compared to the conventional method of increasing the flue by a physical method using a high-pressure gas, the newly selected method of increasing the supercritical carbon dioxide in the present invention is 10 minutes at 31.1 ° C. above 73 atm, which is the supercritical point of carbon dioxide in meat. By treating the supercritical carbon dioxide during, it was confirmed that a distinctly softening effect can be obtained compared to the untreated meat. Therefore, this effect is expected to be used to produce high quality processed meat.

Supercritical carbon dioxide, supercritical point, meat, seasoned pork, year

Description

Tenderization methods of meat using supercritical carbon dioxide

The present invention relates to a method for increasing the year of meat using supercritical carbon dioxide, and more particularly, to a method for improving the year of meat, comprising the step of treating supercritical carbon dioxide to meat. It is about a method.

Recently, in terms of domestic food consumption, consumer preference is shifting from the existing quantity to quality-oriented diets, and consumption of fresh meat and seasoned meat is also increasing. The year of meat is one of the most important meat items considered by domestic and foreign consumers in sensory evaluation. Various methods are used to improve the year of meat. Currently, most vegetable softeners such as papain, bromelain, and ficin are used as a softener. Currently, most powdered softeners produced by extracting and purifying vegetable protease are imported from Korea. It is being used. However, in the present invention, by applying the physicochemical properties of supercritical carbon dioxide, it is possible to obtain the effect of the tender effect of seasoned pork without the addition of a softener.

Supercritical fluid refers to carbon dioxide that exists in the non-liquid or gaseous state above a critical point of a substance and does not liquefy further under high pressure (Ely and Baker, 1983; Stahl, 1987). Conventional high-pressure treatment resulted in meat rearing effect. However, the supercritical carbon-based rearing effect uses the physical and chemical properties of supercritical carbon dioxide compared to the high-pressure gas in general atmosphere. It is an advantage that good results can be obtained even with relatively low levels of pressure and temperature, which are important process variables. In the present invention, when the soy sauce and red pepper paste seasoned meat is treated for 10 minutes at 73 atm atmospheric pressure, 31.1 ° C., which is the supercritical point of carbon dioxide, it is possible to obtain a distinctive effect of increasing the seasoned meat.

The method of adding the softener of meat for softening is softening through hydrolysis of the protein that envisions meat, and the degradation products due to the hydrolysis of protein remain in the meat product and play a negative role in the sensory aspect of the meat product. And physical techniques to treat high hydrostatic pressure in meat products generate heat. This is an important nutrient of meat products and causes a deterioration of protein that is weak to heat, there are many disadvantages to apply to meat.

Accordingly, the present inventors have made intensive research to overcome the problems of the prior art, when the meat is processed by using the physical and chemical properties of the supercritical carbon dioxide fluid, it is possible to enhance the year without changing the sensory quality of seasoned meat After confirming, the present invention was completed.

Therefore, the main object of the present invention is to provide a method for increasing the year of meat using supercritical carbon dioxide that can give a year enhancement effect while maintaining the original quality of meat.

According to an aspect of the present invention, the present invention provides a method for increasing the meat content comprising the step of treating supercritical carbon dioxide to meat. The meat of the present invention refers to all types of meats that are fresh and refrigerated or frozen. The meat of the present invention corresponds to the meat of which quality can be improved as the year increases, such as beef and pork. . In addition, the meat of the present invention also includes seasoned meat, such a seasoned meat includes a process of making a general seasoned meat, that is, aging process to infiltrate the seasoning by using soy sauce or chili sauce seasoning in fresh meat.

In the present invention, the limit point at which a substance can exist in equilibrium in the gas or liquid phase is called a critical point. Supercritical fluid refers to a fluid that is artificially deformed from two-sided properties different from ordinary gases and liquids by adjusting above critical pressure and critical temperature. Supercritical fluids have intermediate properties between gas and liquid and have the property of changing density, solubility, etc. according to slight pressure and temperature without phase change. Supercritical carbon dioxide used in the present invention refers to carbon dioxide that is present in a state in which carbon dioxide is not a liquid or a gas above a critical point, and does not liquefy even under high pressure.

In other words, in FIG. 3, the point where the temperature 31.1 ° C. and the pressure 73 atm meet is a critical point. If the temperature and pressure of the carbon dioxide is 31.1 ℃ or more and 73 atm or more, respectively, supercritical carbon dioxide is not present in a gas or liquid state but in an intermediate state. For example, if the temperature of carbon dioxide is 31.1 ° C and the pressure is 73 atm or more, it is present in supercritical. If the pressure is 73 atm and the temperature is above 31.1 ℃, it exists in supercritical state. Such supercritical carbon dioxide has conventionally been used in various fields as a pollution-free extraction solvent, but in the present invention, the method for increasing the meat content using supercritical carbon dioxide is disclosed for the first time. The supercritical carbon dioxide penetrates between the cell membranes and the cell membranes and softens the tissues, thereby exhibiting the flue-forming effect of the present invention.

In the method of the present invention, the supercritical carbon dioxide can be achieved by treating the critical point at a critical point of 73 atm, 31.1 ° C. or more for an appropriate time, but preferably, the temperature of 31.1 ° C. to 35 ° C. and 73 to It can be treated for 5-20 minutes at a pressure of 150 atm, and considering the economic efficiency for industrial application along with the effect of increasing the meat year, it is more preferable to treat it for 5 to 20 minutes at a pressure of 73 to 150 atm at 31.1 ℃. . That is, if the temperature is 31.1 ° C and the pressure is 73 atm or more, carbon dioxide is present in a supercritical state. In the present invention, because the treatment of supercritical carbon dioxide in meat, the temperature is set to 31.1 ℃ to minimize the thermal deterioration of meat products, the pressure is 73 atm, the lowest pressure that can exist in the supercritical state in consideration of economic process variables Was set. Importantly, the lowest possible conditions for supercritical conditions are 31.1 ° C and 73 atm.

In the present invention, the supercritical carbon dioxide provided for the treatment of the meat of the present invention may be at any temperature and pressure state at which carbon dioxide in a gas or liquid state can reach a supercritical state, but is usually conventional in the art. It is suitable that it is the temperature of 31.1 degreeC and the pressure of 73atm or more which are the critical points recognized. Specifically, as mentioned above, it is preferable that the temperature is 31.1 ° C to 35 ° C and the pressure is 73 to 150 atm.

In the method of the present invention, the meat may be used in any consumption type of meat that can treat supercritical carbon dioxide, such as beef, pork or seasoned meat thereof, but preferably seasoned pork, more preferably soy sauce. Seasoned pork or gochujang seasoned pork is suitable.

Hereinafter, the present invention will be described in more detail with reference to Examples. Since these examples are only for illustrating the present invention, the scope of the present invention is not to be construed as being limited by these examples.

As described above, according to the present invention, when the supercritical carbon dioxide treatment is applied to the meat, it is possible to give a distinct year enhancement effect, and the meat quality and sensory quality variation without supercritical carbon dioxide are not applied during practical use, while maintaining the original meat quality. It can give a year improvement effect. In addition, since the physical and chemical properties of the supercritical carbon dioxide fluid are utilized, even if the pressure and temperature, which are important process variables, can be relatively low, a significant increase in effect can be obtained, thereby improving energy efficiency of the process through energy saving.

Example 1 Preparation of Seasoned Pork Samples

Seasoned pork was prepared using a 4: 1 ratio of pork and seasoning, and then used after aging for 24 hours to allow the seasoning to soak. Pork was used in the normal distribution pork fillet and seasoning was prepared in the content of Table 1.

TABLE 1 Additives Content of Soy Sauce and Red Pepper Paste

Example 2 Treatment of Supercritical Carbon Dioxide in Seasoned Pork

Put the seasoned pork inside the extractor of the supercritical carbon dioxide system (see Fig. 1) and keep the carbon dioxide in a supercritical state with the temperature of liquefied carbon dioxide at 31.1 ° C and the pressure at 73 atm, 120 atm, and 150 atm. Treated for a minute. After that, the shear force was measured and sensory analysis was performed to measure the year.

Example 3. Year Analysis of Seasoned Pork Treated with Supercritical Carbon Dioxide

The method of measuring shear force is the most widely used method of analyzing the year of meat. In the present invention, a shearing cutting test was performed to measure the age of seasoned pork. Shear force was measured using Instron (Series IX, USA). At this time, the sample was cut to have a thickness of 10 mm and a diameter of 50 mm to be parallel to the muscle fibers. Analysis conditions were set to chart speed 120 mm / min, maximum load 10 kg, measurement speed 20 mm, sample height 20 mm, adapter No. 4, and the like. Measurements were repeated 15-20 times per sample for accuracy.

TABLE 2 Shear Force Changes of Seasoned Pork with Supercritical Carbon Dioxide

Significance level: * P <0.05

There is a statistically significant difference in the a-b notation (P <0.05).

Two kinds of seasoned pork were tested to confirm the effect of increasing the year on the supercritical carbon dioxide treatment of seasoned pork. Supercritical carbon dioxide was treated at a temperature of 31.1 ° C. for 10 minutes, and the pressure was increased from 73atm to 120atm and 150 atm, which was the supercritical point of carbon dioxide. The shear force of soy sauce was lower at 120 atm and 150 atm than at control (P <0.05). Kochujang seasoned meat showed significantly lower shear force at 73atm and 120atm than the control. In the case of soy sauce seasoning used in the present invention was able to confirm the year enhancement effect from more than 120atm pressure, in the case of chili sauce seasoning was confirmed from 73atm, the supercritical point pressure of carbon dioxide. That is, in the case of soy sauce seasoned meat, it was possible to confirm a clear year enhancement effect when treated with a pressure of 120 atm or more supercritical carbon dioxide. have.

Example 4 Sensory Analysis of Seasoned Pork Treated with Supercritical Carbon Dioxide

The sensory evaluation of seasoned pork was made with a 5-point preference scale (5 = best, 1 = worst) for juiciness, meat color, flavor, and overall preference. The panelists selected 15 trained participants repeatedly. In order to eliminate prejudice from the sample numbers, the arrangement of samples was carried out by displaying three-digit numbers obtained by using random numbers. The sample was heated until the core temperature reached 71 ° C., cooled at room temperature for 1 minute, and then cut into about 2 × 2 cm. The mouth was rinsed with drinking water and evaluated. This is to verify the practicality of supercritical carbon dioxide-treated seasoned pork by performing sensory tests on flavor, appearance and juiciness according to the supercritical carbon dioxide treatment of seasoned pork.

Sensory quality variation of seasoned pork can be an important selection criterion when purchasing. Therefore, in the present invention, by analyzing the sensory characteristics of the supercritical carbon dioxide-treated seasoned meat and untreated seasoned meat, it was confirmed that the supercritical carbon dioxide-treated seasoned pork has no difference between the untreated seasoned meat and the sensory quality, An embodiment of the present invention has been presented as a means for checking the practicality. In the present invention, the effect of the quality variation of seasoned pork on consumer preference is presented in Table 3 and Table 4 through the sensory test.

TABLE 3 Sensory Analysis of Supercritical Carbon Dioxide Treated Soy Sauce

Results are expressed as mean ± standard deviation.

^a measure of 1 = almost none, very pale, very unpleasant, very bad; Scale 5 = very succulent, very crimson, very good, very good.

Juicyness of meat products, along with the age, is the fastest criterion for judging its quality. Example presented in the present invention confirmed that the juiciness of supercritical carbon dioxide treated seasoning meat is not different from the control. Meat color is an important factor that serves as a reference when consumers judge the quality of fresh meat and meat products. In the case of seasoned meat, the color of the seasoning is involved in the meat color variation of the whole meat, but if the degree of variation is large, consumer preference may be reduced. Therefore, this sensory analysis aimed to confirm the color stability of seasoned meat by examining consumer's color preference. The meat color preferences of soy sauce and red pepper paste sauce were found to be almost unaffected by supercritical carbon dioxide treatment conditions. In addition, it was confirmed that the treatment of supercritical carbon dioxide did not affect the sensory quality variation of seasoned pork because there was no significant difference among the treatment groups in the flavor and season preference analysis.

Therefore, when supercritical carbon dioxide is applied to seasoning meat in consideration of consumer's preference, it was confirmed that soy sauce and red pepper paste seasoning can be processed under all treatment conditions (73 to 150 atm, at 31.1 ° C. for 10 min) of the present invention.

TABLE 4 Sensory Analysis of Kochujang Seasoned with Supercritical Carbon Dioxide

Results are expressed as mean ± standard deviation.

ascale 1 = almost none, very pale, very unpleasant, very bad; Scale 5 = very succulent, very crimson, very good, very good.

1 is an example of a supercritical carbon dioxide treatment system according to the present invention.

2 is a graph showing the change in shear force of seasoned pork according to the treatment pressure of supercritical carbon dioxide.

3 shows a phase balance diagram of carbon dioxide.

Claims (4)

The supercritical carbon dioxide method of increasing the meat comprising the step of treating the seasoned pork for 5 to 20 minutes at a temperature of 31.1 ℃ to 35 ℃ and a pressure of 73 to 150 atm. delete delete delete

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