JP2007110937A - Retort fluid food with high concentration and method for producing the same - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a retort fluid food with high concentration suppressed in generation of brown extraneous matter when subjected to retort sterilization in a production process of the retort fluid food with high concentration so as to keep its commercial value, not spoiling taste and flavor inherent in the food, and being encapsulated in a container such as a soft bag: and to provide a method for producing the food. <P>SOLUTION: The method for producing the retort fluid food with high concentration comprises encapsulating a highly concentrated fluid food composition with at least 1 kcal/ml in a packaging container, and replacing the head space of the container to a gas composition containing at least 80 wt.% of carbon dioxide followed by subjecting the food to retort sterilization. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to a high-concentration retort fluid food and a method for producing the same, and more particularly to a high-concentration retort fluid food that suppresses the formation of brown deposits during production and a method for producing the same. Moreover, this invention relates to the suppression method of the brown deposit | attachment produced | generated in manufacture of a high concentration retort fluid food.

  In recent years, a large number of so-called retort foods for the purpose of normal temperature distribution and long-term storage have been developed and spread on the market. Usually, microorganisms such as mold, yeast, and bacteria always adhere to or mix on the surface and inside of food, and when there is a lot of water, it causes decay and deterioration. At this time, by using steam or pressurized hot water and performing retort sterilization in which heat sterilization is performed under pressure exceeding 100 ° C., long-term storage at room temperature becomes possible.

  On the other hand, in order to provide efficient nutritional support for patients with gastrointestinal diseases and the elderly, various liquid foods with a high concentration of nutrients and high calories of about 1 kcal / ml have been developed. . Such a liquid food is known as a high-concentration retort liquid food packaged in a soft bag and sterilized by retort, and greatly improves the work efficiency in the clinical field.

  Such retort liquid foods containing soft bags were mainly developed at a composition of about 1 kcal / ml at the beginning of development. However, high-concentration types of about 1.5 kcal / ml have been commercialized in recent years due to technological innovation. The development of an ultra-high-concentration type of 2.0 kcal / ml is considered to enable more efficient nutritional supplementation.

  However, when manufacturing a high-concentration type liquid food, there is a problem that brown deposits are generated in a head space (air pocket) in a packaging container such as a soft bag during retort sterilization. This is because the absolute amount of the brown deposit increases as the content liquid, which is a future product trend, becomes a high concentration type. This brown deposit originates from the content liquid adhering to the head space in the container and is considered to be generated by thermal denaturation in the retort sterilization treatment.

  Although the brown deposits that occur in this way are derived from food, there is no problem in food hygiene, but brown foreign matter adheres, so that the commercial value is significantly impaired, the taste and content of the contents The flavor may change. Further, when the brown deposit is peeled off in the container, there is a possibility that a problem such as clogging of the peeled matter may occur in a nasal tube used in medical or nursing care.

  In addition, this phenomenon is less likely to occur in a rocking retort sterilizer, but it occurs remarkably in a stationary retort sterilizer. Generally, the swing-type retort sterilizer has a higher equipment cost than the stationary retort sterilizer, which increases the product manufacturing cost. Therefore, in order to keep the manufacturing cost low, it is preferable to use a stationary retort sterilizer, which requires an immediate solution to the problem. In the future, the occurrence of brown deposits is expected to become a problem even in a rocking retort sterilizer due to further higher concentration.

  On the other hand, for example, in Patent Document 1, a food and drink containing a carbon dioxide gas having a soluble saturation amount or less is filled and sealed in a gas shielding container in a completely gas-free state (a state in which no gas phase is contained in the container). A method for preventing rupture or breakage of the container due to positive pressure is described. However, there is no disclosure or suggestion about the suppression of brown deposits and the like.

JP-A-2-84133

  Therefore, in the present invention, a container such as a soft bag that suppresses the occurrence of brown deposits during retort sterilization in the manufacturing process of high-concentration retort fluid food, maintains the commercial value, and does not impair the original taste and flavor of the food. It is an object of the present invention to provide a high-concentration retort fluid food encapsulated in and a manufacturing method thereof. It is another object of the present invention to provide a high-concentration retort fluid food that can produce a high-concentration type liquid food using a stationary retort sterilizer and a method for producing the same. Furthermore, this invention makes it a subject to provide the suppression method of the brown deposit produced | generated in manufacture of a high concentration retort fluid food.

  Therefore, as a result of intensive studies to solve the above-mentioned problems, the present researchers have replaced brown head deposits with a specific gas composition in the normal retort sterilization process by replacing the head space generated in the sealed packaging container with a specific gas composition. It has been found that the occurrence of the above can be remarkably suppressed, and the present invention has been completed.

  That is, the present invention is a high-concentration retort fluid food produced by enclosing a high-concentration liquid food composition of at least 1 kcal / ml in a packaging container and then sterilizing by retort, the headspace comprising at least 80% carbon dioxide. By providing a high-concentration retort fluid food characterized by performing retort sterilization after substituting with a gas composition comprising the above, the above-described problems can be solved.

  In the said high concentration retort fluid foodstuff, it is preferable that the said retort sterilization process is performed using a stationary retort sterilizer.

  At this time, it is preferable that the retort sterilization treatment is performed under a sterilization temperature of 120 ° C. or higher and a sterilization time of 3 to 30 minutes.

  As the shape of the packaging container for the high-concentration retort liquid food, a flat bag or a standing pouch is preferably used.

  Moreover, the said subject can be solved by providing a certain specific manufacturing method of a high concentration retort fluid food. That is, this invention is a manufacturing method of a high concentration retort fluid foodstuff, Comprising: The process which puts a high concentration fluid food composition of at least 1 kcal / ml in a packaging container, The head space contains at least 80% of carbon dioxide By the method for producing a high-concentration retort fluid food comprising the steps of substituting and sealing with a gas composition, and retort sterilizing the food composition after enclosing the packaging container at a predetermined temperature and for a predetermined time The problem can be solved.

  In addition, it is preferable that the retort sterilization process of the said method is performed using a stationary retort sterilizer.

  Moreover, it is preferable that the said predetermined temperature in the said retort sterilization process is 120 degreeC or more, and it is preferable that the said predetermined time is 3 to 30 minutes.

  The shape of the packaging container used in the above method is preferably a flat bag or a standing pouch.

  Moreover, this invention provides the suppression method of the brown deposit produced | generated in manufacture of a high concentration retort fluid foodstuff. The method for suppressing brown deposits of the present invention includes a step of enclosing a high-concentration fluid food composition of at least 1 kcal / ml in a packaging container, and retort sterilization of the food composition after enclosing the packaging container at a predetermined temperature and a predetermined time. In the method for producing a high-concentration retort fluid food comprising the step of: a head space generated in the packaged container after the encapsulation is replaced with a gas composition containing at least 80% carbon dioxide. .

  Even if it is a case where a high concentration type liquid food composition is employ | adopted by this invention, it becomes possible to suppress significantly generation | occurrence | production of the brown deposit | attachment at the time of the retort sterilization in the manufacture process. Thereby, it is possible to provide a high-concentration retort fluid food containing soft bags that maintains the commercial value of the high-concentration retort fluid food and does not impair the original taste and flavor of the food. Moreover, the manufacturing method which can manufacture the said liquid food can be provided.

  Furthermore, according to the present invention, it is possible to produce a high-concentration retort fluid food, particularly with a stationary retort sterilizer, and an increase in cost can be suppressed, resulting in a great economic effect.

  Hereinafter, the present invention will be described in detail, but the present invention is not limited to the individual forms described below. In the present specification, the term “food” is used to include both a food composition and a product in the form of a product in which the food composition is packaged, and each is interpreted as appropriate.

  The high-concentration liquid food of the present invention is applied to a food composition for oral or tube administration, and provides efficient nutritional supplementation mainly for patients with gastrointestinal diseases or the elderly. Is for. It is often used for pre- and post-operative nutrition management, especially in hospitalized patients. Such a liquid food is required to have a high concentration and a high calorie, has good digestion and absorption, and preferably contains three major nutrients of protein, lipid and carbohydrate, vitamins and minerals in a well-balanced manner.

  Proteins used in the liquid food composition of the present invention are not limited to these, but include, for example, animal proteins such as milk protein and meat protein, vegetable proteins such as soybean protein, and proteins including peptides and amino acids. Enzymatic degradation products and the like can be used alone or in any combination. It is preferable that the energy amount which occupies in the fluid food composition of protein is 10 to 30% of the total energy amount.

  The carbohydrate used in the liquid food composition in the present invention is not limited to these, but includes, for example, monosaccharides such as glucose and fructose, polysaccharides such as starch and dextrin, and oligosaccharides including disaccharides such as maltose and lactose. Can be used alone or in any combination. It is preferable that the energy amount which occupies in the fluid food composition of saccharides is 30 to 85% of the total energy amount.

  Examples of lipids used in the liquid food composition of the present invention include, but are not limited to, vegetable oils such as soybean oil, corn oil, cottonseed oil, perilla oil, coconut oil, and rapeseed oil, and animal oils such as beef tallow, pork fat, and fish oil. Synthetic triglycerides and the like can be used alone or in any combination. The amount of energy occupying in the liquid food composition of lipid is preferably 5 to 40% of the total amount of energy.

  In the fluid food composition of the present invention, as other components, for example, dietary fiber, vitamins, minerals, organic acids, organic bases, fruit juices, flavors and the like can be combined.

  The liquid food composition in the present invention is preferably 1 kcal / ml or more, more preferably 1.5 kcal / ml or more. If it is less than 1 kcal / ml, it is difficult to perform efficient nutritional supplementation, which is an object of the present invention.

  The viscosity of the fluid food composition in the present invention is preferably 5 to 100 cP, more preferably 5 to 30 cP.

  The performance required for packaging containers suitable for retort sterilization includes: a) conforming to food safety regulations stipulated by the Food Sanitation Act and FDA, b) tasteless and odorless. (Especially sealant, etc.), c) sufficient heat resistance against high temperatures during retort sterilization, d) complete sealing by heat sealing, etc. e) material strength (seal strength, piercing, pressure resistance, etc.) And a sufficient level, and f) excellent moisture resistance and oxygen barrier properties during distribution storage.

  As the packaging container used for the high-concentration retort fluid food of the present invention, a generally known multilayered retort packaging container can be used, and any material used for such a retort packaging container can be used. Any material can be used. Further, the shape of the packaging container is not particularly limited, and examples thereof include a flat bag, a standing pouch, a molding tray, and a molding cup. When a stationary retort sterilizer is used, in a packaging container that sterilizes while lying down sideways, the head space widens laterally in the container, and the liquid food composition to be filled and the container are always in contact with each other. The area that is not increased In this state, when the packaging container is laid sideways and subjected to retort sterilization, brown deposits tend to increase. Therefore, the present invention is preferably applied to a flat bag or a standing pouch.

  As the retort sterilization method applied in the present invention, a generally known method can be used. Although this invention is not limited to this, For example, as a temperature range, it is 100 to 140 degreeC, More preferably, it is 105 to 135 degreeC, More preferably, it is 120 to 130 degreeC, but becomes object. It can set suitably according to a food composition, a packaging container shape, etc. The sterilization time is about several seconds to about 400 minutes, although it varies depending on the applied temperature. For example, temperature and time conditions of 120 to 130 ° C. for 3 to 30 minutes are generally used.

  Retort sterilization is performed by a special device for retort sterilization, which can be roughly classified into a batch type and a continuous type. In particular, a significant improvement effect can be obtained in the stationary retort sterilization in the batch system in which the brown deposit to be solved of the present invention is remarkably generated.

  In this invention, it makes it a subject to suppress that a brown deposit arises in the head space in a retort packaging container at the time of retort sterilization. The “head space” referred to here is a space remaining on the top of the filled food when the retort packaging container is filled with the food composition and sealed. In general, this head space is processed so that air does not remain by performing a deaeration process before and after heat sealing, but it cannot be completely eliminated, and a space remains.

  The head space of a container for performing general retort sterilization is filled with nitrogen gas for various reasons. In the present invention, this space is filled with a gas composition containing at least 80% carbon dioxide. Replace. Thereby, generation | occurrence | production of a brown deposit can be effectively suppressed also in the retort sterilization using a stationary retort sterilizer. The gas composition containing carbon dioxide used in the present invention is required to be a gas composition containing at least 80%, preferably 90%, more preferably 95% carbon dioxide. May be 100%.

  When (head space capacity / (food composition amount + head space capacity)) is V, considering the water solubility of carbon dioxide, V before replacement of the gas composition is 3% to 40%, It is preferable that V after substitution and sterilization is 0% to 1%. However, if V before substitution is too large, the pH of the product may change greatly, which may adversely affect the flavor and physical properties. Therefore, the V before substitution is preferably 3% to 30%, more preferably 5% to 20%, and further preferably 5% to 15%.

  EXAMPLES Hereinafter, although an Example is given and this invention is demonstrated, this invention is not limited by these.

[Example 1]
A soft bag retort sterilization container having a maximum capacity of 400 ml was filled with 266 ml of water according to a conventional method. Two types of samples were prepared by replacing the headspace of this container with a carbon dioxide gas composition and a nitrogen gas composition, respectively, and they were designated as Sample 1 and Sample 2, respectively. About 10 minutes after the filling of the obtained sample, the capacity and composition of the head space were compared. The head space capacity at the time of filling was about 20 ml.

Sample 1: Head space capacity 8.0 ml
Sample 2: Head space capacity 20.0 ml

  In sample 1 using the carbon dioxide gas composition, the headspace capacity was drastically reduced as compared to sample 2. The composition of the carbon dioxide gas composition and the nitrogen gas composition in the head space was as follows.

[Gas composition of carbon dioxide gas composition]
CO ₂ : 91%, N ₂ : 7%, O ₂ : 2%
[Gas composition of nitrogen gas composition]
CO ₂ : 4%, N ₂ : 96%, O ₂ : 0%

[Example 2]
Subsequently, the actual high-concentration liquid food composition was filled, and retort sterilization was performed. The composition of the fluid food composition used is as follows.

[Ingredient composition]
Solid content: 34.4% by weight
Protein: 6.0% by weight
Lipid: 4.2% by weight
Carbohydrate: 23.2% by weight
Ash content: 1.0% by weight
Moisture: 65.6% by weight

[Composition composition]
MPC: 3.750% by weight
Na caseinate: 3.179% by weight
Dextrin: 20.755% by weight
Dietary fiber: 1.634% by weight
Zinc yeast: 0.009% by weight
Mineral yeast: 0.074% by weight
Selenium yeast: 0.002% by weight
Chrome yeast: 0.002% by weight
Manganese yeast: 0.040% by weight
Iodine yeast: 0.005% by weight
Pectin: 0.050% by weight
Sucrose: 1.000% by weight
Champignon extract: 0.050% by weight
Citric acid: 0.290% by weight
Potassium hydroxide: 0.215% by weight
Sodium chloride: 0.321% by weight
Monopotassium phosphate: 0.052% by weight
Ferrous sulfate: 0.007% by weight
Magnesium carbonate: 0.104% by weight
Calcium phosphate: 0.060% by weight
Vegetable oil: 3.888% by weight
Lecithin: 0.225% by weight
Flavor: 2.700% by weight
Sodium ascorbate: 0.549% by weight

[experimental method]
A soft bag retort sterilization container having a maximum capacity of 400 ml was filled with 266 ml (400 kcal) of the fluid food composition having the above composition. Two types of samples were prepared by replacing the head space of the container with a carbon dioxide gas composition and a nitrogen gas composition, respectively, and were designated as Sample 3 and Sample 4, respectively. About the obtained sample, the capacity | capacitance of a head space and the composition were compared before the sterilization process about 10 minutes after filling. The head space capacity at the time of filling was about 35 ml.

[Head space capacity]
Sample 3: 2.0 ml before sterilization (about 6% of filling)
1.5ml after sterilization (about 4% of filling)
Sample 4: 33.0 ml before sterilization
28.0ml after sterilization

  In the sample 3 using the carbon dioxide gas composition, the head space capacity was drastically reduced as compared with the sample 4. The composition of the carbon dioxide gas composition and the nitrogen gas composition in the head space was as follows.

[Gas composition of carbon dioxide gas composition]
CO ₂ : 85%, N ₂ : 12%, O ₂ : 3%
[Gas composition of nitrogen gas composition]
CO ₂ : 4%, N ₂ : 96%, O ₂ : 0%

After measuring the capacity and composition of the headspace, each sample was subjected to retort sterilization treatment (121 ° C., 9 minutes 30 seconds) using a stationary retort sterilizer. After the retort sterilization treatment, the amount of brown deposit generated in the head space was measured as the deposition area for Sample 3 and Sample 4. The area of the half surface of the container was about 250 cm ² . The results are shown below.

[Attached area]
Sample 3: 0 to ¹ cm ²
Sample 4: about 50 cm ² (about 20% of the half of the container)

  In the comparative sample 4, many brown deposits were observed, but in the sample 3 according to the present invention, there was no brown deposit. As is clear from the experimental results, it was found that the production of brown deposits can be greatly suppressed by the present invention.

  On the other hand, the pH after retort sterilization treatment of Sample 3 and Sample 4 was compared.

[PH after retort sterilization]
Sample 3: pH 6.80
Sample 4: pH 6.89

  About these samples, the flavor was further evaluated by a sensory test, but there was no influence on the flavor by carbon dioxide, and it was the same as before.

According to the present invention, the occurrence of brown deposits during retort sterilization in the production process of high-concentration retort fluid food is suppressed, the commercial value is maintained, and the original taste and flavor of the food are not impaired. A high-concentration retort fluid food enclosed in a container and a method for producing the same can be provided. In particular, a high-concentration type liquid food can be produced with a stationary retort sterilizer, and its economic effect is great.

Claims (9)

  A high-concentration retort fluid food produced by retort sterilization after enclosing a high-concentration fluid food composition of at least 1 kcal / ml in a packaging container, the gas composition comprising at least 80% carbon dioxide in the headspace A high-concentration retort fluid food characterized by performing retort sterilization after replacing with a product.   The high-concentration retort liquid food according to claim 1, wherein the retort sterilization treatment is performed using a stationary retort sterilizer.   The high-concentration retort fluid food according to claim 1 or 2, wherein the retort sterilization treatment is performed under a sterilization temperature of 120 ° C or higher and a sterilization time of 3 to 30 minutes.   The high-concentration retort fluid food according to any one of claims 1 to 3, wherein the shape of the packaging container is a flat bag or a standing pouch. A method for producing a high-concentration retort fluid food,
Placing a high concentration liquid food composition of at least 1 kcal / ml in a packaging container;
Replacing the headspace with a gas composition comprising at least 80% carbon dioxide and sealing;
A method for producing a high-concentration retort fluid food comprising a step of retort sterilizing the food composition after enclosing the packaging container at a predetermined temperature for a predetermined time.   The said retort sterilization process is performed using a stationary retort sterilizer, The manufacturing method of the high concentration retort fluid foodstuffs of Claim 5 characterized by the above-mentioned.   The said predetermined temperature in the said retort sterilization process is 120 degreeC or more, and the said predetermined time is 3 to 30 minutes, The manufacturing method of the high concentration retort fluid foodstuff of Claim 6 characterized by the above-mentioned.   The method for producing a high-concentration retort fluid food according to any one of claims 5 to 7, wherein the shape of the packaging container is a flat bag or a standing pouch. A method for suppressing brown deposits produced in the production of high-concentration retort fluid food,
Enclosing at least 1 kcal / ml high-concentration fluid food composition in a packaging container;
In the method for producing a high-concentration retort fluid food comprising the step of retort sterilizing the food composition after enclosing the packaging container at a predetermined temperature for a predetermined time,
A method for suppressing brown deposits, comprising replacing a head space generated in a packaging container after sealing with a gas composition containing at least 80% carbon dioxide.