JP6951822B2 - Manufacturing method of packaged tomato-containing beverage - Google Patents

Description

The present invention relates to a method for producing a packaged tomato-containing beverage, and more specifically, a method for producing packaged tomato juice.

In recent years, the demand for tomato juice has been increasing from the viewpoint of maintaining health. Non-Patent Document 1 defines tomato juice. Tomato juice refers to squeezed tomatoes, diluted concentrated tomatoes that have been returned to the squeezed state, and those to which salt has been added. Tomato juice refers to crushed tomatoes, squeezed, or strained to remove skins, seeds, etc. Concentrated tomatoes are tomatoes that have been crushed and squeezed, or strained to remove skins, seeds, etc., and then concentrated (excluding powdered and solid tomatoes) with a salt-free soluble solid content of 8%. The above. The only raw materials that can be used for tomato juice are tomatoes, concentrated tomatoes (hereinafter, these are referred to as "tomato raw materials") and salt.

Non-Patent Document 2 discloses a conventional method for producing tomato juice. The production method comprises a plurality of steps, but the main steps are compounding, sterilization and filling (above, Non-Patent Document 2). Specifically, the tomato raw material is blended into a blended solution. This formulation is
It is sterilized and filled as is (so-called "hot pack"). From the viewpoint of microbial control, the condition of the hot pack is that the pH of the preparation solution is low, preferably less than pH 4.50.

Japanese Agricultural Standards Articles 2 and 3 of processed tomato products (Ministry of Agriculture, Forestry and Fisheries) Latest Fruit Juice / Fruit Beverage Encyclopedia, page 232 (supervised by Japan Juice Association, published by Asakura Shoten Co., Ltd.)

The problem to be solved by the present invention is to raise the pH of the tomato raw material. According to the general recognition of those skilled in the art, the pH of the tomato raw material is about 4.2. However, according to the recognition by the inventors of the present application, the pH of the tomato raw material is increasing year by year, and the tendency is not limited to the tomato producing area. When the tomato raw material has a high pH (for example, pH 4.50 or higher), the hot pack condition is not satisfied. In other words, it is expected that the number of tomato raw materials that are unsuitable for hot packs will increase in the future.

A means for solving this problem is to lower the pH of the tomato raw material. In lowering the pH, the inventors of the present application focused on the large amount of metal ions contained in the tomato raw material. Examples of the metal ion are potassium ion, sodium ion, and calcium ion. Among these, the one with the highest content is potassium ion. Therefore, the inventors of the present application have diligently studied and found the exchange of the metal ion and the hydrogen ion.

Based on such a principle, the method for producing a packaged tomato-containing beverage according to the present invention constitutes.
pH reduction and hot pack. The packaged tomato-containing beverage is a tomato-containing beverage that is packaged in a container. A tomato-containing beverage is a beverage in which part or all of its raw materials are tomato juice. Tomato juice refers to tomato juice, concentrated tomato reduced juice, and similar processed tomato products.

The pH reduction is to lower and / or reduce the pH of the juice. The pH of tomato juice is
It will be reduced. When the pH is reduced, it is hydrogen ions that are supplied to the tomato juice. On the other hand, it is at least potassium ions that are removed from tomato juice. The pH of the pH-reduced tomato juice is less than 4.50, preferably less than 4.40, more preferably 4
.. It is less than 30.

Hot pack means filling (sealing) the heat-sterilized juice as it is. The advantage of hot packs is the maintenance of the flavor of the juice. The pH-reduced tomato juice or the mixed juice containing the tomato juice is hot-packed. The pH of the hot-packed tomato juice or mixed juice is 4.50.
It is less than, preferably less than 4.40, more preferably less than 4.30.

What the method for producing a packaged tomato-containing beverage according to the present invention enables is to increase the choice of tomato raw materials used.

Manufacturing process diagram of the packaged tomato-containing beverage according to the present embodiment Conventional manufacturing process diagram of packaged tomato-containing beverage PH reduction process diagram according to this embodiment PH reduction process diagram according to this embodiment

<Overview of the method for producing a packaged tomato-containing beverage according to the present embodiment>
FIG. 1 shows a manufacturing process of a packaged tomato-containing beverage according to the present embodiment. The method for producing a packaged tomato-containing beverage according to the present embodiment (hereinafter referred to as "the present production method") comprises pH reduction, preparation, sterilization, and filling. Included in the filling is a seal. Sterilization and filling are collectively referred to as "hot packs". On the other hand, FIG. 2 shows a conventional manufacturing process of a packaged tomato-containing beverage. The conventional manufacturing method comprises compounding, sterilization, and filling. That is, the feature of this manufacturing method over the conventional manufacturing method is pH reduction, which is carried out before the hot pack. It is incorporated herein by reference to explain these terms.
This is the content of the latest Fruit Juice / Fruit Beverage Encyclopedia, page 232 (supervised by the Japan Juice Association, published by Asakura Shoten Co., Ltd.).

<Principle of this manufacturing method>
The principle supporting this process is the exchange of metal and hydrogen ions. Examples of the metal ion are potassium ion, sodium ion, calcium ion, and magnesium ion. Here, Table 1 shows the content of metal ions in each item (Source:
Food Composition Table 2012 (Kagawa Nutrition University Publishing Department)). The listed items are all acidic foods, more specifically tomato foods and citrus foods. Corresponding to tomato foods are tomato fruits, tomato juice (unsalted) and tomato paste (unsalted). Valencia orange concentrated and reduced juice, grapefruit concentrated and reduced juice, are compatible with citrus foods.
And lemon juice. Comparing tomato foods and citrus foods, it is tomato foods that contain a relatively large amount of potassium ions. In tomato foods, the highest content of metal ions is potassium ions. From the above facts, the inventors of the present application focused on the abundance of metal ions derived from tomato, and more specifically, the abundance of potassium ions. That is, by removing potassium ions derived from tomatoes and supplying hydrogen ions, the pH of tomato juice, concentrated tomato reduced juice and similar processed tomato products is lowered.

<Beverage containing tomatoes in a container>
The packaged tomato-containing beverage is a tomato-containing beverage that is packaged in a container. A tomato-containing beverage is a beverage in which part or all of its raw materials are tomato juice. The tomato juice refers to squeezed tomato juice, reduced juice of concentrated tomato, and processed tomato products similar to these, and it does not matter whether or not they contain solid content. Examples of tomato-containing beverages include tomato juice, tomato mixed juice, concentrated tomato beverages, and more preferably tomato juice and concentrated tomato beverages. Both tomato juice and concentrated tomato beverages are beverages, and the raw material thereof is substantially only tomato. For the purpose of explaining these terms, the specification of the present application incorporates the contents of the Japanese Agricultural Standards (Ministry of Agriculture, Forestry and Fisheries) for processed tomato products.

<Function of packaged tomato-containing beverage>
In general, one function of packaged tomato-containing beverages is to prevent hypertension. One of the components that contributes to this function is potassium ion. From this point of view, it has been difficult for those skilled in the art to reduce the potassium ion content. On the other hand, what the inventors of the present application dare to adopt is to reduce the potassium ion content. Because, as mentioned above
This is because the higher pH of tomato juice was newly recognized. However, from a different point of view, the low potassium ion content is also an advantage. One of the things that kidney disease patients avoid is potassium-containing foods. If so, a reduced potassium ion content can be provided by a low potassium containerized tomato-containing beverage for patients with kidney disease.

<pH reduction>
pH reduction is to lower and / or reduce the pH of tomato juice. When the pH is reduced, it is hydrogen ions that are supplied to the tomato juice. On the other hand, what is removed from tomato juice is
At least potassium ions. The pH of the pH-reduced tomato juice is less than 4.50, preferably less than 4.40, more preferably less than 4.30, and even more preferably less than 4.26. In other words, it is the initial value of pH of tomato juice (value before pH reduction) that is equal to or exceeds these boundary values. The specific initial value expected in the future is 4.50 or more. The critical significance of the boundary value is the prevention of deterioration in hot-packed beverages. If the pH is less than 4.50 (preferably about 4.30),
This is because it is difficult for the bacteria that cause deterioration to survive. The method for reducing the pH will be described later.

<Hot pack>
Hot pack means filling and sealing heat-sterilized tomato juice as it is.
The advantage of hot packs is the maintenance of the flavor of the juice. The pH-reduced tomato juice or the mixed juice containing the tomato juice is hot-packed. The time for heat sterilizing these juices is short, specifically, 40 seconds to 60 seconds, preferably about 50 seconds. The temperature at which these juices are sterilized by heating is high, specifically, 100 degrees or higher, preferably about 120 degrees. The temperature at which the heat-sterilized tomato juice or mixed juice is filled is 90 degrees or higher. The container filled with these juices is not limited, but for example, it is a paper container, a PET container, or a can container.

<PH reduction method>
The pH reducing method may be sufficient if it exchanges metal ions and hydrogen ions. In the ion exchange, it is preferably the hydrogen ion supply source that is separated from the tomato juice, and the means for that is a plate-shaped or bag-shaped member. By providing such a gap, it becomes easy to manage the supplier. The means for embodying the ion exchange is a cation exchanger, preferably a cation exchange resin. An example of a cation exchange resin is a porous strong acid cation exchange resin (PK-216) manufactured by Mitsubishi Kasei Corp. That is, it is the tomato juice that comes into contact with the cation exchanger, which exchanges metal and hydrogen ions.

<Specific example of pH reduction 1>
FIG. 3 shows a specific example of pH reduction. The pH reduction is composed of diversion and cation exchange. The tomato juice is split and a part of it is prepared as it is. The rest is
The cations are exchanged to produce low pH tomato juice. Tomato juice and low pH tomato juice can be used with each other.
It is mixed to make a mixed juice. The pH of the mixed juice is lower than that of the original tomato juice. The pH of the mixed juice is less than 4.50, preferably less than 4.40, more preferably 4
.. It is less than 30, and even more preferably less than 4.26. The advantage of the specific example is p
It is easy to adjust H. That is, a desired pH value can be obtained by adjusting the mixing ratio of the low pH tomato juice and the tomato juice. At that time, the pH setting value of the low pH tomato juice is further lower than the desired pH value (for example, less than 3.0).

<Specific example 2 of pH reduction>
FIG. 4 shows a specific example of pH reduction. The pH reduction consists of diversion, pulp removal and cation exchange. The tomato juice is split and a part of it is prepared as it is. Pulp and serous fluid are obtained by removing the balance from pulp. The pulp is prepared as it is. Serous fluid is cation-exchanged to give low pH serous fluid. Tomato juice, pulp and low p
The H serous fluids are mixed with each other to form a mixed juice. The pH of the mixed juice is lower than that of the original tomato juice. The pH of the mixed juice is less than 4.50, preferably less than 4.40.
More preferably, it is less than 4.30, and even more preferably, less than 4.26. One advantage of the specific example is the ease of cation exchange. Another advantage is the ease of recovery of the cation exchanger. In the above, the method for removing pulp may be a known method, but an example is a centrifugation method.

<Example>
What this embodiment has adopted is the present production method, and the pH reducing method thereof is Specific Example 2. In this example, it is the reduced juice of tomato paste that embodies the tomato juice (A). On the other hand, serous fluid and pulp were obtained by removing the pulp from the tomato juice (A). The low pH serous fluid (B) was obtained by cation exchange of this serous fluid. The samples described below were obtained by blending tomato juice (A), low pH serous fluid (B) and pulp.

Table 2 shows the physical characteristics of tomato juice (A) and low pH serous fluid (B). Tomato juice (A
), The initial value of the pH was 4.27. The potassium ion content was 216 mg / 100 g. In addition, the sodium ion content is 4.9 mg /
It was 100 g. On the other hand, for the low pH serous fluid (B), its pH was 2.23.
The potassium ion content was 38 mg / 100 g. Furthermore, the sodium ion content was 3.1 mg / 100 g. Among metal ions, potassium ion has the largest rate of change. On the other hand, the one with the smallest rate of change was sodium ion.

In the above, the method for measuring each physical property value and its conditions are as follows.
<Sugar content> The sugar content measuring device used in this measurement is a refractometer (manufactured by NAR-3T ATAGO). The product temperature at the time of measurement was 20 ° C.
The pH meter used for <pH> measurement is a pH meter (pH METER F-52 HOR).
Made by IBA). The product temperature at the time of measurement was 20 ° C.
<Acid content> The acid content calculation method used in this measurement was a titration method using a 0.1N sodium hydroxide standard solution, and was calculated by converting the titration value into citric acid equivalent.
<Organic Acid Composition> The method for measuring the organic acid (citric acid, malic acid) used in this measurement is an HPLC method using a liquid chromatograph (L-7000 series manufactured by Hitachi, Ltd.).
The HPLC measurement conditions are as follows. As the analysis sample, a sample obtained by diluting and suspending with ultrapure water and filtering with a filter was used.

Column: GL-C610H-S 7.8 mm I. D. × 300 mm (GL Sc
(manufactured by ieense)
Mobile phase: 3 mM perchloric acid reaction solution: 0.1 mM BTB, 15 mM Na2HPO4, 2 mM NaOH
Liquid volume: mobile phase (0.5 ml / min), reaction liquid (0.5 ml / min)
Measurement wavelength: 440 nm
Column temperature: 50 ° C
Sample injection volume: 10 to 30 μl
Detector: UV-VIS Detector L-7420 (manufactured by Hitachi, Ltd.)

<Measurement method of metal ions>
The method for measuring metal ions used in this measurement is Agilent 7500cx (Agil).
It is an inductively coupled plasma mass spectrometry method (ICP-MS method) using (manufactured by ent). ICP-
The measurement conditions of the MS method are as follows. As the analysis sample, a sample decomposed by a microwave wet decomposition apparatus (MLS-1200MEGA Milestone General Co., Ltd.) was used.

RF power; 1500W
Carrier gas flow rate; 0.9 L / min
Makeup gas flow rate; 0.17 L / min
Measurement method: Internal standard method

Table 3 shows the mixing ratio of tomato juice (A) and low pH serous fluid (B) in each sample, and the physical property values. Of the samples, the comparative example shows conventional tomato juice. In the comparative example, the pH was 4.27. The potassium ion content is 216 m.
It was g / 100 g. Furthermore, the ratio of potassium ion content to sodium ion content (K + / Na +) was 44.1. Here, the sodium ion content is used as the denominator because, as described above, the rate of change is the smallest and is suitable for comparison criteria.

On the other hand, the inventions 1 to 5 show tomato juice produced by this production method. In the products 1 to 5 of the present invention, the pH was 3.86 to 4.26. The potassium ion content was 180 mg to 215 mg / 100 g. Furthermore, the ratio of potassium ion content to sodium ion content (K + / Na +) is 39.7 to 44.
.. It was 0.

<Specifications of a Beverage Containing Tomato in a Container According to the Present Invention>
The specifications of the packaged tomato-containing beverage derived from the examples are in the pH range described below and in the range of the ratio of the potassium ion content to the sodium ion content (K + / Na +). The pH range is less than 4.50, preferably less than 4.40, more preferably less than 4.30, and even more preferably less than 4.26. The ratio of the potassium ion content to the sodium ion content (K + / Na +) is less than 44.1, more preferably less than 44.0. In the ratio of the potassium ion content to the sodium ion content (K + / Na +), the potassium ion content is less than 216 mg / 100 g, more preferably less than 215 mg / 100 g. In this way, the reduction in the potassium ion content makes it easier for patients with kidney disease to pick up.

Fields in which the present invention is useful are beverages containing tomatoes in containers and processed tomato products for patients with kidney disease.

Claims (4)

A method for producing low pH tomato juice, which is composed of at least the following steps:
Dividing: It is tomato juice that is diverted and has a pH of 4.5 or higher, so that the first tomato juice and the second tomato juice are obtained, and
Pulp removal: Only one of the first tomato juice and the second tomato juice is removed, which results in tomato serous fluid and
pH reduction: It is the tomato serous that is pH reduced. The manufacturing method according to claim 1.
The method for reducing the pH of the tomato serous fluid is cation exchange. The manufacturing method according to claim 1 or 2.
Hydrogen ions are supplied to the tomato serous fluid, and
At least potassium ions are removed from the tomato serous fluid. The manufacturing method according to claim 3.
Further removed from the tomato serous is sodium ions.

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