JP2009033994A - Method for producing processed food for heating microwave oven - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a processed food produced from a raw material which contains frozen potatoes and/or frozen beans, and hardly bursting potatoes and beans when being heated with a microwave oven. <P>SOLUTION: A method for producing the processed food for heating microwave oven comprises soaking frozen potatoes of ≤50 mm square and/or frozen beans in a ≤80°C calcium aqueous solution of a calcium concentration of 19-162 mM, and heat treating at above 80°C, the frozen potatoes and/or frozen beans, or a raw material which contains the frozen potatoes and/or frozen beans. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  The present invention relates to a processed food for heating a microwave oven, which is manufactured from a raw material containing frozen potatoes and / or frozen beans, and is resistant to rupture of potatoes and beans when heated in a microwave oven.

Processed foods such as retort foods and chilled foods are usually prepared by cooking and sterilization (sterilization) by heat treatment in order to enable preservation for a certain period of time at normal temperature, chilled food, frozen food, and the like. In general, frozen vegetables and beans are used as raw materials for such processed foods.
The inventors of the present invention have obtained the knowledge that there are the following unique phenomena and problems in the process of manufacturing the processed food. That is, processed foods made with frozen raw materials, especially frozen potatoes and frozen beans, and when the temperature of the heat treatment for cooking, sterilization, etc. is higher than a certain temperature Compared to processed foods made from raw materials containing unfrozen potatoes and beans, and processed foods made from frozen potatoes and beans and heat-treated at a temperature lower than the above-mentioned temperature, clearly There was a problem that potatoes and beans were likely to burst when heated in a microwave oven.
In response to such problems, the product form when heating the microwave oven, such as a product form that does not scatter in the microwave oven even if the food ruptures, sterilize without using high-temperature heat treatment Although production under aseptic conditions is conceivable, these countermeasures are difficult to cope with in terms of technology and cost.
On the other hand, when processed food containing raw edible mushrooms was heated in a microwave oven, there was a problem that the mushrooms were easy to burst, but this included mushrooms that are difficult to burst when heated in a microwave oven. A processed food for heating a microwave oven and a method for producing the same are disclosed (Patent Document 1). In the manufacturing method, mushrooms are frozen and given a predetermined water absorption rate, thereby making it difficult to burst during heating in a microwave oven. In the case of mushrooms, it is considered that it is possible to make it difficult to rupture by letting the internal vapor escape from the crack formed in the cell tissue due to freezing damage during microwave heating.
However, potatoes and beans are not easily ruptured with potatoes and beans that have not been frozen, and potatoes and beans that are frozen (frozen) are susceptible to rupture. It is not possible to use this countermeasure. Freezing-treated potatoes and beans are more likely to burst when heated in a microwave oven because the intracellular starch is drained between cells due to freezing damage, and when heat treatment such as retort is applied in this state, the gelatinized starch is It is thought that this is a completely different phenomenon from the case of mushrooms because it is filled with cells and the tissue becomes dense, so that steam does not escape during microwave heating and it fills up and ruptures.
In this way, processed foods that are manufactured using raw materials including frozen potatoes and frozen beans and are resistant to rupture of potatoes and beans when heated in a microwave oven are desired, but the technology for producing such processed foods is It has not been developed so far.

JP 2006-223225 A

An object of the present invention is to provide a processed food that is manufactured from a raw material containing frozen potatoes and / or frozen beans and that is resistant to rupture of potatoes and beans during microwave heating.
An object of the present invention is to suppress the rupture of potatoes and beans that occur when a processed food using a raw material containing frozen potatoes and / or frozen beans is heated in a microwave oven.

The inventors have found that when frozen potatoes and frozen beans are processed with calcium by a specific method to produce processed foods, the processed foods are less likely to burst with potatoes and beans when heated in a microwave oven. The present inventors have invented a processed food for heating a microwave oven and a method for producing the same, which uses a raw material containing potatoes and / or frozen beans and is less likely to rupture potatoes and beans during microwave heating.
The method for producing such processed food for microwave heating is specifically as follows.

In the method for producing a processed food for microwave heating according to the present invention, a frozen potato having a size of 50 mm square or less and / or frozen beans is immersed in an aqueous calcium solution having a calcium concentration of 19 to 162 mM and 80 ° C. or less, and the frozen potato And / or a raw material containing frozen beans or frozen potatoes and / or frozen beans is heat-treated at a temperature exceeding 80 ° C.
In addition, potatoes and / or frozen beans can be thawed in whole or in part before being immersed in an aqueous calcium solution.
Preferably, the frozen potato and / or the frozen beans are frozen after being blanched under a condition that the core product temperature is maintained at 70 to 95 ° C. for 1 minute or longer.
More preferably, the blanching is performed under the condition that the core product temperature is maintained at 70 to 95 ° C. for 2 to 30 minutes or more.

ADVANTAGE OF THE INVENTION According to this invention, the processed food which is manufactured with the raw material containing frozen potato and / or frozen beans, and a potato and beans are hard to burst at the time of microwave oven heating can be provided.
In addition, according to the present invention, it is possible to significantly suppress the rupture of ingredients containing potatoes and beans during microwave heating, which is observed in processed foods using raw materials containing frozen potatoes and / or frozen beans.

The processed food for microwave heating of the present invention is a processed food using frozen potatoes and / or frozen beans, or raw materials containing these, and the potatoes and / or the beans or raw materials containing these during the manufacturing process. The one that has been heat-treated above 80 ° C. For example, retort food (curry, stew, etc.) that has been heated at room temperature, canned food, aseptic food, other packaged food, and mild heat treatment to enable storage for a certain period of time Examples include chilled foods distributed under refrigerated distribution conditions, frozen foods that are frozen and distributed after heating.
The processed food for microwave oven heating according to the present invention can be eaten as it is in the form of a container or packaging, or taken out from the container or packaging and heated in a microwave oven. Moreover, even if what can be heated also by heating means other than a microwave oven, such as a boil, depending on the case, you may eat without the need for a heating. In short, even in a form that can be eaten by other usages, all processed foods prepared by using frozen potatoes and / or frozen beans and subjected to heat treatment exceeding 80 ° C. are included in the present invention.

The processed food of the present invention contains frozen potatoes and / or frozen beans. In this specification, “freezing” means a state in which the whole or a part is frozen using a commonly used refrigeration technique or refrigeration means, for example, a batch refrigeration apparatus, a continuous IQF freezer, or the like.
Commercially produced frozen potatoes or frozen beans are usually frozen after being blanched to inactivate the enzymes contained in the vegetables to prevent degradation and discoloration during storage. It is common. Specifically, such blanching is performed by heating with hot water or steam under a condition that the central product temperature is maintained at 70 to 95 ° C. for 1 minute or more, preferably 2 to 30 minutes. As the frozen potatoes and frozen beans of the present invention, those frozen without blanching can be used, but those frozen after blanching are preferred.

Frozen potatoes and frozen beans are potatoes and beans that have been frozen from the raw state and then boiled in water (boiled in a wide range of conditions, including the above blanching) and then frozen. There may be. Moreover, you may use the beans which returned the beans which were once dried with water, and what boiled it.
In addition, frozen potatoes and frozen beans have a size of 50 mm square or less, preferably 9 mm square or more and 50 mm square or less, and those that are round or cut can be used.
The frozen potatoes may be any kind of potatoes frozen as long as they are normally eaten. For example, potato varieties commonly used in processed foods include Hoyohaku, Sayaka, Baron, Makein, No. 1 Norin.
Frozen beans can be used regardless of type or variety as long as they are normally eaten. Examples of types of beans that are generally used in processed foods include edamame, soybeans, red kidney beans (red kidney), chickpeas (galvanzo), red beans, peas (green peas), and broad beans.

Calcium used as an aqueous calcium solution in the present invention can be used regardless of its properties and types as long as it is in the form of a water-soluble salt that can be used in foods. Such water-soluble calcium salts may be used alone or in combination. Examples of water-soluble salts that can be used for generally distributed foods include calcium lactate and calcium chloride, but calcium lactate is preferably used in consideration of the influence of flavor on the raw materials.
As the aqueous calcium solution, a solution in which a water-soluble calcium salt is dissolved in water so as to have a calcium concentration of 19 to 162 mM can be used, and preferably a calcium concentration of 32 to 97 mM can be used. In addition, a substance other than the water-soluble calcium salt, such as a seasoning such as sodium glutamate, may be present in the calcium aqueous solution as long as it does not inhibit the effect of calcium immersion. It may be a pretreatment liquid such as a seasoning liquid.
Frozen potatoes and frozen beans are immersed in an aqueous calcium solution at a temperature of 1 to 80 ° C., preferably 20 to 70 ° C., for example for 1 to 120 minutes, preferably 5 to 60 minutes.
Immersion in an aqueous calcium solution can be performed by a commonly used apparatus or equipment.

Frozen potatoes and frozen beans are thawed in whole or in part by immersing them in an aqueous calcium solution, but they can also be soaked in an aqueous calcium solution after being completely or partially thawed.
In this specification, “thawing” means that a frozen potato or a frozen bean in a frozen state is totally or partially unfrozen.
Thawing is not particularly limited with respect to the thawing method and the heating heat source, and can be performed by a commonly used method. For example, it can be performed by thawing frozen potatoes or frozen beans in water at a temperature of 1 to 80 ° C, preferably 20 to 70 ° C. Moreover, it does not specifically limit about the kind of thawing | decompression apparatus, The batch type thawing | decompression using a thawing tank, continuous type thawing | decompression etc. can be utilized.

As described above, the processed food of the present invention includes a raw material containing frozen potatoes and / or frozen beans soaked in an aqueous calcium solution, alone or together with other raw materials such as sauces, soups, seasonings, and spices, as necessary. Cooked and packed in product containers (including retort pouches, molded containers, etc.) at temperatures above 80 ° C., preferably 90 ° C. to 130 ° C., more preferably 100 ° C. to 130 ° C. for 5 minutes or more, Preferably, it can be produced by heat treatment for 20 to 100 minutes. Alternatively, the raw material containing frozen potatoes and / or frozen beans may be cooked as needed alone or with other ingredients such as sauces, soups, seasonings, spices, etc. After application, it can also be produced by filling the product container under aseptic conditions. In addition, the processed food can be prepared as a chilled food or a frozen food by performing a heat treatment at a temperature exceeding 80 ° C. during the production process. When the intended cooking is substantially made only by heating by the heat treatment, the cooking prior to the heat treatment is not performed in order to prevent the fire and the texture of ingredients and sauces from being deteriorated. Also good.
As the manufacturing apparatus used for the above-described heat treatment, any apparatus that is normally used can be used regardless of the type as long as it does not lead to quality deterioration.
The processed food for heating a microwave oven of the present invention thus manufactured is in a cooked or semi-cooked state and can be heated using a microwave oven for reheating, finishing cooking, etc. And has the advantage that potatoes and beans contained in food are less likely to explode when heated in a microwave oven.
Further, the present invention will be specifically described by the following examples, but the present invention is not limited to the scope of the examples.

[Examples 1 to 11]
Calcium concentration after thawing cut potato (variety: Sayaka, size: 19mm x 19mm x 16mm dice) frozen after blanching at 85 ° C for 2 minutes and completely in running water at 40 ° C It was immersed in 65 mM calcium lactate aqueous solution at various temperatures for 30 minutes or 60 minutes (mass ratio of potato and calcium lactate aqueous solution was 1:10). After immersion, the water was turned off.
Subsequently, a total of 210 g of potato 50 g soaked in an aqueous calcium lactate solution and 160 g of curry sauce was filled in a retort pouch and subjected to a heat treatment at 122 ° C. for 24 minutes. After completion of the heat treatment, the contents were put into a dish and heated in a microwave oven (1600 W for 70 seconds), and the scale and frequency of potato rupture during heating were observed.
The experiment was performed in triplicate (N = 3), and the magnitude and frequency of rupture were determined according to the following evaluation criteria.
[Comparative Example 1]
Experiments similar to those in Examples 1 to 11 were performed except that the sample was not immersed in an aqueous calcium lactate solution. In other words, the thawed potato was filled into the retort pouch together with the curry sauce.

(Criteria for burst scale)
Large: There was a burst of loud popping that felt a little scary, and there was one or more bursts of potatoes or legumes scattered violently.
Medium: A somewhat loud pop, but not surprisingly. The degree to which potatoes or beans are scattered is mild. There was one or more bursts of the above.
Small: There is a small pop, but the potatoes or beans move up and down slightly in the sauce.
None: No rupture occurs.
(Rupture frequency)
Average number of bursts heard during microwave heating regardless of burst size (N = 3)

カルシウム水溶液に浸漬しない比較例１と比べ、実施例１〜１１では、２５〜７０℃の６５ｍＭカルシウム水溶液に３０〜６０分間浸漬することで、電子レンジ加熱の際の破裂の規模と頻度の両方を抑制することができた。 Table 1

Compared with Comparative Example 1 that is not immersed in a calcium aqueous solution, in Examples 1 to 11, both the magnitude and frequency of rupture during microwave heating were achieved by immersing in a 65 mM calcium aqueous solution at 25 to 70 ° C. for 30 to 60 minutes. I was able to suppress it.

カルシウム水溶液に浸漬しない比較例１や１０ｍＭカルシウム水溶液に浸漬した比較例２と比べ、実施例１２および１３では、３２ｍＭ〜４９ｍＭカルシウム水溶液に３０分間浸漬することにより、電子レンジ加熱の際の破裂の規模と頻度の両方を抑制することができた。 [Examples 12 and 13]
Except that the calcium concentration of the calcium lactate aqueous solution was 32 mM or 49 mM, an experiment was performed according to the same method as in Example 6, and the scale and frequency of potato rupture when heated in a microwave oven (1600 W 70 seconds) were observed. .
[Comparative Example 2]
The experiment was conducted according to the same method as in Example 6 except that the calcium concentration of the aqueous calcium lactate solution was 10 mM, and the scale and frequency of potato rupture when heated in a microwave oven (1600 W for 70 seconds) were observed.
Table 2

In Examples 12 and 13, compared to Comparative Example 1 that is not immersed in a calcium aqueous solution and Comparative Example 2 that is immersed in a 10 mM calcium aqueous solution, the scale of rupture during microwave heating by immersion in a 32 mM to 49 mM calcium aqueous solution for 30 minutes. And frequency could be suppressed.

カルシウム水溶液に浸漬しない比較例１と比べ、実施例１４においても、馬鈴薯の品種に関わらず、カルシウム水溶液に浸漬することにより、電子レンジ加熱の際の破裂の規模と頻度の両方を抑制することができた。 [Example 14]
The experiment was conducted in the same manner as in Example 6 except that the potato varieties were made rich, and the scale and frequency of potato rupture when heated in a microwave oven (1600 W for 70 seconds) were observed.





Table 3

Compared with Comparative Example 1 that is not immersed in the calcium aqueous solution, also in Example 14, it is possible to suppress both the magnitude and frequency of bursting during microwave heating by immersing in the calcium aqueous solution regardless of the variety of potato. did it.

カルシウム水溶液に浸漬しない比較例３〜５と比べ、実施例１５〜１７では、９ｍｍ角以上〜５０ｍｍ角以下の大きさの馬鈴薯をカルシウム水溶液に浸漬することにより、電子レンジ加熱の際の破裂の規模と頻度の両方を抑制することができた。 [Examples 15 to 17]
The experiment was performed in the same manner as in Example 1 except that the size of the potato was different, and the scale and frequency of potato rupture when heated in a microwave oven (1600 W for 70 seconds) were observed.
The size of the random cut was 16 mm square or more and 50 mm square or less.
[Comparative Examples 3 to 5]
The experiment was conducted in the same manner as in Comparative Example 1 except that the size of the potato was different, and the scale and frequency of potato rupture when heated in a microwave oven (1600 W for 70 seconds) were observed.
The size of the random cut was 16 mm square or more and 50 mm square or less.
Table 4

Compared with Comparative Examples 3 to 5 that are not immersed in the calcium aqueous solution, in Examples 15 to 17, the size of the burst at the time of microwave heating is obtained by immersing a potato having a size of 9 mm square to 50 mm square in the calcium aqueous solution. And frequency could be suppressed.

馬鈴薯をカルシウム水溶液へ浸漬する前に流水中で全部または部分的に解凍しなくても、カルシウム水溶液に浸漬することにより、電子レンジ加熱の際の破裂の規模と頻度の両方を抑制することができた。 [Examples 18 and 19]
The same method as in Examples 1 to 11 except that the frozen cut potato was immersed in an aqueous calcium lactate solution having a calcium concentration of 65 mM at 65 ° C. for 20 minutes or 40 minutes without performing full or partial thawing in running water. Experiments were conducted according to the above, and the scale and frequency of potato rupture when heated in a microwave oven (1600 W for 70 seconds) were observed.
Table 5

Even if potatoes are not fully or partially thawed in running water before immersing them in an aqueous calcium solution, by immersing them in an aqueous calcium solution, both the magnitude and frequency of bursting during microwave heating can be suppressed. It was.

レトルト処理（１２２℃、２４分間）よりも低い温度条件（９０℃以上）の加熱処理を行った実施例２０〜２２においても、カルシウム水溶液に浸漬することにより、電子レンジ加熱の際の破裂の規模と頻度の両方を抑制することができた。
尚、８０℃以下の加熱処理を行った比較例９〜１２では、カルシウム水溶液浸漬の有無に関わらず、電子レンジ加熱の際に馬鈴薯の破裂は起こらなかった。９０℃以上の加熱処理を行った比較例６〜８では、電子レンジ加熱の際に馬鈴薯の破裂が起こった。 [Examples 20 to 22, Comparative Examples 10 and 12]
The experiment was conducted in the same manner as in Example 1 except that the temperature and time of the heat treatment were changed, and the scale and frequency of potato rupture when heated in a microwave oven (1600 W for 70 seconds) were observed.
[Comparative Examples 6-9 and 11]
Except that the temperature and time of the heat treatment were changed, the experiment was conducted in the same manner as in Comparative Example 1, and the scale and frequency of potato rupture when heated in a microwave oven (1600 W for 70 seconds) were observed.
Table 6

In Examples 20 to 22 where heat treatment was performed under a temperature condition (90 ° C. or higher) lower than the retort treatment (122 ° C., 24 minutes), the scale of bursting during microwave heating by immersion in an aqueous calcium solution And frequency could be suppressed.
In Comparative Examples 9 to 12 where the heat treatment was performed at 80 ° C. or lower, potato bursting did not occur during microwave heating regardless of the presence or absence of the calcium aqueous solution immersion. In Comparative Examples 6 to 8 in which heat treatment at 90 ° C. or higher was performed, potato burst occurred during microwave heating.

各種冷凍豆類（レッドキドニー、ガルバンゾー、さやを除いた枝豆）を用いても、冷凍馬鈴薯の場合と同様、カルシウム水溶液に浸漬することにより、電子レンジ加熱の際の破裂の規模と頻度の両方を抑制することができた。
以上の実施例の結果から、本発明の方法によって製造される電子レンジ加熱用加工食品は、冷凍馬鈴薯や冷凍豆類を含む原料を用いていても、電子レンジ加熱の際に馬鈴薯や豆類が破裂しにくいという利点を有することが示された。 [Examples 23 to 25]
Various beans that were blanched at 82 ° C. for 5 minutes and then frozen were immersed in an aqueous calcium lactate solution having a calcium concentration of 65 mM at 25 ° C. for 30 minutes (mass ratio of beans to calcium lactate aqueous solution was 1:10). After immersion, the water was turned off.
Subsequently, a total of 210 g of beans 50 g soaked in an aqueous calcium lactate solution and 160 g of curry sauce was filled in a retort pouch and subjected to a heat treatment at 122 ° C. for 24 minutes. After completion of the heat treatment, the contents were put into a dish and heated in a microwave oven (1600 W for 70 seconds), and the scale and frequency of the rupture of beans were observed.
The experiment was performed in triplicate (N = 3), and the magnitude and frequency of rupture were determined according to the same evaluation criteria as in the case of potato described above.
[Comparative Examples 13 to 15]
Except that it was not immersed in an aqueous calcium lactate solution, experiments were conducted in the same manner as in Examples 23 to 25, and the scale and frequency of the rupture of beans when heated in a microwave oven (1600 W for 70 seconds) were observed.
Table 7

As with frozen potatoes, the use of various frozen beans (red kidney, galvanzo, edamame excluding pods) suppresses both the magnitude and frequency of rupture when heated in a microwave oven. We were able to.
From the results of the above examples, the processed food for microwave heating produced by the method of the present invention bursts potatoes and beans during microwave heating even when using raw materials including frozen potatoes and frozen beans. It has been shown to have the advantage of being difficult.

Claims (5)

  Frozen potatoes and / or frozen beans having a size of 50 mm square or less are immersed in a calcium aqueous solution having a calcium concentration of 19 to 162 mM and 80 ° C. or less, and the frozen potatoes and / or frozen beans, or frozen potatoes and / or frozen beans The manufacturing method of the processed food for microwave oven heating characterized by heat-processing the raw material containing 80 degreeC over temperature.   The manufacturing method according to claim 1, wherein the potato and / or the frozen beans are thawed in whole or in part before being immersed in the aqueous calcium solution.   The manufacturing method according to claim 1 or 2, wherein the frozen potato and / or the frozen beans are frozen after being blanched under a condition that the core product temperature is maintained at 70 to 95 ° C for 1 minute or more. .   The method according to claim 3, wherein the blanching is performed under a condition that the core product temperature is maintained at 70 to 95 ° C for 2 to 30 minutes or more.   The processed food for microwave oven heating obtained by the manufacturing method of any one of Claims 1-4.