JP2013188163A - Vegetable of excellent antioxidant capability using electrolytic hydrogen water, and method of processing the same - Google Patents
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本発明は、電離水素水を用いた抗酸化能力の高い野菜およびその加工方法に関する。 The present invention relates to a vegetable having high antioxidant ability using ionized hydrogen water and a processing method thereof.
野菜等の収穫後の農作物に対し、適度な外的な刺激を与えることにより、農作物の内部における栄養素の生成を促しながら保存する農作物の保存方法が提案されている(特許文献1)。例えば、外的刺激は、微細径の水粒子、オゾン水粒子、電荷を帯びた水粒子などを噴霧することで、活性酸素を無害化させるための抗酸化物質あるビタミンCやビタミンA等の栄養成分を生成させる生体反応を引き起こすというものである。 A method for preserving agricultural products has been proposed that preserves agricultural products after harvesting such as vegetables by applying moderate external stimuli while promoting the generation of nutrients inside the agricultural products (Patent Document 1). For example, external stimuli are nutrients such as vitamin C and vitamin A, which are antioxidants for detoxifying active oxygen by spraying fine water particles, ozone water particles, charged water particles, etc. It causes a biological reaction that generates components.
本発明は、抗酸化能力の高い野菜およびその加工方法を提供することを目的とする。 An object of this invention is to provide vegetables with high antioxidant ability, and its processing method.
本発明に係る野菜の加工方法は、野菜にマイナス水素イオン(H−)を含む処理水を供給する工程と、前記処理水が供給された野菜を一定温度以下で乾燥する工程とを含む。 The vegetable processing method according to the present invention includes a step of supplying treated water containing negative hydrogen ions (H − ) to the vegetable, and a step of drying the vegetable supplied with the treated water at a constant temperature or lower.
好ましくは前記野菜の加工方法はさらに、乾燥された野菜を粉末化する工程を含む。好ましくは前記供給する工程は、野菜を前記処理水内に一定時間浸漬する工程を含む。好ましくは前記供給する工程は、前記野菜に前記処理水を噴霧する工程を含む。好ましくは前記供給する工程は、切断された野菜に対して処理水を供給する。好ましくは前記供給する工程は、前記野菜に根に前記処理水を供給する。好ましくは前記乾燥する工程は、野菜の酵素が破壊されない温度で野菜を乾燥する。好ましくは前記乾燥する工程は、遠赤外線減圧低温乾燥である。好ましくは前記遠赤外線減圧低温乾燥は、40℃±2℃以下の温度にて行われる。 Preferably, the vegetable processing method further includes a step of pulverizing the dried vegetable. Preferably, the supplying step includes a step of immersing the vegetable in the treated water for a predetermined time. Preferably, the supplying step includes a step of spraying the treated water on the vegetable. Preferably, the supplying step supplies treated water to the cut vegetables. Preferably, the supplying step supplies the treated water to the roots of the vegetables. Preferably, in the drying step, the vegetable is dried at a temperature at which the enzyme of the vegetable is not destroyed. Preferably, the drying step is far-infrared reduced pressure low temperature drying. Preferably, the far-infrared vacuum low-temperature drying is performed at a temperature of 40 ° C. ± 2 ° C. or less.
さらに本発明に係る野菜の加工方法は、野菜にマイナス水素イオン(H−)を含む処理水を供給する工程と、前記処理水が供給された野菜を切断する工程とを含む。 Furthermore, the vegetable processing method according to the present invention includes a step of supplying treated water containing negative hydrogen ions (H − ) to the vegetable, and a step of cutting the vegetable supplied with the treated water.
さらに本発明に係る野菜の加工方法は、野菜を切断する工程と、切断された野菜にマイナス水素イオン(H−)を含む処理水を供給する工程とを含む。 Furthermore, the vegetable processing method according to the present invention includes a step of cutting the vegetable and a step of supplying treated water containing negative hydrogen ions (H − ) to the cut vegetable.
好ましくは前記処理水は、H++H−⇔H0 2の電離水素水である。好ましくは前記処理水は、アルカリ金属、アルカリ土金属、第13族および第14族の金属の少なくとも1つを含む水素化金属によって処理された水である。 Preferably, the treated water is ionized hydrogen water of H + + H − ⇔H 0 2 . Preferably, the treated water is water treated with a metal hydride containing at least one of alkali metals, alkaline earth metals, Group 13 and Group 14 metals.
本発明に係る野菜は、マイナス水素イオン(H−)を含む処理水により加工されたものである。好ましくは前記野菜は、一定の大きさに切断された野菜である。好ましくは前記野菜は、粉末化された野菜である。好ましくは前記処理水による加工は、野菜をマイナス水素イオン(H−)を含む処理水内に一定時間浸漬することである。さらに本発明の食品は、このような加工された野菜を含むものである。 The vegetable according to the present invention is processed with treated water containing negative hydrogen ions (H − ). Preferably, the vegetable is a vegetable cut into a certain size. Preferably, the vegetable is a powdered vegetable. Preferably, the processing with the treated water is to immerse the vegetables in the treated water containing negative hydrogen ions (H − ) for a certain period of time. Furthermore, the food of the present invention contains such processed vegetables.
本発明によれば、マイナス水素イオン(H−)を含む処理水により野菜を加工することで、マイナス水素イオン(H−)を含む処理水で加工されていない野菜と比較して、野菜の抗酸化能力を高めることができる。 According to the present invention, the negative hydrogen ions - is processed vegetables by treatment water containing negative hydrogen ion (H) (H -) as compared to vegetables that have not been processed in the processing water containing vegetable anti The oxidation ability can be increased.
以下、本発明を実施するための形態について図面を参照して詳細に説明する。本発明における野菜とは、農業等によって栽培される食用となる草本植物で、主に葉、根、茎、花、つぼみ、果実などの農作物、野生で生育したものを含み、さらには、イチゴ、スイカ、メロンなどの果物も含むものである。 Hereinafter, embodiments for carrying out the present invention will be described in detail with reference to the drawings. Vegetables in the present invention is an edible herbaceous plant cultivated by agriculture and the like, mainly including crops such as leaves, roots, stems, flowers, buds, fruits, etc., grown in the wild, It includes fruits such as watermelon and melon.
本発明の実施の形態では、水に、マイナス水素イオン(H−)が結合された、イオン結合性の水素化金属を添加することで、水素のプロチウム化、すなわち、H2⇔2H0、H+⇔H0、H2⇔2H−、H+⇔H−の如く水素原子における荷電変換が起こると考えられる。これにより、水素化金属の構造表面上で、水素のプロチウム化、H+⇔H0⇔H−が起こり、水素化金属による処理をした水には、マイナス水素イオン(H−)が含まれている。このような水は、常温において水素がプラズマ化された状態にあり、本明細書では、水素がプラズマ化されたマイナス水素イオン(H−)を含む水を電離水素水と称する。マイナス水素イオン(H−)を含む電離水素水は、アルカリ還元性の水であり、これを野菜に供給することで、野菜の抗酸化能力が高められる。 In the embodiment of the present invention, by adding an ion-bonding metal hydride having negative hydrogen ions (H − ) bonded to water, hydrogen is protiumated, that is, H 2 ⇔2H 0 , H It is considered that charge conversion occurs in hydrogen atoms such as ++ H 0 , H 2 ⇔2H − , and H + ⇔H − . This causes hydrogen protiumation, H + ⇔H 0 ⇔H − on the surface of the metal hydride structure, and the water treated with the metal hydride contains negative hydrogen ions (H − ). Yes. Such water is in a state in which hydrogen is turned into plasma at room temperature, and in this specification, water containing negative hydrogen ions (H − ) in which hydrogen is turned into plasma is referred to as ionized hydrogen water. The ionized hydrogen water containing negative hydrogen ions (H − ) is alkali-reducing water, and the antioxidant capacity of the vegetable is enhanced by supplying this to the vegetable.
図1は、本発明の第1の実施例に係る野菜の加工工程を示すフローである。第1の実施例では、粉末状に加工された野菜を生成する。先ず、マイナス水素イオンを含む電離水素水を用意する(S101)。電離水素水は、例えば、水に、マイナス水素イオン(H−)が結合されたイオン結合性の水素化金属を添加することで得ることができる。これ以外にも、還元焼成されたセラミックボールなどを用いて電離水素水を生成することもできる。 FIG. 1 is a flowchart showing a vegetable processing step according to the first embodiment of the present invention. In the first embodiment, a vegetable processed into a powder form is generated. First, ionized hydrogen water containing negative hydrogen ions is prepared (S101). The ionized hydrogen water can be obtained, for example, by adding an ion-bonding hydrogenated metal in which negative hydrogen ions (H − ) are bonded to water. In addition to this, ionized hydrogen water can also be generated using a reduced-fired ceramic ball or the like.
次に、野菜を電離水素水で処理する(S102)。野菜は、例えば、ピーマン、小松菜、ほうれん草、かぼちゃなど、種々のものを用いることができる。電離水素水による処理は、野菜に電離水素水を供給できるような態様であれば、その処理方法は不問である。例えば、電離水素水を収容した容器内に、野菜を一定時間、例えば5〜20分程度浸すことによって、野菜に電離水素水を供給する。好ましい態様では、電離水素水が野菜に吸収され易くするため、野菜を切断し、切断した野菜を電離水素水中に浸漬するようにしてもよい。あるいは、野菜に対して電離水素水を霧吹きなどにより噴霧したり、野菜の根を電離水素水に浸すことで根から電離水素水を吸い上げるようにしてもよい。この場合にも、根は、5〜20分程度浸せば十分である。さらには、電離水素水によって野菜を栽培しても良く、この場合、電離水素水を土にかけたり、葉面に散布する。また、電離水素水により野菜を栽培する場合には、野菜の収穫の一定時間前に行うようにしてもよい。 Next, the vegetables are treated with ionized hydrogen water (S102). Various kinds of vegetables such as pepper, komatsuna, spinach, and pumpkin can be used. If the process by ionized hydrogen water is an aspect which can supply ionized hydrogen water to vegetables, the processing method is not ask | required. For example, the ionized hydrogen water is supplied to the vegetable by immersing the vegetable in a container containing the ionized hydrogen water for a certain time, for example, about 5 to 20 minutes. In a preferred embodiment, in order to make the ionized hydrogen water easily absorbed by the vegetables, the vegetables may be cut and the cut vegetables may be immersed in the ionized hydrogen water. Alternatively, ionized hydrogen water may be sprayed on the vegetables by spraying or the like, or the roots of the vegetables may be soaked in the ionized hydrogen water to suck up the ionized hydrogen water from the roots. Even in this case, it is sufficient to soak the roots for about 5 to 20 minutes. Further, vegetables may be cultivated with ionized hydrogen water. In this case, the ionized hydrogen water is applied to the soil or sprayed on the leaves. Moreover, when cultivating vegetables with ionized hydrogen water, it may be performed a certain time before harvesting vegetables.
次に、電離水素水によって処理された野菜は、低温乾燥される(S103)。乾燥方法は、特に問わないが、好ましい態様では、遠赤外線を用いて乾燥する。また、好ましくは、野菜は、そこに含まれる酵素が破壊されない温度で乾燥されることが好ましく、例えば、40℃±2の温度で乾燥される。乾燥時間は、特に制限されないが、例えばピーマンの場合、遠赤外線による減圧低温乾燥で、約40℃で20時間である。 Next, the vegetable processed with ionized hydrogen water is dried at low temperature (S103). The drying method is not particularly limited, but in a preferred embodiment, drying is performed using far infrared rays. Preferably, the vegetables are dried at a temperature at which the enzymes contained therein are not destroyed, for example, at a temperature of 40 ° C. ± 2. The drying time is not particularly limited. For example, in the case of bell pepper, the drying time is about 40 ° C. for 20 hours under reduced pressure and low temperature drying using far infrared rays.
次に、乾燥された野菜は、粉末状に加工される(S104)。粉末にされる形状、大きさは特に制限されない。図2は、乾燥後、粉末化されたほうれん草の一例である。 Next, the dried vegetables are processed into powder (S104). The shape and size of the powder are not particularly limited. FIG. 2 is an example of spinach pulverized after drying.
図3は、第1の実施例により粉末状に加工されたピーマンの抗酸化能力を測定した実験結果である。ここでは、一定サイズにカットした赤ピーマンを電離水素水に約20分間浸漬したものを乾燥した後に粉末化し、この赤ピーマンの粉末0.8gを水道水200mlに添加したときのORP(酸化還元電位)とpHを表している。また、図4は、何も処理されていない赤ピーマンの粉末0.8gを水素水200mlに添加したときのORPとpHを示すグラフである。これらのグラフから明らかなように、本実施例のように電離水素水によって処理された赤ピーマンでは、酸化還元電位は、電離水素水により処理されていない赤ピーマンに比べて、酸化還元電位が約−400mvまで大きく低下していることがわかる。 FIG. 3 shows the experimental results of measuring the antioxidant capacity of peppers processed into powder according to the first example. Here, red peppers cut into a certain size are immersed in ionized hydrogen water for about 20 minutes, dried and then powdered, and ORP (redox potential) when 0.8 g of this red pepper powder is added to 200 ml of tap water. ) And pH. FIG. 4 is a graph showing ORP and pH when 0.8 g of untreated red pepper powder is added to 200 ml of hydrogen water. As is clear from these graphs, the red bell pepper treated with ionized hydrogen water as in this example has a redox potential that is approximately equal to that of red bell pepper not treated with ionized hydrogen water. It can be seen that it is greatly reduced to -400 mV.
近年、野菜の栄養価の低下や野菜嫌いが問題になっており、乾燥させることにより、少量で野菜の栄養が摂取できる。また、抗酸化能力があがるので、活性酸素が原因とされている生活習慣病予防につながる。また、本実施例により加工された野菜は、加熱しても変色しにくいため、着色量を使用しなくても、色鮮やかなで、栄養価及び抗酸化能力の高い料理を提供することができる。さらに、生の野菜の栄養価を損わなず、嵩が1/10になるので、少量で必要な栄養を摂取することができる。 In recent years, reduction in the nutritional value of vegetables and dislike of vegetables have become problems, and by drying, the nutrition of vegetables can be ingested in small amounts. In addition, anti-oxidation ability is improved, which leads to prevention of lifestyle-related diseases caused by active oxygen. In addition, since the vegetables processed according to the present example are not easily discolored even when heated, it is possible to provide dishes that are colorful and have high nutritional value and antioxidant ability without using a coloring amount. . Furthermore, since the bulk becomes 1/10 without impairing the nutritional value of raw vegetables, the necessary nutrition can be ingested in a small amount.
次に、本発明の第2の実施例による野菜の加工工程を図5に示す。ステップS201、S202は、第1の実施例のときと同様であるが、第2の実施例では、電離水素水で処理された野菜は、第1の実施例のときのように乾燥されず、一定の大きさにカットされる。図6は、カットされたほうれん草の写真である。 Next, FIG. 5 shows a vegetable processing process according to the second embodiment of the present invention. Steps S201 and S202 are the same as in the first embodiment, but in the second embodiment, the vegetables treated with ionized hydrogen water are not dried as in the first embodiment, Cut to a certain size. FIG. 6 is a photograph of the cut spinach.
また、図7は、40度で8時間放置したピーマンを示す写真であり、左側が無処理のもの、右側が電離水素水により処理されたものである。無処理のものは、腐敗臭が生じたが、電離水素水により処理されたものは、色褪せもなく香りも良い状態を保持した。一般的なカット野菜は、変色しやすいため、漂白処理をしたり、抗菌処理をするが、本実施例のように、電離水素水で処理された野菜は、抗酸化能力が上がるため、痛みにくく、変色もしにくいため、そのまま使用可能である。 FIG. 7 is a photograph showing the green pepper left at 40 degrees for 8 hours, the left side being untreated and the right side being treated with ionized hydrogen water. The untreated product produced a rotting odor, while the untreated product treated with ionized hydrogen water maintained a state of good color and no scent. Common cut vegetables are easily discolored, so they are bleached or antibacterial. However, as in this example, vegetables treated with ionized hydrogen water have higher antioxidant capacity and are less painful. Since it is difficult to discolor, it can be used as it is.
次に、本発明の第3の実施例による野菜の加工工程を図8に示す。第3の実施例による加工方法は、野菜を一定の形状もしくは大きさに切断(カット)し(S302)、その表面積を大きくした状態にする。次いで、カットされた野菜を電離水素水により処理する(S303)。こうすることで、カットされた野菜に電離水素水を効果的に供給することが可能になるため、電離水素水による処理時間を短縮することができる。 Next, FIG. 8 shows a vegetable processing process according to the third embodiment of the present invention. In the processing method according to the third embodiment, vegetables are cut (cut) into a certain shape or size (S302), and the surface area is increased. Next, the cut vegetables are treated with ionized hydrogen water (S303). By carrying out like this, since it becomes possible to supply ionized hydrogen water effectively to the cut vegetables, the processing time by ionized hydrogen water can be shortened.
図9は、ESR装置を用いて種々の野菜のフリーラジカルの半減期を測定した結果を示すグラフである。図からわかるように、無処理の野菜と、電離水素水で処理された野菜とを比較すると、フリーラジカルの半減期が短くなっていることがわかる。つまり、電離水素水で処理された野菜は、無処理の野菜に比べて抗酸化能力が向上している。 FIG. 9 is a graph showing the results of measuring the free radical half-life of various vegetables using an ESR apparatus. As can be seen from the figure, comparing the untreated vegetable with the vegetable treated with ionized hydrogen water shows that the half-life of the free radical is shortened. That is, the vegetable treated with ionized hydrogen water has improved antioxidant capacity compared with the untreated vegetable.
本発明の応用として、ドライフルーツやフルーツ粉、肉類、魚類のドライ品など、さまざまな食材を抗酸化能力の高い食品に加工することが可能である。 As an application of the present invention, it is possible to process various foods such as dried fruits, fruit powders, meats, and dried fish products into foods with high antioxidant capacity.
本発明の好ましい実施の形態について詳述したが、本発明は、特定の実施形態に限定されるものではなく、特許請求の範囲に記載された本発明の要旨の範囲内において、種々の変形・変更が可能である。 Although the preferred embodiments of the present invention have been described in detail, the present invention is not limited to the specific embodiments, and various modifications and changes can be made within the scope of the gist of the present invention described in the claims. It can be changed.
Claims (20)
前記処理水が供給された野菜を一定温度以下で乾燥する工程とを含む、野菜の加工方法。 Supplying treated water containing negative hydrogen ions (H − ) to vegetables;
And a step of drying the vegetable supplied with the treated water at a constant temperature or lower.
前記処理水が供給された野菜を切断する工程とを含む、野菜の加工方法。 Supplying treated water containing negative hydrogen ions (H − ) to vegetables;
Cutting the vegetables to which the treated water has been supplied.
切断された野菜にマイナス水素イオン(H−)を含む処理水を供給する工程と、を含む野菜の加工方法。 Cutting vegetables,
And a step of supplying treated water containing negative hydrogen ions (H − ) to the cut vegetables.
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JP2017046648A (en) * | 2015-09-02 | 2017-03-09 | 旭化成株式会社 | Processing method of perishable food using high concentration hydrogen water, and processing unit |
CN110338217A (en) * | 2019-07-25 | 2019-10-18 | 中国科学院华南植物园 | A kind of fruit storage preservation method |
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