JP2887653B2 - Method of producing storable vegetable juice - Google Patents
Method of producing storable vegetable juiceInfo
- Publication number
- JP2887653B2 JP2887653B2 JP7079351A JP7935195A JP2887653B2 JP 2887653 B2 JP2887653 B2 JP 2887653B2 JP 7079351 A JP7079351 A JP 7079351A JP 7935195 A JP7935195 A JP 7935195A JP 2887653 B2 JP2887653 B2 JP 2887653B2
- Authority
- JP
- Japan
- Prior art keywords
- vegetable juice
- juice
- vegetable
- treatment
- resin
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired - Lifetime
Links
Landscapes
- Non-Alcoholic Beverages (AREA)
Description
【0001】[0001]
【産業上の利用分野】本発明は野菜ジュース等として利
用される野菜搾汁液の製造法に関し、更に詳細には、室
温等で保存しても特有の臭気がほとんど発生しない保存
可能な野菜搾汁液の製造法に関する。BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method for producing vegetable juice used as vegetable juice and the like, and more particularly, to a vegetable juice which can be stored at room temperature or the like and hardly generates any peculiar odor. A method for producing the same.
【0002】[0002]
【従来の技術】近年、消費者の健康意識向上に伴い、簡
単に摂取することのできる野菜飲料への期待が高まりを
見せている。しかし、現在商品として提供されている野
菜飲料は、90%程度のトマトジュースにその他の野菜
汁を10%程度混合したトマトミックスジュースであっ
たり、比較的臭気の少ないニンジンやホウレンソウ等の
野菜汁を多くの果汁分と混合してミックスジュースの形
で商品化されているに過ぎず、純粋な意味での野菜ジュ
ースは、トマトジュースを別として未だ商品として提供
されていないのが現状である。2. Description of the Related Art In recent years, as consumers' health consciousness has increased, expectations for vegetable drinks which can be easily consumed have been increasing. However, vegetable drinks currently offered as products are tomato mixed juices in which about 10% of other vegetable juices are mixed with about 90% of tomato juices, or vegetable juices such as carrots and spinach with relatively low odor. At present, vegetable juice in a pure sense is not yet offered as a commercial product apart from tomato juice, merely being commercialized in the form of a mixed juice by mixing with a large amount of fruit juice.
【0003】例えば、キャベツ、ブロッコリー、芽キャ
ベツ、カリフラワー、コールラビー等の、ある種のガン
成育をさまたげる働きがあると報告されているあぶらな
科の野菜類や、大根、オニオン、なす等の野菜を搾汁し
た後、単独もしくは果汁等との混合等により飲料とした
場合、これを室温レベルの温度にて保存すると、特有の
臭気が発生し、缶詰やアセプティック充填での紙容器製
品等「常温流通品」としての商品化がなしえないのが現
状であった。For example, vegetables such as cabbage, broccoli, brussels sprouts, cauliflower and kohlrabi, which are reported to have a function of inhibiting the growth of certain cancers, and vegetables such as radish, onion and eggplant are squeezed. When a beverage is used alone or mixed with fruit juice, etc. after being juiced, if it is stored at room temperature, it emits a characteristic odor, and can be used for canned and aseptic filling such as paper container products such as "normal temperature distribution products". It was not possible to commercialize as "".
【0004】従来、野菜から搾汁を得るためには、生体
酵素失活やアク抜きを兼ね、原料を熱湯もしくはスチー
ムを用い「ブランチング処理」加熱をすることが多い
が、十分な目的を達する為の加熱処理を施すと、キャベ
ツ、ブロッコリー、カリフラワー等は加熱により組織の
軟化が起こり、通常のプレス搾汁等での搾汁収率は上が
らず、処理中の熱水中への成分流失と共に、成分回収率
は極端に低いものとなるという問題があった。このブラ
ンチング処理後の軟化した破砕物は、薄膜式プレス搾汁
機で搾汁効率を幾分上げることは可能であるが、機器設
備費用が莫大であり経済的に引き合うものではない。Conventionally, in order to obtain juice from vegetables, "blanching treatment" is often carried out using hot water or steam as a raw material, which also serves to deactivate living organisms and remove air. When cabbage, broccoli, cauliflower, etc. are subjected to heat treatment, the tissue softens due to heating, the juice yield in normal press juice etc. does not increase, and the components flow into hot water during processing However, there has been a problem that the component recovery rate is extremely low. The softened crushed material after the blanching treatment can increase the squeezing efficiency to some extent by a thin film press squeezing machine, but the equipment cost is enormous and is not economically attractive.
【0005】一方、未加熱で搾汁(ブランチング処理と
対比するため「低温搾汁」と称する)するとこれら野菜
汁はいわゆる「青汁」となり、強烈な「青臭さ」を発生
する。 低温搾汁でのこのような青臭さの発生は、搾汁
時にアスコルビン酸を添加することでかなり回避出来る
が、完全というわけではない。[0005] On the other hand, when squeezed without heating (referred to as "low-temperature squeezed" for comparison with blanching treatment), these vegetable juices become so-called "green juice" and generate a strong "green smell". The generation of such a green odor in cold juice can be considerably avoided by adding ascorbic acid at the time of juice, but it is not perfect.
【0006】更に、野菜搾汁液の最大の問題は、キャベ
ツ類の野菜汁をブランチング処理で、あるいは低温搾汁
で得たとしても、これを用いて飲料化したものでは40
℃以上の高温保存時に、「漬物臭」等と表現される異臭
発生が回避出来ない点にある。[0006] Furthermore, the biggest problem with vegetable juice is that even if vegetable juice of cabbage is obtained by blanching or by low-temperature juice, it cannot be used in a beverage made from such juice.
The problem is that the generation of an unusual odor expressed as "pickled odor" cannot be avoided during storage at a high temperature of at least ℃.
【0007】すなわち、野菜ジュース等の「常温保存」
の条件は、通常15℃〜25℃を指し、「常温保存品」
の賞味期間は4ケ月としているのが現状一般である。
そして、この条件を厳守すれば劣化臭発生はなく、商品
として問題の生じないものもあるが、現在の流通システ
ムではかならずしもこの通常の常温管理がなされてはい
ない事が問題として上げられる。特に夏場のコンテナ輸
送時や一般倉庫等にて直射日光が当たる場合には、製品
品温が一時的に常温を上回るものとなることがあり、劣
化臭の発生の危険性を常にはらんでいる。[0007] That is, "preservation at room temperature" such as vegetable juices
The condition usually refers to 15 ° C. to 25 ° C., and “normal temperature storage product”
Is generally 4 months.
If these conditions are strictly adhered to, there is no deterioration odor and there is no problem as a product. However, it is pointed out that current ordinary temperature control is not always performed in the current distribution system. Especially when transporting containers in the summer or direct sunlight in general warehouses, the product temperature may temporarily exceed normal temperature, and the risk of deterioration odor is always present. .
【0008】結局、現在の技術では飲料として製品化は
可能であっても、商品の搬送・保存時に高温下におかれ
た場合、異臭が発生し、商品価値を大幅に低下させてし
まうという問題があり、これを解決することはできなか
った。[0008] After all, even if the current technology can be commercialized as a beverage, if it is placed in a high temperature during transportation and storage of the product, an unpleasant odor is generated and the value of the product is greatly reduced. There was no way to solve this.
【0009】[0009]
【発明が解決しようとする課題】従って、高温下で搬送
・保存しても異臭を発生することのない、いわゆる「常
温流通」に耐える野菜搾汁液の提供が求められており、
本発明はこれを満足する野菜搾汁液の製造法を提供する
ものである。Accordingly, there is a need to provide a vegetable juice liquid which does not generate an unpleasant odor even when transported and stored at high temperatures and which can withstand so-called "normal temperature distribution".
The present invention provides a method for producing a vegetable juice that satisfies this requirement.
【0010】[0010]
【課題を解決するための手段】本発明者らは上記課題を
解決するべく研究した結果、野菜汁に有機酸を添加した
後、これを弱塩基性陰イオン交換樹脂処理すれば、高温
保存時においても異臭発生しないかあるいは異臭発生が
極めて少ない野菜搾汁液が得られることを見出し、本発
明を完成した。Means for Solving the Problems As a result of research conducted to solve the above problems, the present inventors have found that, after adding an organic acid to vegetable juice and treating it with a weakly basic anion exchange resin, it can be stored at a high temperature. It has been found that a vegetable juice which does not generate an off-flavor or has an extremely low off-flavor can be obtained.
【0011】すなわち、本発明は野菜を破砕・搾汁して
野菜汁とし、次いで有機酸を添加し、更にこの野菜汁を
弱塩基性陰イオン交換樹脂にて処理することを特徴とす
る保存可能な野菜搾汁液の製造法である。That is, the present invention is characterized by crushing and squeezing vegetables into vegetable juice, adding an organic acid, and treating the vegetable juice with a weakly basic anion exchange resin. This is a method for producing a fresh vegetable juice.
【0012】本発明方法では、まず、野菜を破砕・搾汁
して野菜汁を得ることが必要である。 野菜汁を得る方
法としては、従来法によりブランチング処理・破砕・搾
汁して得ても、また、低温搾汁して得てもよいが、野菜
をアスコルビン酸存在下、低温で破砕・搾汁し、これを
加熱して生体酵素を失活させる方法を採用することが好
ましく、この方法で得た野菜汁を利用することが結果的
により良い風味のものを得ることができる。搾汁時に野
菜に添加するアスコルビン酸の濃度は、60〜200m
g%とすることが好ましい。In the method of the present invention, it is first necessary to crush and squeeze vegetables to obtain vegetable juice. As a method of obtaining vegetable juice, it may be obtained by blanching, crushing, and squeezing according to a conventional method, or may be obtained by squeezing at a low temperature. It is preferable to employ a method in which the juice is heated and heated to inactivate the biological enzyme, and the use of vegetable juice obtained by this method results in a better flavor. The concentration of ascorbic acid added to vegetables during squeezing is 60-200 m
g%.
【0013】次に、上記のようにして得られた野菜汁
に、有機酸を添加する。添加する有機酸としては、クエ
ン酸、リンゴ酸、酒石酸、乳酸、L−アスコルビン酸等
が挙げられ、その添加量は、野菜汁のpHを3.0〜4.
5程度、特に3.5〜4.0程度とする量であることが好
ましい。Next, an organic acid is added to the vegetable juice obtained as described above. Examples of the organic acid to be added include citric acid, malic acid, tartaric acid, lactic acid, L-ascorbic acid, and the like.
The amount is preferably about 5, particularly about 3.5 to 4.0.
【0014】前記のようにして有機酸を添加した野菜汁
は、更に弱塩基性陰イオン交換樹脂処理に付される。こ
の処理において使用される弱塩基性陰イオン交換樹脂と
しては、脱塩・脱酸用でポーラス化した弱塩基性陰イオ
ン交換樹脂が使用され、その例としては、ダイアイオン
WA20、WA21、WA30、アンバーライトIR
A−93ZU等が挙げられるが、樹脂再生時の酸洗浄の
耐性の面からアンバーライトIRA94S、アンバーラ
イトIRA−94S−HG(オルガノ(株)製)等が好ま
しい。The vegetable juice to which the organic acid has been added as described above is further subjected to a weakly basic anion exchange resin treatment. As the weakly basic anion exchange resin used in this treatment, a weakly basic anion exchange resin which has been made porous for desalting and deacidification is used. Examples thereof include Diaion WA20, WA21, WA30, Amberlite IR
Although A-93ZU and the like are mentioned, Amberlite IRA94S, Amberlite IRA-94S-HG (manufactured by Organo Co., Ltd.) and the like are preferred from the viewpoint of acid washing resistance during resin regeneration.
【0015】弱塩基性陰イオン交換樹脂処理は、所謂バ
ッチ法や、バッチ法の一部とされる、網目かごに樹脂を
詰めジュースの入ったタンク中で上下させる半連続法で
あっても良く、これらでも少量生産は実施可能である
が、樹脂再生法を考え、また大量・連続・省力化生産の
経済性をも考慮すればカラム式イオン交換法を用いて連
続処理する方法が勝る。The treatment with a weakly basic anion exchange resin may be a so-called batch method or a semi-continuous method in which a mesh basket is filled with a resin and is moved up and down in a tank containing juice, which is a part of the batch method. Although these methods can be used for small-volume production, the method of continuous treatment using a column-type ion exchange method is superior in consideration of the resin regeneration method and the economics of large-scale, continuous, labor-saving production.
【0016】以下、カラム式イオン交換法による連続処
理方法を例に挙げ、具体的に弱塩基性陰イオン交換樹脂
処理を説明する。まず、前記の弱塩基性陰イオン交換樹
脂を所定量カラムに詰め、再生処理を行った後、他から
供給されるイオン交換水にて洗浄が終了している事を確
認する。再生処理は、アルカリ洗浄、酸洗浄、アルカリ
洗浄の順で行うことが好ましく、再生終了の確認は排出
水の臭気、pH、フェノールフタレインの着色のない事
等で行う。Hereinafter, a weak base anion exchange resin treatment will be specifically described by taking a continuous treatment method by a column type ion exchange method as an example. First, a predetermined amount of the above weakly basic anion exchange resin is packed in a column, and after performing a regeneration treatment, it is confirmed that the washing is completed with ion exchange water supplied from another source. The regeneration treatment is preferably performed in the order of alkali washing, acid washing, and alkali washing. Confirmation of the completion of the regeneration is performed by checking the odor, pH, and phenolphthalein of the discharged water without coloring.
【0017】カラムに充填する樹脂量は、処理すべき野
菜汁の濃度によるが、ストレート濃度[例えばキャベツ
汁ならばブリックス糖度5゜(以下、ブリックス糖度を
「Bx」と略記する)]であれば100部に対し容量比
10〜30部程度、望ましくは15〜25部程度とすれ
ばよい。The amount of resin to be packed in the column depends on the concentration of the vegetable juice to be treated, but if it is a straight concentration [for example, cabbage juice has a Brix sugar content of 5% (hereinafter the Brix sugar content is abbreviated as "Bx")] The capacity ratio may be about 10 to 30 parts, preferably about 15 to 25 parts with respect to 100 parts.
【0018】一方、処理すべき野菜汁を予め濃縮してお
き、搾汁時期と樹脂処理時期を分け、野菜汁の保管コス
ト軽減やタンク等付帯設備の小型化を図ることもでき
る。この場合は、前工程で得られた野菜汁を凍結保存と
しておき、樹脂処理開始前に解凍することになる。On the other hand, the vegetable juice to be treated is concentrated in advance, and the squeezing time and the resin treatment time are separated, so that the storage cost of the vegetable juice can be reduced and the auxiliary equipment such as a tank can be downsized. In this case, the vegetable juice obtained in the previous step is kept frozen and thawed before starting the resin treatment.
【0019】この結果、処理すべき野菜汁の濃度が高く
なるが、野菜汁のBxと使用樹脂量には比例関係がある
ので、野菜汁のBxに応じて適宜樹脂量を決めることが
望ましい。 例えばキャベツ汁のBxが10°となれ
ば、使用樹脂量は前記の2倍量、15°であれば前記の
3倍量程度にすればよい。 なお、野菜汁の濃縮は、粘
度の影響、タンク等関連設備、回収収率等を考えると1
5°Bx処理(樹脂量は野菜汁100部に対し60部程
度)位とすることが最も扱い易く、好ましい。As a result, the concentration of the vegetable juice to be treated becomes high, but since there is a proportional relationship between the Bx of the vegetable juice and the amount of the resin used, it is desirable to appropriately determine the amount of the resin according to the Bx of the vegetable juice. For example, if the cabbage juice has a Bx of 10 °, the amount of resin used may be about twice as much as the above, and if it is 15 °, about three times as much as the above. Concentration of vegetable juice is 1% considering the effect of viscosity, related equipment such as tanks, recovery yield, etc.
It is the easiest to handle and the temperature is preferably about 5 ° Bx (the resin amount is about 60 parts with respect to 100 parts of vegetable juice).
【0020】上記のように搾汁した野菜汁またはこれを
濃縮したものを弱塩基性陰イオン交換樹脂を充填したカ
ラムに流し込み、弱塩基性陰イオン交換樹脂処理を行
う。野菜汁をカラムに流し込む速度は、SV(空間速
度;Spaced Velocity)を2〜12BV(ベッドボリュ
ーム:樹脂容量)/h程度、すなわち、5分〜30分で
樹脂1容量分の野菜汁を流す程度であり、望ましくはS
Vが8〜10程度である。The vegetable juice squeezed as described above or a concentrate thereof is poured into a column filled with a weakly basic anion exchange resin, and treated with a weakly basic anion exchange resin. The speed at which the vegetable juice is poured into the column is such that the SV (Spaced Velocity) is about 2 to 12 BV (bed volume: resin volume) / h, that is, the vegetable juice of one volume of resin is flowed in 5 to 30 minutes. And preferably S
V is about 8 to 10;
【0021】野菜汁を下向流とする場合は、上部より野
菜汁を流し始めると1BV通過時間よりやや早めに初流
の排出が見られるが、野菜汁が天然成分として塩類をも
つことから、この初流は極めてpHの高いものである。
そして、初流時のBx値は水との置き換え時期でもあ
り、回収液が薄まったものとなることおよび初流には時
として辛味・渋みを伴った風味上好ましくない部分が集
中して排出される事があることなどから、原液の1/3
程度の濃度となるまでの初流は廃棄したほうが良い。
なお、この初流廃棄の判断は、野菜汁の成分流出をも加
味したうえで行われるべきである。When the vegetable juice is made to flow downward, when the vegetable juice starts to flow from the upper part, the first stream is discharged slightly earlier than the 1BV passage time, but since the vegetable juice has salts as a natural component, This initial stream has a very high pH.
The Bx value at the time of the first flow is also the time of replacement with water, so that the recovered liquid becomes thinner and the first flow sometimes discharges unfavorably concentrated portions with pungent and astringent flavors. 1/3 of the stock solution
It is better to discard the first stream until the concentration reaches a certain level.
It should be noted that the judgment of the first stream disposal should be made in consideration of the outflow of the components of the vegetable juice.
【0022】カラムから所定濃度の野菜汁が排出されて
きたら、これをそのまま製品とすることも可能ではある
が、より優れた保存風味変化の少ない野菜搾汁液を得る
ためにはカラム排出液を原液に戻し循環処理を行うこと
が好ましい。When vegetable juice of a predetermined concentration is discharged from the column, it can be used as a product as it is. However, in order to obtain a better vegetable juice with less change in the preservation flavor, the column discharged liquid is undiluted. It is preferable to carry out the circulation treatment.
【0023】循環処理を終了する時間は、循環処理を続
けるうちに、カラム排出液(循環液)のpHは徐々に低
下して来るので、このpHを測定し、判断すればよい。
すなわち、所要循環時間は流速と初発原液のpHによる
が、原液pHが4.0付近であれば8.5以下となった時
点、望ましくは8.0を切った時点を終点とし、以後の
排出液は循環させず、最後の水押しを含めて可能な限り
回収し、野菜搾汁液とすることが好ましい。Since the pH of the column discharge liquid (circulating liquid) gradually decreases as the circulation processing is continued, the pH may be measured and determined.
In other words, the required circulation time depends on the flow rate and the pH of the first undiluted solution, but if the undiluted solution pH is around 4.0, it will be 8.5 or less, preferably, if it falls below 8.0, the end point will be the end point, and the subsequent discharge It is preferable that the liquid is not circulated, but is collected as much as possible, including the last water push, to obtain a vegetable juice.
【0024】上記弱塩基性陰イオンカラム処理におい
て、流速を遅くしても徐々にpHが低下し所定pHに達
するが、樹脂接触時間が長いといわゆる樹脂臭を含みや
すくなるので、風味上あまり好ましくない。この樹脂臭
発現のメカニズムは定かではないが、イオン交換法によ
る各種飲料原料素材加工(例えば果汁の減酸、脱苦味
等)の場合に発現する事が多く、その臭気は「しつこい
アミン臭」等と表現されることが多いことから、樹脂に
含まれる反応基であるアミン類の不完全結合による微量
分の流出によるものが推定される。In the treatment with the weakly basic anion column, the pH gradually decreases even when the flow rate is reduced, and reaches a predetermined pH. However, if the resin contact time is long, a so-called resin odor is likely to be contained, so that the flavor is not preferable. Absent. Although the mechanism of this resin odor manifestation is not clear, it often manifests in the processing of various beverage raw materials (for example, acid reduction of juice, debittering, etc.) by the ion exchange method, and the odor is "a persistent amine odor" or the like. Therefore, it is presumed that traces are caused by incomplete binding of amines, which are reactive groups contained in the resin.
【0025】本発明方法では、このような風味上マイナ
スとなる樹脂臭の発生を抑制するために、処理流速を一
定速度以上に保ち、また、適切に循環終了時を判断する
ことが好ましい他、前記したようなアルカリ洗浄、酸洗
浄、アルカリ洗浄の順で樹脂再生処理を行うことも好適
である。 これらを採用することにより、樹脂臭の発生
はほとんど防ぐことが可能となる。In the method of the present invention, in order to suppress the generation of the resin odor having a negative flavor, it is preferable that the processing flow rate is maintained at a certain speed or more, and that the end of circulation is appropriately determined. It is also preferable to perform the resin regeneration treatment in the order of alkali washing, acid washing, and alkali washing as described above. By employing these, it is possible to almost prevent the generation of resin odor.
【0026】なお、樹脂処理中発生し得るいかなるアミ
ン結合物をも安全なレベルで保持するためにも、処理対
象野菜汁にアスコルビン酸をストレート濃度当たり60
mg%以上含有している事が望ましい。In order to maintain a safe level of any amine bond which may be generated during the resin treatment, ascorbic acid is added to the vegetable juice to be treated at a concentration of 60 / straight.
Desirably, the content is at least mg%.
【0027】本発明の野菜汁としては、透明化された野
菜汁として得ることが好ましく、このような透明化され
た野菜汁を得るために、各処理工程の何れかの工程の前
後に少なくとも1回の透明化処理工程を行うことが好ま
しい。 透明化処理には、例えば、破砕・搾汁した野菜
汁に有機酸を添加して懸濁物沈殿を促した後、ペクチナ
ーゼ等による酵素処理にて透明化する方法や、野菜汁を
UF膜を利用して透明化する方法が挙げられる。The vegetable juice of the present invention is preferably obtained as a transparent vegetable juice. In order to obtain such a transparent vegetable juice, at least one vegetable juice is provided before and after any of the treatment steps. It is preferable to perform the clearing process twice. For the clearing process, for example, after adding an organic acid to the crushed and squeezed vegetable juice to promote the precipitation of the suspension, a method of clearing by enzymatic treatment with pectinase, etc. Utilizing a method to make it transparent.
【0028】上記した方法のうち、ペクチナーゼ等によ
る酵素処理後の透明化は、従来から行われている濾過処
理法で十分であり、また、透明化に使用した酵素の失活
は85℃以上の加熱処理が行われる。 特に、有機酸添
加後の低pH状態の野菜汁を酵素処理し、酵素失活のた
め加熱することは、同時にタンパク質等の二次沈殿物形
成を促し、これを遠心分離・ケイソウ土濾過等で除去で
きるので効率的である。Among the above-mentioned methods, the conventional filtration treatment is sufficient for the clarification after the enzyme treatment with pectinase or the like, and the inactivation of the enzyme used for the clarification is 85 ° C. or more. Heat treatment is performed. In particular, treating vegetable juice in a low pH state after adding an organic acid with an enzyme and heating it to inactivate the enzyme simultaneously promotes the formation of secondary precipitates such as proteins, which are then centrifuged and diatomaceous earth filtered. It is efficient because it can be removed.
【0029】以上のようにして得られた野菜搾汁液(回
収液)は、混在する可能性のある樹脂破片等を除去する
ため、仕上げ濾過し、必要に応じて濃縮処理を行って製
品とする。また、このようにして得られた樹脂処理(回
収)野菜搾汁液はそのままでは高pHであり、微生物の
増殖の問題等や以後の使用性を考えて有機酸等を添加し
低pH製品とすると扱い易いものとなる。The vegetable squeezed liquid (recovered liquid) obtained as described above is subjected to finish filtration in order to remove resin debris and the like which may be mixed, and if necessary, concentrated to give a product. . In addition, the resin-treated (recovered) vegetable juice obtained in this manner has a high pH as it is, and is considered to be a low pH product by adding an organic acid or the like in consideration of the problem of microbial growth and the subsequent usability. It will be easy to handle.
【0030】更に、保存劣化を防ぐ能力をつけ加える意
味で、β−サイクロデキストリンをストレート濃度(B
x5°の野菜汁)当り0.1〜0.5%添加、溶解するこ
とも一法である。更にまた、保存劣化を防ぐ能力をつけ
加える意味で、食塩をストレート濃度当り0.08〜0.
3%添加溶解することも効果的である。Furthermore, β-cyclodextrin is added to a straight concentration (B
One method is to add and dissolve 0.1 to 0.5% per (vegetable juice of x5 °). Furthermore, in order to add the ability to prevent storage deterioration, salt is added in a concentration of 0.08 to 0.2 per straight concentration.
It is also effective to add and dissolve 3%.
【0031】かくして得られた本発明方法による野菜搾
汁液は、たとえば低温搾汁時に加え、樹脂処理を開始す
る直前に含まれていたアスコルビン酸を60%以上残存
しており、含有していたアミノ態窒素成分も平均で90
%以上の残存を示し、野菜中の有効成分がほとんど残存
しているものである。The thus-obtained vegetable juice obtained by the method of the present invention is added, for example, at the time of low-temperature juice, and ascorbic acid contained immediately before the start of the resin treatment remains in an amount of 60% or more. The nitrogen component is also 90 on average
% Of the active ingredient in the vegetable remains.
【0032】本発明の野菜搾汁液は、そのままで飲用に
供することもできるが、必要に応じて味覚や風味を調整
するための各種の添加物、例えば、塩、砂糖等の甘味
料、酸味料、香料、保存料等を加えることも可能であ
り、本発明中にそのような工程を加えることができる。
また、透明もしくは混濁果物ジュースと混合し、ミッ
クスジュースとすることも可能である。The vegetable juice of the present invention can be used for drinking as it is, but various additives for adjusting the taste and flavor as required, for example, sweeteners such as salt and sugar, and sour agents. , Fragrances, preservatives and the like can be added, and such a step can be added in the present invention.
It is also possible to mix with transparent or cloudy fruit juice to make a mixed juice.
【0033】更に、本発明の透明野菜汁液は、飲料とし
てのみならず、これを例えばペクチン、寒天、カラギナ
ン等の増粘もしくはゲル化多糖類、発酵乳、卵黄等と組
合せ、例えば、野菜ゼリー、野菜入りヨーグルト、野菜
プリン、ジャム等の食品とすることも可能である。ま
た、グミ、チョコレート、パン、飴等の食品への利用も
可能である。Further, the transparent vegetable juice of the present invention is used not only as a drink but also in combination with a thickening or gelling polysaccharide such as pectin, agar, carrageenan, fermented milk, egg yolk, etc., for example, vegetable jelly, Foods such as yogurt with vegetables, vegetable pudding, jam and the like are also possible. It can also be used for foods such as gummy, chocolate, bread, and candy.
【0034】[0034]
【作用】本発明方法により保存風味変化の少ない野菜搾
汁液が得られる作用機序は明らかではないが、有機酸が
弱塩基性陰イオン交換樹脂に吸着されることで錯イオン
を形成することが知られていることから、野菜汁に添加
した有機酸が弱塩基性陰イオン交換樹脂に吸着されるこ
とにより、樹脂表面に新たな架橋体が生まれ、野菜臭の
原因となる臭気物質もしくはその前駆物質が吸着するこ
とにより除去されるものと推定される。The mechanism by which the method of the present invention can produce a vegetable juice with little change in the preservation flavor is not clear, but it is possible that organic acids are adsorbed on a weakly basic anion exchange resin to form complex ions. It is known that the organic acid added to vegetable juice is adsorbed on the weakly basic anion exchange resin, creating a new cross-linked product on the resin surface, which causes odorous substances or precursors that cause vegetable odor. It is assumed that the substance is removed by adsorption.
【0035】[0035]
【実施例】以下、実施例、比較例及び評価例を挙げ、本
発明を更に詳しく説明するが、本発明はこれら実施例等
になんら制約されるものではない。EXAMPLES Hereinafter, the present invention will be described in more detail with reference to Examples, Comparative Examples and Evaluation Examples, but the present invention is not limited to these Examples and the like.
【0036】実 施 例 1 (1)キャベツを芯抜きし、カッターにて上部より十字
に4分割し、巻葉をバラバラにした後、食品用洗剤にて
洗浄した。 水シャワーにて洗剤をリンスした後、0.3
%のアスコルビン酸溶液に3分間浸漬した。EXAMPLES Example 1 (1) A cabbage was cored, divided into four crosses from above by a cutter, and the leaves were separated into pieces, followed by washing with a food detergent. After rinsing the detergent with a water shower, 0.3
% Ascorbic acid solution for 3 minutes.
【0037】キャベツ9部に対し1部の割合で1.5%
のアスコルビン酸溶液をミクログレーダー上部より滴下
しつつ破砕を行った。 破砕されたキャベツをフェッタ
ー型スクリュープレスにて搾汁し、集液した。 この搾
汁液を110℃、10秒の高温短時間加熱を行い、アス
コルビン酸102mg%を含むpH5.8のキャベツ粗
汁を得た。1.5% in a ratio of 1 part to 9 parts of cabbage
The ascorbic acid solution was dropped from the upper part of the micro grader to perform crushing. The crushed cabbage was squeezed with a Fetter type screw press and collected. This juice was heated at 110 ° C. for 10 seconds at a high temperature for a short time to obtain a cabbage crude juice having a pH of 5.8 and containing 102 mg% of ascorbic acid.
【0038】(2)キャベツ粗汁にクエン酸0.25%
を添加し、pHが4.0付近であることを確認したの
ち、ペクチナーゼSS(ヤクルト薬品工業(株))を0.
05%添加し、45℃で1時間の酵素反応を行った。酵
素反応後、95℃、10秒の短時間加熱を行い、冷却し
た後、ドラバル型遠心分離機にて懸濁物の除去を行っ
た。 更に#200のケイ藻土を用い仕上げ濾過を行った
のち、Bx30゜まで減圧濃縮を行った。(2) 0.25% citric acid in crude cabbage juice
After confirming that the pH is around 4.0, pectinase SS (Yakult Yakuhin Kogyo Co., Ltd.) was added to a pH of 0.1.
The enzyme reaction was performed at 45 ° C. for 1 hour. After the enzyme reaction, heating was performed at 95 ° C. for 10 seconds for a short time, and after cooling, the suspension was removed with a DeLaval centrifuge. Further, after performing a final filtration using diatomaceous earth of # 200, the resultant was concentrated under reduced pressure to Bx30 °.
【0039】(3)濃縮野菜汁をBx15°に希釈し、
処理用野菜汁(アスコルビン酸300mg%、pH3.
97、クエン酸酸度1.4%、アミノ態窒素248mg
%)を得た。 この野菜汁 1600kgを、IRA−9
4Sカラム(樹脂容量: 1000リットル)を用い、
下向流にて処理した。 樹脂処理条件は、通液スピード
がSV 3、1000リットル/20分で流し、Bx5
°までの初流は廃棄し、Bx5°以上のものを元液に戻
し循環処理した。(3) Dilute the concentrated vegetable juice to Bx15 °,
Vegetable juice for processing (ascorbic acid 300mg%, pH 3.
97, citric acidity 1.4%, amino nitrogen 248mg
%). 1600 kg of this vegetable juice is used for IRA-9
Using a 4S column (resin capacity: 1000 liters)
Treated in downward flow. The resin treatment conditions were as follows: liquid passing speed: SV 3, 1000 liters / 20 minutes;
The first stream up to 5 ° was discarded, and the one with Bx of 5 ° or more was returned to the original solution and circulated.
【0040】カラムからの排出液のpHが8.0になっ
た所で循環をやめて野菜汁の回収を開始し、更に最後に
イオン交換水にて水押しを行い、カラムからの排出液の
Bxが2.0を切った所で回収を終了した。得られた野
菜汁(回収液)は、Bxが11.0、pHが7.80で、
その回収液量は1960リットルであった。When the pH of the effluent from the column reached 8.0, the circulation was stopped to start collecting the vegetable juice, and finally, water was pushed with ion-exchanged water, and the Bx of the effluent from the column was extracted. Ended the collection when it fell below 2.0. The resulting vegetable juice (recovered liquid) had a Bx of 11.0 and a pH of 7.80.
The recovered liquid volume was 1960 liters.
【0041】(4) なお、上記(3)で用いたIRA
−94Sカラムは、次の様にして樹脂再生洗浄を行っ
た。すなわち、(3)の循環処理終了後、イオン交換水
2BV以上を流し、内容物の水洗浄を行った後、1Nの
NaOHにより2BV分をSV=3程度で流す。これに
より内容物の特に着色成分の洗浄が行える。続いてイオ
ン交換水にて5BV以上の洗浄を行った後、1Nの塩酸
2BV分をSV=3程度で流す。(4) The IRA used in (3) above
The −94S column was subjected to resin regeneration washing as follows. That is, after the circulation treatment of (3) is completed, 2 BV or more of ion-exchanged water is flown, and the contents are washed with water, and then 2 BV is flown at about SV = 3 with 1N NaOH. Thereby, the contents, especially the coloring components, can be washed. Then, after washing with 5 BV or more with ion-exchanged water, 2 BV of 1N hydrochloric acid is flown at SV = about 3.
【0042】更に、イオン交換水にて5BV以上の洗浄
を行った後、1NのNaOHを2BV分をSV=3程度
で流す。この2度目のアルカリ洗浄は樹脂を塩基性に戻
す事を目的に行うものである。以上の処理方法により樹
脂は再生され、以後樹脂能力は通常のレベルを維持出来
る。After washing with ion-exchanged water for 5 BV or more, 1N NaOH is flown for 2 BV for about SV = 3. This second alkali washing is performed for the purpose of returning the resin to basic. The resin is regenerated by the above-mentioned processing method, and thereafter, the resin capacity can be maintained at a normal level.
【0043】実 施 例 2 実施例1で得た野菜汁(11.0Bx)100部に0.4
部のβ−サイクロデキストリンを加え20分間攪拌溶解
した。Example 2 0.4 parts of vegetable juice (11.0 Bx) obtained in Example 1 was added to 100 parts.
Of β-cyclodextrin was added and dissolved by stirring for 20 minutes.
【0044】実 施 例 3 実施例2で得た野菜汁(12.2Bx)100部に0.2
部の食塩を添加し、20分間攪拌溶解した。EXAMPLE 3 100 parts of the vegetable juice (12.2 Bx) obtained in Example 2 was added to 0.2 part.
A portion of salt was added, and the mixture was stirred and dissolved for 20 minutes.
【0045】比 較 例 1 (1)キャベツを芯抜きしカッターにて上部より十字に
4分割し、巻葉をバラバラにした後食品用洗剤にて洗浄
した。水シャワーにて洗剤をリンスした後、0.3%の
アスコルビン酸溶液に3分間浸漬した。キャベツ9部に
対し1部の割合で1.5%のアスコルビン酸溶液をミク
ログレーダー上部より適下しつつ破砕を行った。破砕さ
れたキャベツをフェッター型スクリュープレスにて搾汁
し、集液した。この搾汁液を110℃、10秒の高温短
時間加熱を行い、アスコルビン酸105mg%を含むp
H5.7のキャベツ粗汁を得た。Comparative Example 1 (1) A cabbage was cored, divided into four crosses from above with a cutter, and the leaves were separated into pieces and washed with a food detergent. After rinsing the detergent with a water shower, it was immersed in a 0.3% ascorbic acid solution for 3 minutes. Crushing was carried out while appropriately applying a 1.5% ascorbic acid solution in a ratio of 1 part to 9 parts of cabbage from the upper part of the micrograder. The crushed cabbage was squeezed with a Fetter type screw press and collected. This juice was heated at 110 ° C. for 10 seconds at a high temperature for a short time, and p-containing 105 mg% of ascorbic acid was heated.
A crude cabbage juice of H5.7 was obtained.
【0046】(2)キャベツ粗汁にクエン酸0.25%
を添加し、pHが4.0付近であることを確認した後、
ペクチナーゼSS(ヤクルト薬品工業(株))を0.05
%添加し、45℃で1時間の酵素反応を行った。 酵素
反応後、95℃、10秒の短時間加熱を行い、冷却した
後、ドラバル型遠心分離機にて懸濁物の除去を行った。
更に#200のケイ藻土を用い仕上げ濾過を行ったの
ち、Bx30゜まで減圧濃縮を行った。(2) 0.25% citric acid in cabbage crude juice
After confirming that the pH is around 4.0,
Pectinase SS (Yakult Yakuhin Kogyo Co., Ltd.)
%, And an enzyme reaction was performed at 45 ° C. for 1 hour. After the enzyme reaction, heating was performed at 95 ° C. for 10 seconds for a short time, and after cooling, the suspension was removed with a DeLaval centrifuge.
Further, after performing a final filtration using diatomaceous earth of # 200, the resultant was concentrated under reduced pressure to Bx30 °.
【0047】比 較 例 2 (1)キャベツを芯抜きしカッターにて上部より十字に
4分割し、巻葉をバラバラにした後食品用洗剤にて洗浄
した。 水リンス後、熱水にてキャベツの芯様の最厚部
の中心が85℃に達するまで加熱した。グレーダにて破
砕後油圧プレスにて搾汁を行い、集液後110℃、10
秒の高温短時間加熱の後アスコルビン酸100mg%を
添加し、Bx5.2、pH5.9のキャベツ粗汁を得た。Comparative Example 2 (1) Cabbage was cored, divided into four crosses from above using a cutter, and the leaves were separated into pieces and washed with a detergent for food. After water rinsing, the cabbage was heated with hot water until the center of the thickest portion of the cabbage reached 85 ° C. After crushing with a grader, squeezing is performed with a hydraulic press.
After heating at a high temperature for a short time of 2 seconds, 100 mg% of ascorbic acid was added to obtain a crude cabbage juice of Bx5.2, pH 5.9.
【0048】(2)キャベツ粗汁にクエン酸0.25%
を添加し、pHが4.0付近であることを確認した後、
ペクチナーゼSS(ヤクルト薬品工業(株))を0.05
%添加し、45℃、1時間の酵素反応を行った。 95
℃、10秒の短時間加熱を行い、冷却後ドラバル型遠心
分離機にて生成した懸濁物の除去を行った。更に、#5
00のケイ藻土濾過を行ったのち#200のケイ藻土で
仕上げ濾過を行い、可溶性固形分30%まで濃縮を行
い、濃縮野菜汁を得た。(2) 0.25% citric acid in cabbage crude juice
After confirming that the pH is around 4.0,
Pectinase SS (Yakult Yakuhin Kogyo Co., Ltd.)
%, And an enzyme reaction was performed at 45 ° C. for 1 hour. 95
The mixture was heated at a temperature of 10 ° C. for a short period of time for 10 seconds, and after cooling, a suspension produced by a DeLaval centrifuge was removed. In addition, # 5
After performing diatomaceous earth filtration of No. 00, the resultant was subjected to finish filtration with diatomaceous earth of # 200, and concentrated to a soluble solid content of 30% to obtain a concentrated vegetable juice.
【0049】評 価 例 1 実施例1〜3ならびに比較例1および2で得られた野菜
汁を各原液(オリジナル)Bx換算1.5°の濃度に調
整した後、クエン酸を添加し全てのpHを4.0とし、
100ml瓶にホットパックし成分比較を行った。 こ
の結果を表1に示す。Evaluation Example 1 Vegetable juice obtained in Examples 1 to 3 and Comparative Examples 1 and 2 was adjusted to a concentration of 1.5 ° in terms of each stock solution (original) Bx, and then citric acid was added to all the solutions. pH 4.0,
The components were compared by hot-packing in a 100 ml bottle. Table 1 shows the results.
【0050】 [0050]
【0051】評 価 例 2 上記の評価例1で用いた各野菜汁を、85℃加熱後、倒
置2分でガラス容器にそれぞれホットパックした。 製
造日のものと製造後37℃にて所定日数保存したもの
を、それぞれ冷却して官能検査に供した。Evaluation Example 2 Each of the vegetable juices used in Evaluation Example 1 was heated at 85 ° C. and then hot-packed in a glass container by inversion for 2 minutes. The product on the date of manufacture and the product stored at 37 ° C. for a predetermined number of days after the manufacture were cooled and subjected to a sensory test.
【0052】官能検査は果汁系飲料開発を行っている研
究員8名のパネルにより、キャベツ感、異臭(漬物
臭、古漬臭…あらかじめ同様の臭いで訓練した)を官能
評価し、以下の6段階で評価した。 パネルの評価の平
均を表2に示す。The sensory test was conducted by a panel of eight researchers who are developing fruit juice beverages. Sensory evaluation of cabbage sensation and off-flavor (pickled odor, old pickled odor: trained with the same odor beforehand) was performed in the following six steps. evaluated. Table 2 shows the average of the panel evaluations.
【0053】評価基準: 評 点 0 臭いが全くない。 1 臭いがあるかないかの程度である。 2 臭いがわずかにある。 3 臭いがややある。 4 臭いがかなりある。 5 臭いが強烈にある。Evaluation criteria: Rating 0 No odor at all. 1 It is the degree of smell or not. 2 There is a slight smell. 3 There is a slight smell. 4 There is quite a smell. 5 There is a strong smell.
【0054】 [0054]
【0055】以上の評価例1および2から明らかなよう
に、本発明方法による野菜搾汁液は、成分的に従来法と
ほとんど変わらないにもかかわらず、37℃、4週間の
保存によっても、ほとんど異臭を発生させないものであ
った。As is evident from the evaluation examples 1 and 2, the vegetable juice obtained by the method of the present invention is almost the same even when stored at 37 ° C. for 4 weeks even though it is almost the same in terms of components. It did not generate off-flavors.
【0056】[0056]
【発明の効果】本発明方法によれば、従来、常温保存時
に発生する漬物臭等と表現される異臭を防ぐことができ
ず、事実上商品として提供できなかった、キャベツ、ブ
ロッコリーを含め多くの野菜類の野菜搾汁液を通常の常
温保管商品とすることが可能となる。従って、簡単に摂
取することのできる新しいタイプの野菜飲料を提供する
ことができるので、食品産業上の意義の大きいものであ
る。 以 上According to the method of the present invention, it has been impossible to prevent unpleasant odors, such as pickled odor, generated during storage at room temperature. Vegetable vegetable juice can be stored as normal room temperature storage products. Therefore, it is possible to provide a new type of vegetable drink that can be easily ingested, which is of great significance in the food industry. that's all
───────────────────────────────────────────────────── フロントページの続き (56)参考文献 特開 平5−56771(JP,A) 特開 平5−7471(JP,A) 特開 昭59−31678(JP,A) 特開 昭55−131357(JP,A) 特開 平8−9939(JP,A) (58)調査した分野(Int.Cl.6,DB名) A23L 2/00 - 2/40 ──────────────────────────────────────────────────続 き Continuation of the front page (56) References JP-A-5-56771 (JP, A) JP-A-5-7471 (JP, A) JP-A-59-31678 (JP, A) JP-A-55-1981 131357 (JP, A) JP-A-8-9939 (JP, A) (58) Fields investigated (Int. Cl. 6 , DB name) A23L 2/00-2/40
Claims (6)
で有機酸を添加し、更にこの野菜汁を弱塩基性陰イオン
交換樹脂にて処理することを特徴とする保存可能な野菜
搾汁液の製造法。1. A storable vegetable extract characterized by crushing and squeezing vegetables into vegetable juice, adding an organic acid, and treating the vegetable juice with a weakly basic anion exchange resin. Production method of juice.
を、野菜汁のpHが8.5以下となるまでの循環処理で
行う請求項第1項記載の保存可能な野菜搾汁液の製造
法。2. The method for producing a storable vegetable juice according to claim 1, wherein the treatment with the weakly basic anion exchange resin is carried out by a circulation treatment until the pH of the vegetable juice becomes 8.5 or less.
を、搾汁した野菜汁100部に対し、10部〜100部
の弱塩基性陰イオン交換樹脂を用いて行う請求項第1項
または第2項記載の保存可能な野菜搾汁液の製造法。3. The method according to claim 1, wherein the treatment with the weakly basic anion exchange resin is carried out using 10 to 100 parts of the weakly basic anion exchange resin with respect to 100 parts of the squeezed vegetable juice. 3. The method for producing a storable vegetable juice according to claim 2.
の透明化処理を行う請求項第1項〜第3項のいずれかの
項記載の保存可能な野菜搾汁液の製造法。4. The method for producing a storable vegetable juice according to claim 1, wherein at least one of the treatment steps is subjected to at least one clarification treatment.
添加することを特徴とする請求項第1項〜第4項のいず
れかの項記載の保存可能な野菜搾汁液の製造法。5. The method for producing a storable vegetable juice according to claim 1, wherein a cyclodextrin is further added to the vegetable juice.
載の方法により製造された野菜搾汁液を含有する食品。6. A food containing a vegetable juice produced by the method according to any one of claims 1 to 5.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP7079351A JP2887653B2 (en) | 1995-03-13 | 1995-03-13 | Method of producing storable vegetable juice |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP7079351A JP2887653B2 (en) | 1995-03-13 | 1995-03-13 | Method of producing storable vegetable juice |
Publications (2)
Publication Number | Publication Date |
---|---|
JPH08242826A JPH08242826A (en) | 1996-09-24 |
JP2887653B2 true JP2887653B2 (en) | 1999-04-26 |
Family
ID=13687492
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
JP7079351A Expired - Lifetime JP2887653B2 (en) | 1995-03-13 | 1995-03-13 | Method of producing storable vegetable juice |
Country Status (1)
Country | Link |
---|---|
JP (1) | JP2887653B2 (en) |
Families Citing this family (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US6833148B1 (en) * | 1998-10-16 | 2004-12-21 | Sunstar Inc. | Green vegetable purees, process for producing the same and foods containing the purees |
JP5817094B2 (en) * | 2009-09-04 | 2015-11-18 | キユーピー株式会社 | Processed tomato and method for producing the same |
JP2013201937A (en) * | 2012-03-28 | 2013-10-07 | Yakult Honsha Co Ltd | Beverage including squeezed juice of vegetable belonging to brassicaceae |
JP6279064B1 (en) * | 2016-12-26 | 2018-02-14 | カゴメ株式会社 | Method for producing deacidified tomato juice and method for suppressing reduction of glutamic acid concentration in deacidified tomato juice |
WO2021193985A1 (en) * | 2020-03-24 | 2021-09-30 | カゴメ株式会社 | Production method for concentrated juice |
-
1995
- 1995-03-13 JP JP7079351A patent/JP2887653B2/en not_active Expired - Lifetime
Also Published As
Publication number | Publication date |
---|---|
JPH08242826A (en) | 1996-09-24 |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
JP2704783B2 (en) | Prevention method of flavor deterioration of food and drink | |
EP0174594A1 (en) | Method of producing sterile and optionally concentrated juices with improved flavor and optionally reduced acid | |
JP3017926B2 (en) | Method of producing storable vegetable juice | |
AU2001257463A1 (en) | Quality fruit juice beverages having extended quality shelf-life and methods of making the same | |
MXPA02010933A (en) | Quality fruit juice beverages having extended quality shelf life and methods of making the same. | |
JP2011120602A (en) | Shelf-stable, non-alcoholic, haze-free malt beverage and method | |
CN100344241C (en) | Flavored sugarcane juice in aseptic unit package | |
JP2887653B2 (en) | Method of producing storable vegetable juice | |
JPH11146774A (en) | Health beverage and its production | |
JPH089939A (en) | Production of transparent vegetable juice | |
KR0178423B1 (en) | Preparation of tree sap | |
JP3676178B2 (en) | Methods for processing cruciferous vegetables, methods for producing cruciferous vegetables and foods, and cruciferous vegetables and foods | |
Cohn et al. | The by-products of fruit processing | |
JPS5851880A (en) | Production of stabilized beverage using fruit juice as starting material | |
US1362868A (en) | Process of treating fruit-juice | |
JP2003164272A (en) | Refreshing drink | |
JP2005278605A (en) | Fruit juice beverage | |
JP2000262216A (en) | Sweetener-containing coffee beverage and its production | |
US20010038869A1 (en) | Fruit vinegar from raw material flavorful acid citrus fruit juice and method for producing the same | |
JP3425404B2 (en) | Apple juice production method | |
Akelah et al. | Polymers in food processing industries | |
JP2653761B2 (en) | Manufacturing method of peach beverage | |
CN1043180C (en) | Flavouring agent-pickle nutrient extract and its mfg. method | |
Irish | Fruit juices and fruit juice beverages | |
JPH01179647A (en) | Lactic acid-fermented beverage and preparation thereof |