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JP3648993B2 - Production method of egg yolk liquid and food containing egg yolk - Google Patents

Production method of egg yolk liquid and food containing egg yolk Download PDF

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Publication number
JP3648993B2
JP3648993B2 JP23261698A JP23261698A JP3648993B2 JP 3648993 B2 JP3648993 B2 JP 3648993B2 JP 23261698 A JP23261698 A JP 23261698A JP 23261698 A JP23261698 A JP 23261698A JP 3648993 B2 JP3648993 B2 JP 3648993B2
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Japan
Prior art keywords
egg yolk
heat
liquid
alginate
yolk
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JP23261698A
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Japanese (ja)
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JPH11127818A (en
Inventor
民男 有島
弘二 荻野
義之 山根
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Kaneka Corp
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Kaneka Corp
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Description

【0001】
【発明の属する技術分野】
本発明は、熱凝固性を低下させた卵黄液を製造する方法及び該卵黄液を含有する卵黄含有食品に関するものである。
【0002】
【従来の技術】
卵黄は、その特有の風味及び乳化等の機能面において優れているために各種加工食品に使用されている。しかし、物性面において約65℃以上に加熱を施すと熱凝固するために、加工時において添加量及び用途が限定されていた。
また、卵黄は割卵、卵白との分離等の手間があるにも関わらず、その熱凝固性のため充分な加熱殺菌が行えない為、衛生面、特にサルモネラ菌による食中毒の問題から長期保存できず、各種製造メーカーで作業性の低下を招いている。
【0003】
これらの問題を解決すべく、従来から様々な試みがなされていた。
卵黄液の熱安定性を改良する方法として、卵黄液にプロテアーゼ処理を施して卵黄を組成するタンパク質を低分子化する方法が知られている。例えば、特公昭45−9215ではプロテアーゼ等の酵素で処理して得られる酵素処理卵黄を用いているが、酵素処理により苦味が生成するとともに卵黄本来の優れた風味は損なわれてしまうものである。また特公平3−61411には、卵黄を酸性域でプロテアーゼ処理することにより耐熱性を向上させることが開示されているが、pHを酸性域から中性域に中和する際に塩が生じるために塩辛くなり、その使用用途がマヨネーズ等に限定されるほか、この方法で得られたものには充分な耐熱効果が得られていないのが実状である。
【0004】
これらプロテアーゼ処理による卵黄の耐熱化においては、手間と時間がかかること、タンパク質の低分子化による苦味の生成及び乳化力、風味の低下などの問題があり、食品に卵黄を添加する目的から遠ざかっている。市場で耐熱性の卵黄として販売されているものもほとんどが酵素処理されたものである。
また、上記の問題を解決しようとする試みが、特開平4−281765でなされており、卵黄を不完全に熱変性させたものを均質化することで卵黄に耐熱性を付与させようとしている。しかし、プロテアーゼ処理のような風味の低下は少ないもののUHT等の高温殺菌処理を行うには耐熱性が低く、また均質化等の処理には大変手間と時間がかかるために実用的なものではなかった。さらに特公平7−108207ではラムダカラギーナンにより卵黄の熱凝固性が低減されることが示されているが、この場合には一度熱凝固性が低減されるとそれを回復することはできないだけでなく、UHT等の高温殺菌処理を行うには耐熱性が低く、またラムダカラギーナンと蛋白質の反応により経時的に粘度増加するため、食品に用いた場合に食品の品質が安定しないものであった。
【0005】
【発明が解決しようとする課題】
卵黄はその優れた風味、特性から様々な食品に用いられている。しかし、その熱凝固性及び衛生上の問題からその用途が限定されているのが現状である。
その為、熱凝固性がコントロールでき、風味低下のない簡易的な卵黄液が要求されている。
【0006】
上記課題を解決するためには、卵黄の熱凝固性のコントロールが必要であるが、この様な卵黄の熱凝固性のコントロールが可能になると、卵黄を含有する食品の衛生面及び保存性の問題が一挙に解決され、UHTなどの高温殺菌処理を施した完全無菌の卵黄含有加工食品の製造が可能となる。即ち、本発明は、熱凝固性がコントロールでき、卵黄本来の風味を維持する簡易的な卵黄液の製造方法及び該卵黄液を含有する卵黄含有食品を提供するものである。
【0007】
【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べき鋭意研究の結果、アルギン酸塩及び/又はアルギン酸化合物を卵黄に含有させることより、卵黄が本来の風味を維持したまま熱凝固性が低下し、カルシウム封鎖剤の添加によりその熱凝固性が回復することを見出し、本発明を完成するに至った。
【0008】
即ち、本発明の第1は、卵黄と、アルギン酸塩及び/又はアルギン酸化合物とを混合した後、冷却することにより熱凝固性を低下させてなることを特徴とする卵黄液の製造方法を、また本発明の第2は、上記の製造方法により製造された卵黄液を含有し、加熱殺菌してなることを特徴とする卵黄含有食品をそれぞれ内容とするものである。
【0009】
【発明の実施の形態】
以下、本発明について詳述する。
本発明に用いる卵黄は、通常の生卵黄、約60℃、3分間程度加熱した殺菌卵黄、熱凝固変性した卵黄、一部だけ熱凝固変性した卵黄を均質化したもの、又は乾燥卵黄を水に溶いたものであってもよく、特に何ら制限はない。例えば、割卵した後、卵白と分離して得られた卵黄等がごく一般的なものである。また卵黄液中の卵黄濃度は特に制限なく熱凝固性を低下できる。
【0010】
本発明に用いるアルギン酸塩としては、例えばアルギン酸のナトリウム塩、カリウム塩、カルシウム塩、アンモニウム塩、アンモニア塩、亜鉛塩、その他アルギン酸を出発原料とし水可溶性の塩としたもの等が挙げられるが、一般に安価で食品での使用例が多いことなどからアルギン酸ナトリウムが好ましい。
アルギン酸化合物としては様々なエステル化合物が挙げられるが、食品にて一般的に使用例が多いアルギン酸プロピレングリコールエステル等が例示される。また、原料である藻類の由来、アルギン酸の分子量の違い、アルギン酸の構成成分であるβ−(1→4)−D−マンヌロン酸(以下「M」と略す。)及びα−(1→4)−L−グルロン酸(以下「G」と略す。)の量的比率(M/G比率)と配列の仕方等には特に制限はないが、好ましくはM/G比率の高いものが、また粘度については低粘度品から高粘度品までのもの、好ましくは中粘度品から高粘度品までのものが、卵黄の熱凝固性低下が可能である。
【0011】
アルギン酸塩及び/又はアルギン酸化合物の添加割合としては、その食品の卵黄含有量、加熱温度に左右されるために特に限定されるものではないが、卵黄に対して0.25〜2重量%の範囲で用いるのが好ましい。
本発明の卵黄液とは、卵黄とアルギン酸塩及び/又はアルギン酸化合物と、必要に応じてさらに水とからなるものである。なお、卵黄液のpHについては特に制限はなく、食することが可能な食品の範囲内であれば、何ら問題はない。しかし、低pH域ではアルギン酸が析出する場合があるので、pH5以上が好ましい。
【0012】
本発明の卵黄液の製造方法としては、卵黄と、アルギン酸塩及び/又はアルギン酸化合物と、必要に応じて水を混合することにより製造できるが、卵黄液に水が存在する場合には完全に溶解できるよう50℃程度に加熱した水にアルギン酸塩及び/又はアルギン酸化合物を予め溶解しておくことが好ましい。
本発明の卵黄液の加熱方法については、特に制限はなく、例えばUHT殺菌、プレート式殺菌、バッチ式殺菌、掻き取り式殺菌、チューブラー式殺菌、レトルト殺菌等の方式が示されるが、これらに限定されるものではない。加熱条件についても特に制限はなく、卵黄液の必要に応じて菌が死滅すればよく、例えば65〜145℃で1秒〜30分間が例示される。
【0013】
本発明の卵黄液がアルギン酸塩及び/又はアルギン酸化合物により熱凝固性が低下される理由は明らかではないが、卵黄のカルシウム分とアルギン酸塩の反応より卵黄蛋白質の周りを覆うように熱不可逆ゲルが形成され、卵黄蛋白質が熱変性した時の凝集を妨げているのではないかと考えられる。よって、製造時に冷却を行い、ゲルの形成を促進させることがより好ましい。従って、カルシウムイオンをアルギン酸塩から奪う様な物質であるカルシウム封鎖剤、例えば重合リン酸塩、クエン酸塩等を添加すると上記の理由よりゲルの形成が阻害されるため、熱凝固性を回復できるのではないかと考えられる。
【0014】
本発明の卵黄含有食品としては、本発明の卵黄液に他の成分としてグラニュー糖、オリゴトース、ソルビトール等の糖類、牛乳、全脂粉乳、脱脂粉乳、カゼイン、ラクトアルブミン、ラクトース等の乳成分及び乳蛋白質、植物性脂肪分及び乳脂肪分等の油脂、乳化剤、増粘剤などの食品素材、原料、及び添加物を含めた食品、例えば、卵黄含有ホイップクリーム、カスタードクリーム、アングレースソース、卵黄含有ソース又はスープ類、マヨネーズ、ドレッシング等の卵黄を用いた食品が挙げられる。本発明の卵黄液に上記他の成分が含まれていても卵黄の熱凝固性低下には何ら問題はない。但し、カルシウムイオンに対してキレート作用及び反応性のある物質、例えば重合リン酸塩、クエン酸塩等は卵黄の耐熱化効果を失わせる。従って、殺菌後に卵黄の熱凝固性を復活させたければ重合リン酸塩等のカルシウム封鎖剤を添加すればよい。
【0015】
本発明の卵黄含有食品の製造方法としては、各食品の常法による製造方法により製造できる。またこれまで卵黄の熱凝固性のため製造できなかった配合及び条件でも本発明を用いることにより製造可能となる。
本発明の卵黄含有食品を加熱殺菌する場合、その方法については、特に制限はなく、例えばUHT殺菌、プレート式殺菌、バッチ式殺菌、掻き取り式殺菌、チューブラー式殺菌、レトルト殺菌等の方式が示されるが、これらに限定されるものではない。加熱殺菌条件についても特に制限はなく、各食品の必要に応じて衛生的に菌が死滅すればよく、例えば65〜145℃で1秒〜30分間が例示される。
【0016】
【実施例】
次に、実施例を挙げて本発明を更に詳しく説明するが、本発明はこれらに限定されるものではない。
なお 以下の記載において、「%」又は「部」とあるのは、特に断らない限り「重量%」、「重量部」を意味する。
実施例1
0.2%アルギン酸ナトリウム(商品名:キミツアルギンI−1、君津化学工業株式会社製)を50℃の水89.8%に溶解した後、10%卵黄を添加し、5℃まで冷却した。その後、95℃、10分間撹拌しながら加熱した。10分後、卵黄液の卵黄の熱凝固は特に見られなかった。
実施例2
0.4%アルギン酸プロピレングリコールエステル(商品名:キミロイドHV、君津化学工業株式会社製)を50℃の水89.6%に溶解した後、10%卵黄を添加し5℃まで冷却した。その後、95℃、10分間撹拌しながら加熱した。10分後、卵黄液の卵黄の熱凝固は特に見られなかった。
比較例1
添加するアルギン酸ナトリウムを水に置換する以外は実施例1と同様の方法で卵黄液の加熱テストを行った。その結果、卵黄液の卵黄は完全に熱凝固していた。
比較例2〜4
添加するアルギン酸ナトリウムをキサンタンガム、ペクチン、寒天にする以外は実施例1と同様の方法で卵黄液の加熱テストを行った。その結果、いずれにおいても卵黄液の卵黄は完全に熱凝固していた。
比較例5
実施例1の水のpHは6.8であった。そこで、クエン酸にて水のpHを4.0に調整した後にアルギン酸ナトリウムを実施例1と同様に溶解した。その結果、アルギン酸が繊維状で析出してしまった。
実施例3
50℃まで昇温した水84.7%にアルギン酸ナトリウム(商品名:スノーアルギンL、富士化学工業株式会社製)を0.3%を攪拌しながら溶解し、完全に溶解した後、卵黄15%を添加し、十分に撹拌、反応を行い、卵黄液を作成した。この卵黄液をバッチ式殺菌(85℃、15分)した。この卵黄液を95℃、10分間撹拌、加熱を行った。10分後、卵黄液の卵黄の熱凝固は見られなかった。
実施例4
実施例3の卵黄液99.8%にポリリン酸ナトリウム0.2gを添加し、95℃、10分間撹拌、加熱を行った。10分後、卵黄液の卵黄は完全に熱凝固しており、プリン状になっていた。
実施例5
50℃まで昇温した水49%にアルギン酸ナトリウム(商品名:ダックアルギンSL−20、紀文フードケミファ株式会社製)を1%を攪拌しながら溶解し、完全に溶解した後、卵黄50%を添加し、十分に撹拌、反応、冷却を行い、卵黄液を作成した。この卵黄液に以下に示す配合組成物を添加し、乳化液とした。
硬化菜種油(融点30℃) 45%
レシチン 0.5%
全脂粉乳 5%
シュガーエステルS−1670(三菱化成食品株式会社製) 0.5%
卵黄液 30%
水 19.0%
上記の乳化液をUHT殺菌(145℃、4秒)し、常法によりホイップクリームを製造した。その結果、殺菌装置部分において卵黄の凝固は生じず、良好なホイップクリームが製造できた。
比較例6
アルギン酸ナトリウムを水に置換した以外は実施例5と同様にホイップクリームを製造した。その結果、卵黄がUHT殺菌装置部分において熱凝固したため、乳化液を流すことができず、ホイップクリームは製造できなかった。
実施例6
50℃まで昇温した水50部にアルギン酸ナトリウム(商品名:キミツアルギンIL−2、君津化学工業株式会社製)4部を攪拌しながら溶解し、完全に溶解した後、卵黄200部を添加し、十分に撹拌、反応、冷却を行い、卵黄液を作成した。この卵黄液に以下に示す配合組成物を添加した。
牛乳 353部
グラニュー糖 100部
小麦粉 10.5部
コーンスターチ 15部
バター(無塩) 20部
上記配合物をコンビネーター(シュレーダー社製)にて85℃、15分にて加熱を行い、カスタードクリームを製造した。できたカスタードクリームはざらつきなどもなくなめらかな食感であった。
実施例7〜9
以下の配合でアルギン酸ナトリウム(商品名:キミツアルギンI−3、君津化学工業株式会社製)の構成成分の違い(M/G比)による検討を行った。
【0017】
60℃の水にそれぞれのアルギン酸ナトリウムを溶解、卵黄と混合後、5℃まで冷却し、その温度にて10時間ホールドした。その後、各溶液を95℃、10分間撹拌加熱を行い、状態及び凝集体の大きさをレーザー回折式粒度分布測定装置LA-500(堀場製作所製)にて測定し、熱凝固性を比較した。
結果を表1に示す。
【0018】
【表1】

Figure 0003648993
【0019】
表1より、実施例7〜9の試料全てを加熱後、流動性を維持していた。しかし、上記の通り、M/G比率が高い(Mが多い)ほど加熱後の粒径が細かく、熱凝固性の低下効果が高いことが確認できた。
【0020】
【発明の効果】
本発明により得られる効果は、以下の通りである。
(1)酵素処理等の様に、卵黄本来の風味を損ねることなく、簡易的に殺菌及び無菌の卵黄液及び卵黄含有食品を製造することが可能となる。それにより、サルモネラ菌などによる食中毒の危険性がなくなり、衛生的に安心して卵黄含有食品を製造及び食することができる。更には、製造現場においても省力化できる。
(2)無菌の卵黄液が製造できるため、従来の加糖、加塩、冷凍等の保存性をあげる操作が不必要となり、作業性及び扱いやすさが向上する。
(3)熱凝固性がコントロール出来る為、これまでと異なった卵黄含有食品が製造可能となる。
(4)卵黄の熱凝固性のためにこれまで工程上製造できなかった卵黄含有食品を製造することが可能となる。
(5)卵黄の熱凝固性によるザラツキ等が解決したことにより、これまでになかった新たな風味及び食感の卵黄含有食品を製造することができる。
(6)加熱による卵黄の乳化力の低下も無くなるため、卵黄の乳化力を利用した食品の保存性を向上することができる。[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a method for producing an egg yolk liquid having reduced heat coagulation properties and an egg yolk-containing food containing the egg yolk liquid.
[0002]
[Prior art]
Egg yolk is used in various processed foods because of its excellent flavor and emulsification and other functional aspects. However, in terms of physical properties, when it is heated to about 65 ° C. or more, it is thermally coagulated, so that the addition amount and use are limited during processing.
In addition, egg yolk cannot be stored for a long time due to hygiene, especially food poisoning due to Salmonella, because it is hard to sterilize due to its thermal coagulation, despite the trouble of separating it from split eggs and egg white. In other manufacturers, workability is reduced.
[0003]
Various attempts have been made to solve these problems.
As a method for improving the thermal stability of egg yolk juice, a method of reducing the molecular weight of a protein constituting egg yolk by subjecting the egg yolk juice to a protease treatment is known. For example, in Japanese Examined Patent Publication No. 45-9215, an enzyme-treated egg yolk obtained by treatment with an enzyme such as a protease is used. However, a bitter taste is generated by the enzyme treatment and the excellent flavor of egg yolk is impaired. Japanese Patent Publication No. 3-61411 discloses that egg yolk is treated with protease in the acidic range to improve heat resistance, but salt is generated when the pH is neutralized from the acidic range to the neutral range. In addition to being salty, its use is limited to mayonnaise and the like, and the fact that a sufficient heat-resistant effect is not obtained is obtained in this method.
[0004]
In the heat treatment of egg yolk by protease treatment, there are problems such as time and labor, generation of bitterness and emulsifying power due to low molecular weight of protein, deterioration of flavor, etc., away from the purpose of adding egg yolk to food Yes. Most of the products sold as heat-resistant egg yolk on the market are treated with enzymes.
Further, an attempt to solve the above problem is made in Japanese Patent Laid-Open No. 4-281765, and it is intended to impart heat resistance to the egg yolk by homogenizing the egg yolk that has been heat-denatured incompletely. However, although there is little deterioration in flavor like protease treatment, heat resistance is low to perform high-temperature sterilization treatment such as UHT, and homogenization treatment is very troublesome and time consuming, so it is not practical. It was. Furthermore, although Japanese Patent Publication No. 7-108207 shows that lambda carrageenan reduces the heat coagulation property of egg yolk, in this case, once the heat coagulation property is reduced, it cannot be recovered. In order to perform high-temperature sterilization treatment such as UHT, the heat resistance is low, and the viscosity increases with time due to the reaction between lambda carrageenan and protein, so that the quality of the food is not stable when used in food.
[0005]
[Problems to be solved by the invention]
Egg yolk is used in various foods because of its excellent flavor and characteristics. However, the present situation is that its use is limited due to its heat coagulation property and sanitary problems.
Therefore, there is a demand for a simple egg yolk solution that can control the heat coagulation property and does not cause a decrease in flavor.
[0006]
In order to solve the above-mentioned problems, it is necessary to control the heat coagulation property of egg yolk. However, if such control of the heat coagulation property of egg yolk becomes possible, there is a problem of hygiene and storage stability of food containing egg yolk. Can be solved all at once, and it becomes possible to produce a completely aseptic egg yolk-containing processed food that has been subjected to high-temperature sterilization such as UHT. That is, the present invention provides a simple method for producing egg yolk liquid that can control heat coagulation and maintain the original flavor of egg yolk, and an egg yolk-containing food containing the egg yolk liquid.
[0007]
[Means for Solving the Problems]
As a result of diligent research to solve the above-mentioned problems, the inventors of the present invention contain an alginate and / or an alginate compound in egg yolk, so that the heat coagulation property is reduced while maintaining the original flavor of the egg yolk, and the calcium sequestering agent. As a result, it was found that the thermocoagulation property is restored by the addition of A, and the present invention has been completed.
[0008]
That is, the first invention is a yolk, after mixing the alginate and / or alginic acid compounds, a method for producing liquid egg yolk, characterized by comprising reducing the heat coagulable by cooling, addition A second aspect of the present invention is an egg yolk-containing food containing the egg yolk liquid produced by the above production method and heat sterilized .
[0009]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, the present invention will be described in detail.
The egg yolk used in the present invention is a normal raw egg yolk, a pasteurized egg yolk heated at about 60 ° C. for about 3 minutes, a heat-coagulated denatured egg yolk, a homogenized egg yolk partially heat-coagulated denatured, or a dried egg yolk in water It may be dissolved and there is no particular limitation. For example, egg yolk obtained by separating from egg white after splitting is very common. Moreover, the egg yolk concentration in the egg yolk can be reduced without any particular limitation.
[0010]
Examples of the alginate used in the present invention include sodium salt, potassium salt, calcium salt, ammonium salt, ammonia salt, zinc salt of alginic acid, and other water-soluble salts starting from alginic acid. Sodium alginate is preferable because it is inexpensive and used in many foods.
Examples of the alginic acid compound include various ester compounds. Examples of the alginic acid compound include propylene glycol ester of alginic acid which is generally used in foods. In addition, the origin of the algae as a raw material, the difference in molecular weight of alginic acid, β- (1 → 4) -D-mannuronic acid (hereinafter abbreviated as “M”) and α- (1 → 4) are constituents of alginic acid. There are no particular restrictions on the quantitative ratio (M / G ratio) of L-guluronic acid (hereinafter abbreviated as “G”) and the manner of arrangement, but those having a high M / G ratio are preferred. With regard to, a product from a low viscosity product to a high viscosity product, preferably a product from a medium viscosity product to a high viscosity product, can reduce the heat coagulation property of egg yolk.
[0011]
The addition ratio of the alginate and / or alginic acid compound is not particularly limited because it depends on the egg yolk content of the food and the heating temperature, but it is in the range of 0.25 to 2% by weight with respect to the egg yolk. Is preferably used.
The egg yolk liquid of the present invention comprises egg yolk, an alginate and / or an alginate compound, and, if necessary, water. In addition, there is no restriction | limiting in particular about the pH of egg yolk liquid, and if there exists in the range of the food which can be eaten, there will be no problem. However, since alginic acid may precipitate in a low pH range, pH 5 or higher is preferable.
[0012]
As a method for producing egg yolk liquid of the present invention, it can be produced by mixing egg yolk, an alginate and / or alginic acid compound, and water as required. However, when egg yolk liquid contains water, it is completely dissolved. It is preferable to dissolve the alginate and / or alginic acid compound in advance in water heated to about 50 ° C. so that it is possible.
There are no particular restrictions on the egg yolk liquid heating method of the present invention, and examples include UHT sterilization, plate sterilization, batch sterilization, scraping sterilization, tubular sterilization, and retort sterilization. It is not limited. There is no restriction | limiting in particular also about heating conditions, Bacteria should just die if needed of an egg yolk liquid, For example, 1 second-30 minutes are illustrated at 65-145 degreeC.
[0013]
Although it is not clear why the egg yolk liquid of the present invention is reduced in heat coagulation properties by an alginate and / or an alginate compound, a heat irreversible gel is formed so as to cover the egg yolk protein by the reaction between the calcium content of the egg yolk and the alginate. It is thought that it is preventing the aggregation when the egg yolk protein is heat denatured. Therefore, it is more preferable to cool at the time of manufacture to promote gel formation. Therefore, the addition of calcium sequestering agents, such as polymer phosphates and citrates, that deprive calcium ions from alginate, can prevent gel formation for the reasons described above, so that heat coagulation can be restored. It is thought that.
[0014]
Examples of the egg yolk-containing food of the present invention include sugars such as granulated sugar, oligotose and sorbitol, milk components such as cow milk, whole milk powder, skim milk powder, casein, lactalbumin, lactose and the like. Foods including oils and fats such as protein, vegetable fats and milk fats, emulsifiers, thickeners, and other food materials, raw materials, and additives such as egg yolk-containing whipped cream, custard cream, anglece sauce, egg yolk Foods using egg yolk such as sauces or soups, mayonnaise, dressings and the like can be mentioned. Even if the egg yolk liquid of the present invention contains the above-mentioned other components, there is no problem in reducing the heat coagulation property of the egg yolk. However, substances that chelate and react with calcium ions, such as polymerized phosphates and citrates, lose the heat resistance effect of egg yolk. Therefore, a calcium sequestrant such as polymerized phosphate may be added to restore the heat coagulation property of egg yolk after sterilization.
[0015]
As a manufacturing method of the egg yolk containing foodstuff of this invention, it can manufacture with the manufacturing method by the conventional method of each foodstuff. Moreover, even if the composition and conditions have not been able to be produced due to the thermocoagulation property of egg yolk so far, it can be produced by using the present invention.
When the egg yolk-containing food of the present invention is heat sterilized, the method is not particularly limited, and examples thereof include UHT sterilization, plate sterilization, batch sterilization, scraping sterilization, tubular sterilization, and retort sterilization. Although shown, it is not limited to these. There is no restriction | limiting in particular also about heat sterilization conditions, A microbe should just be killed hygienically as needed for each foodstuff, for example, for 1 second-30 minutes at 65-145 degreeC, for example.
[0016]
【Example】
EXAMPLES Next, although an Example is given and this invention is demonstrated in more detail, this invention is not limited to these.
In the following description, “%” or “part” means “% by weight” or “part by weight” unless otherwise specified.
Example 1
After 0.2% sodium alginate (trade name: Kimitsu Algin I-1, Kimitsu Chemical Co., Ltd.) was dissolved in 89.8% of water at 50 ° C, 10% egg yolk was added and cooled to 5 ° C. Then, it heated, stirring at 95 degreeC for 10 minutes. After 10 minutes, no particular heat coagulation of the yolk in the yolk was observed.
Example 2
After dissolving 0.4% propylene glycol alginate (trade name: Kimiloid HV, Kimitsu Chemical Co., Ltd.) in 89.6% of water at 50 ° C., 10% egg yolk was added and cooled to 5 ° C. Then, it heated, stirring at 95 degreeC for 10 minutes. After 10 minutes, no particular heat coagulation of the yolk in the yolk was observed.
Comparative Example 1
The egg yolk liquid was subjected to a heating test in the same manner as in Example 1 except that the sodium alginate to be added was replaced with water. As a result, the yolk of the yolk liquid was completely heat-coagulated.
Comparative Examples 2-4
The egg yolk liquid was subjected to a heating test in the same manner as in Example 1 except that the sodium alginate to be added was xanthan gum, pectin, or agar. As a result, in all cases, the yolk of the yolk liquid was completely heat-coagulated.
Comparative Example 5
The pH of the water in Example 1 was 6.8. Therefore, after adjusting the pH of water to 4.0 with citric acid, sodium alginate was dissolved in the same manner as in Example 1. As a result, alginic acid was precipitated in a fibrous form.
Example 3
Sodium alginate (trade name: Snow Algin L, manufactured by Fuji Chemical Industry Co., Ltd.) was dissolved in 84.7% of the water heated to 50 ° C. with stirring and dissolved completely. Was added, and the mixture was sufficiently stirred and reacted to prepare an egg yolk liquid. This egg yolk liquid was sterilized batchwise (85 ° C., 15 minutes). The egg yolk liquid was stirred and heated at 95 ° C. for 10 minutes. After 10 minutes, no heat coagulation of the yolk of the yolk was observed.
Example 4
0.2 g of sodium polyphosphate was added to 99.8% of the egg yolk liquid of Example 3, and the mixture was stirred and heated at 95 ° C. for 10 minutes. Ten minutes later, the yolk of the yolk was completely heat-coagulated and became purine.
Example 5
1% sodium alginate (trade name: Duck Argin SL-20, manufactured by Kibun Food Chemifa Co., Ltd.) was dissolved in 49% water heated to 50 ° C. with complete stirring, and then 50% egg yolk was added. The mixture was sufficiently stirred, reacted, and cooled to prepare an egg yolk liquid. The composition shown below was added to this egg yolk liquid to prepare an emulsion.
Hardened rapeseed oil (melting point 30 ° C) 45%
Lecithin 0.5%
Whole milk powder 5%
Sugar Ester S-1670 (Mitsubishi Kasei Foods) 0.5%
Egg yolk 30%
Water 19.0%
The above emulsion was UHT sterilized (145 ° C., 4 seconds), and whipped cream was produced by a conventional method. As a result, coagulation of the egg yolk did not occur in the sterilization apparatus part, and a good whipped cream could be produced.
Comparative Example 6
A whipped cream was produced in the same manner as in Example 5 except that sodium alginate was replaced with water. As a result, since the egg yolk was thermally coagulated in the UHT sterilizer part, the emulsion could not be flowed and whipped cream could not be produced.
Example 6
After dissolving 4 parts of sodium alginate (trade name: Kimitsu Algin IL-2, Kimitsu Chemical Co., Ltd.) in 50 parts of water heated to 50 ° C. with complete stirring, 200 parts of egg yolk were added, Thorough stirring, reaction, and cooling were performed to prepare egg yolk liquid. The composition shown below was added to this egg yolk liquid.
Milk 353 parts Granulated sugar 100 parts Flour 10.5 parts Corn starch 15 parts Butter (no salt) 20 parts The above composition is heated in a combinator (made by Schrader) at 85 ° C for 15 minutes to give custard cream Manufactured. The resulting custard cream had a smooth texture with no roughness.
Examples 7-9
The following composition was examined based on the difference (M / G ratio) in the components of sodium alginate (trade name: Kimitsu Algin I-3, Kimitsu Chemical Co., Ltd.).
[0017]
Each sodium alginate was dissolved in 60 ° C. water, mixed with egg yolk, cooled to 5 ° C., and held at that temperature for 10 hours. Thereafter, each solution was stirred and heated at 95 ° C. for 10 minutes, the state and the size of the aggregates were measured with a laser diffraction particle size distribution analyzer LA-500 (manufactured by Horiba Seisakusho), and the thermal coagulation properties were compared.
The results are shown in Table 1.
[0018]
[Table 1]
Figure 0003648993
[0019]
From Table 1, the fluidity | liquidity was maintained after heating all the samples of Examples 7-9. However, as described above, it was confirmed that the higher the M / G ratio (the more M), the finer the particle size after heating, and the higher the effect of reducing thermal solidification.
[0020]
【The invention's effect】
The effects obtained by the present invention are as follows.
(1) It is possible to easily produce sterilized and aseptic egg yolk liquid and egg yolk-containing food without impairing the original flavor of egg yolk as in enzyme treatment. Thereby, there is no risk of food poisoning due to Salmonella, etc., and egg yolk-containing foods can be produced and eaten in a sanitary manner. Furthermore, labor can be saved even at the manufacturing site.
(2) Since a sterile egg yolk solution can be produced, conventional operations such as sweetening, salting, freezing and the like are not necessary, and workability and ease of handling are improved.
(3) Since the heat coagulation property can be controlled, it is possible to produce an egg yolk-containing food different from the conventional one.
(4) It becomes possible to produce egg yolk-containing foods that could not be produced in the process so far due to the thermocoagulability of egg yolk.
(5) The egg yolk-containing food with a new flavor and texture that has never been obtained can be produced by solving the roughness due to the heat coagulation property of egg yolk.
(6) Since the decrease in the emulsifying power of egg yolk due to heating is eliminated, the preservability of food using the emulsifying power of egg yolk can be improved.

Claims (6)

卵黄と、アルギン酸塩及び/又はアルギン酸化合物とを混合した後、冷却することにより熱凝固性を低下させてなることを特徴とする卵黄液の製造方法A method for producing an egg yolk liquid, comprising mixing egg yolk and an alginate and / or alginic acid compound and then cooling to reduce heat coagulation . 加熱した水にアルギン酸塩及び/又はアルギン酸化合物を溶解し、これに卵黄を添加して混合することを特徴とする請求項1記載の卵黄液の製造方法 The method for producing an egg yolk liquid according to claim 1, wherein the alginate and / or alginic acid compound is dissolved in heated water, and the egg yolk is added thereto and mixed . アルギン酸塩がアルギン酸ナトリウムであることを特徴とする請求項1又は2に記載の卵黄液の製造方法The method for producing egg yolk liquid according to claim 1 or 2, wherein the alginate is sodium alginate. 冷却後、加熱殺菌してなる請求項1〜3のいずれかに記載の卵黄液の製造方法。The manufacturing method of the egg yolk liquid in any one of Claims 1-3 formed by heat-sterilizing after cooling. 請求項1〜4のいずれかに記載の方法により製造された卵黄液を含有することを特徴とする卵黄含有食品。An egg yolk-containing food comprising the egg yolk liquid produced by the method according to claim 1 . 加熱殺菌してなる請求項5記載の卵黄含有食品。The egg yolk-containing food according to claim 5, which is heat-sterilized.
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