ПЕРЕРАБОТКА РАСТИТЕЛЬНЫХ МАСЕЛ

Изобретение относится к масложировой промышленности. Способ переэтерификации растительного масла, который включает в себя обработку растительного масла путем контактирования растительного масла с природным адсорбентом, чтобы получить значение рН в диапазоне от 6 до 8, отделение масла от адсорбента и взаимодействие очищенного масла в присутствии ферментативного катализатора для переэтерификации. Изобретение позволяет улучшить предварительную обработку растительных масел до ферментативного процесса. 3 н. и 11 з.п. ф-лы, 1 ил., 1 табл., 4 пр.

ПЕРОКСИДНЫЕ ДИСПЕРСИИ

Изобретение относится к водным дисперсиям органических пероксидов, являющихся твердыми при обычных условиях. Водная дисперсия содержит 37,5-42 вес. % бензоилпероксида со средним размером частиц менее 5 мкм; 0,1-2,0 вес. % поверхностно-активного вещества (ПАВ) - сложного полиглицерилового эфира, частично эстерифицированного смесью октановой кислоты и декановой кислоты, с HLB 12-18; воду; гелеобразователь; сшивающее вещество и основание. Способ получения указанной водной дисперсии включает измельчение бензоилпероксида, имеющего средний размер частиц более 10 мкм, в воде в присутствии указанного ПАВ. Изобретение обеспечивает снижение вязкости водных дисперсий органических пероксидов и возможность легко разливать или перекачивать при помощи насоса высококонцентрированные водные дисперсии органических пероксидов. 2 н. и 11 з.п. ф-лы, 2 пр.

СПОСОБ ПРИГОТОВЛЕНИЯ СОЕСОДЕРЖАЩИХ МЯСНЫХ И МЯСОПОДОБНЫХ ПРОДУКТОВ

... 1. Соесодержащий мясной или мясоподобный продукт, содержащий соевый белковый материал, у которого удален привкус, причем указанный соевый белковый материал, у которого удален привкус, получают способом, предусматривающим (а) получение соевой белковой композиции, содержащей растворимые соевые белки, вкусовые соединения и нерастворимые материалы, (b) солюбилизацию соевых белков регулированием соевой белковой композиции со стадии (а) до рН в диапазоне от около 9 до около 12 и высвобождение этих вкусовых соединений, (с) пропускание соевой белковой композиции со стадии (b) с отрегулированным рН смежно ультрафильтрационной мембране, имеющей порог отсечения молекулярной массы до около 50000 Дальтон, при поддержании рН в диапазоне от около 9 до около 12, при подходящих условиях ультрафильтрации, при которых вкусовые соединения проходят через эту мембрану с устранением посредством этого привкуса соевой белковой композиции и задерживанием по существу всех солюбилизированных соевых белков, и (d) извлечение ...

СПОСОБ ПОЛУЧЕНИЯ ВЫСОКОКАЧЕСТВЕННЫХ ПРОДУКТОВ НА ОСНОВЕ КУЛЬТУРНОЙ СОИ

... 1. Соесодержащий ферментированный продукт, содержащий ферментированное соевое молоко, приготовленное ферментацией лишенного привкуса соевого молока, причем лишенное привкуса соевое молоко получено способом, предусматривающим (а) получение соево-молочной композиции, содержащей растворимые соевые белки, ароматические соединения и нерастворимые материалы, (b) солюбилизацию соевых белков путем регулирования в соево-молочной композиции со стадии (а) рН в интервале от около 9 до около 12 и высвобождения ароматических соединений, (с) пропускание соево-молочной композиции с отрегулированным значением рН со стадии (b) через ультрафильтрационную мембрану с порогом отсечения молекулярной массы до около 50000 Дальтон при поддержании рН в интервале от около 9 до около 12 и при таких условиях ультрафильтрации, при которых ароматические соединения проходят через мембрану, что приводит к деароматизации соево-молочной композиции, а по существу все растворенные соевые белки задерживаются, и (d) выделение ...

СПОСОБ УДАЛЕНИЯ ПРИВКУСА У БЕЛКА МОЛОЧНОЙ СЫВОРОТКИ

... 1. Способ приготовления белкового материала молочной сыворотки с удаленным привкусом, предусматривающий (а) приготовление водной композиции белкового материала молочной сыворотки, содержащей растворимые белки молочной сыворотки и вкусовые соединения, (b) регулирование водной композиции (а) либо (1) до щелочного рН от около 8, 5 до около 12, либо (2) до кислого рН от около 2,5 до около 4 с высвобождением посредством этого вкусовых соединений, (с) пропускание водной композиции (b) смежно ультрафильтрационной мембране, имеющей порог отсечения молекулярной массы до около 50000 Дальтон, при поддержании рН на том же уровне, что и на стадии (b), при подходящих условиях ультрафильтрации, при которых эти вкусовые соединения проходят через мембрану с удалением посредством этого привкуса белкового материала молочной сыворотки и задерживанием по существу всех растворимых белков молочной сыворотки, и (d) извлечение растворимых белков молочной сыворотки, задержанных ультрафильтрационной мембраной, с ...

УМЕНЬШЕНИЕ ОКРАШИВАНИЯ БЕЛКОВОГО ИЗОЛЯТА КАНОЛЫ

... 1. Способ получения белкового изолята канолы, включающий: переработку семян канолы с образованием белковой муки канолы, экстракцию белковой муки канолы с образованием водного белкового раствора, концентрирование водного белкового раствора и выделение белкового изолята канолы из концентрированного водного белкового раствора, отличающийся тем, что указанный способ включает, по меньшей мере, одну технологическую стадию, в результате которой получается белковый изолят канолы, имеющий меньшее окрашивание. 2. Способ по п.1, отличающийся тем, что указанная, по меньшей мере, одна стадия включает, по меньшей мере, одну из следующих: (a) обработка семян для осуществления инактивации мирозиназы в семенах; (b) проведение указанной стадии экстракции с использованием, по меньшей мере, одной из: i) экстракции в присутствии антиоксиданта, ii) экстракции муки канолы, из которой растворитель удален на воздухе, iii) обработка белкового раствора канолы, по меньшей мере, одним реагентом, адсорбирующим окрашивающие ...

VERFAHREN ZUR HERSTELLUNG VON BLANCHIERTEM PFLANZLICHEN FRUCHTFLEISCH.

Process for preparing an inhibited starch

A process for preparing an inhibited starch comprising [a] extracting starch from a source, such as waxy maize (corn) and partially refining to provide a partially refined starch with a residual protein content on a dry starch basis of more than 0.4% by weight and less than 8% by weight; [b] treating the partially refined starch with a bleaching agent, such as sodium hypochlorite, to provide an inhibited starch; and [c] recovering the inhibited starch. Also disclosed, is use of the inhibited starch in a food product and a food product comprising the inhibited starch, such as an acidic food product.

Process for preparing an inhibited starch

Exine shells

FOOD PROTEIN PRODUCTS

Process for physical decolouration of blood

An emulsion of blood and fat is subjected to a considerable drop in pressure of the order of 200-300 atmospheres whereby the red blood corpuscles become covered by a protein/fat film and are thereby discoloured. The effect is enhanced by including in the emulsion small quantities of milk proteins e.g. sodium caseinate, or vegetable proteins e.g. soya protein isolates. Addition of the protein is necessary when the pressure treatment is applied to centrifuged-off red corpuscles instead of whole blood. The mixture of blood and fat and other ingredients is preferably heated to a temperature in the range of 30-70 DEG C prior to the pressure treatment. Referring to the drawing, blood from a drained animal is mixed in tank 17 with protein from silo 11, fat from conveyor 16 and water, and the mixture is passed through an emulsifier 22 and then to an homogeniser 24 in which the pressure treatment is carried out. ...

PROCEDURE FOR THE PRODUCTION OF A FOOD OF PRODUCT OF COMPLETE BLOOD OR BLOOD DERIVATIVES

VERFAHREN ZUR HERSTELLUNG EINES NAHRUNGSMITTEL- PRODUKTES AUS GANZBLUT ODER BLUTDERIVATEN

PROCEDURE FOR DECOLORIZING SUBSTANCES COLORED BY TETRAPYRROLI CONNECTIONS AND THE RECEIVED PRODUCTS.

CONTAINING SOJAPROTEIN ADDITIVES AVAILABLE OF MEANS A SPECIFIC PROCEDURE SMELL-NEUTRALIZED SWEET GOODS

TEXTURE MEANS ON BASIS OF AMYLOSE STRENGTH

THERMAL PROCESSING OF LOW-ACID, HEAT SENSITIVE FOODSTUFFS

ENZYMATIC TREATMENT OF PYROPHEOPHYTIN-CONTAINING PLANT OILS

The present invention provides methods and uses for treating pyrroporphyrin-containing compositions, particular-ly in order to remove pyropheophytin therefrom. The compositions are typically plant, algal, or bacterial derived products such as vegetable oils. The method comprises a step of contacting the compositions with an enzyme having pyropheophytinase activity. Also provided are related apparatus and products for performing such methods and uses.

PROCESS FOR OBTAINING BLEACHED VEGETAL PULPS

L'invention concerne la fabrication de pulpes végétales blanchies et sèches, dans laquelle le blanchiment au moyen de peroxyde d'hydrogène est réalisé simultanément au séchage par vaporisation de l'eau de la pulpe au moyen d'une atmosphère gazeuse sèche circulant au contact de ladite pulpe. Le procédé de la présente invention ne présente pas les inconvénients des procédés connus, simplifie le schéma opératoire d'obtention de pulpes blanchies sèches et permet d'obtenir celles-ci avec un degré de blancheur élevé pour le domaine technique concerné.

TWO STEP BLEACHING PROCESS OF VEGETABLE MATTERS

L'invention concerne un procédé de blanchiment de matières végétales qui consiste à blanchir les matières végétales en deux étapes, séparées par une filtration et un lavage à l'eau, en utilisant des solutions aqueuses alcalines contenant du peroxyde d'hydrogène, les quantités d'agent alcalin dans les solutions étant telles que, dans la première étape de blanchiment, le pH à la fin de cette étape est au plus égal à 9 et, dans la deuxième étape de blanchiment, le pH à la fin de cette étape, est au plus égal à 8,5. Ce procédé est notamment utilisable pour la fabrication de fibres végétales à basse teneur en calories, utiles commes farines diététiques.

STANOL ESTER COMPOSITION AND PRODUCTION THEREOF

Stanol fatty acid ester composition comprising at least 85% of stanol (saturated) fatty acid esters in which at least 85% of the fatty acid groups are saturated. Also claimed is a process for the preparation of stanol fatty acid esters, by hardening phytosterol fatty acid or a mixture thereof, or as an alternative, a process for the preparation of stanol fatty acid esters by esterification of phytosterols or a mixture thereof, followed by the hardening of the so obtained phytosterol fatty acid esters.

Verfahren zur Entfärbung dunkel gefärbter Partikel in Carubin (Johannisbrotkern-Substanz).

Procédé de décoloration de fruits et légumes et application de ce procédé

PROCEDURE FOR THE PRODUCTION OF A FOOD OR A ANIMAL FEED.

Processing of vegetable oils

Способ отбеливания ореха Juglans regia L.

Изобретение относится к пищевой промышленности, а именно к способу отбеливания орехов Juglans regia L. Способ, согласно изобретению, включает очищение орехов от мезокарпия, промывание питьевой водой, погружение орехов в 1…5%-ный раствор пербората натрия с температурой 20…60°C, в соотношении 1:4 соответственно, в течение 10…30 мин, с периодическим перемешиванием и сушку до влажности 8%. П. формулы: 1 ...

Способ отбеливания ореха Juglans regia L.

Изобретение относится к пищевой промышленности, а именно к способу отбеливания орехов Juglans regia L. Способ, согласно изобретению, включает очищение орехов от мезокарпия, промывание питьевой водой, погружение орехов в 1…5%-ный раствор пербората натрия с температурой 20…60°C, в соотношении 1:4 соответственно, в течение 10…30 мин, с периодическим перемешиванием и сушку до влажности 8%. П. формулы: 1 ...

Technique for producing edible glycerider type chrysalis oil using chrysalis crude-oil

The invention discloses a process used for producing edible silkworm pupa oil by silkworm pupa crude oil, comprising the main steps as follows: silkworm pupa crude oil extracted by organic solvent or squeezed and separated by machines is heated to a certain temperature; subsequently, phosphoric acid and hot water are added into the silkworm pupa crude oil in proper amount; the mixture is stirred,statically separated or pumped into a separator to carry out the separation and degumming; subsequently, dehydration in vacuum is carried out; the dehydrated silkworm pupa oil is heated to a certain temperature for the operation of decoloring and filtered, separated and distilled for acid removing, smell removing and removal of the oxidation residual matter such as free fatty acid and the like, thus gaining the finished product. The effects of degumming, dehydrating, decoloring, acid removing, smell removing and removal of oxidation residual matters such as free fatty acid are good, the colorof ...

Method for preparing and decolorizing corn rice dietary fiber

BLEACHING FRUITS AND VEGETABLES

PROCESS AND INSTALLATION OF TREATMENT THE OZONE OF FOOD PRODUCTS

Decolorizing apricots

composição de óleo de soja desodorizado, alvejado e refinado compreendendo ácido graxo poliinsaturado, bem como alimento, bebida, suplemento nutricional e óleo de cozinha compreendendo a referida composição

PROCESSO PARA ALVEJAMENTO DE PEIXE

МОДИФИЦИРОВАННЫЙ ГЛОБИНОВЫЙ БЕЛКОВЫЙ ПРОДУКТ И СПОСОБ ЕГО ПОЛУЧЕНИЯ

Изобретение относится к новым белковым производным крови, сырья, в состав которого входят белки крови и гемоглобина. Модифицированный глобиновый белковый продукт, полученный из крови или гемоглобина и имеющий изоэлектрическую точку при рН 4-5, содержит железо - менее 1000 млн-1, гистидин: лизин в соотношении 0,6-1,5 мас.%, тирозин 0,8-2,5 мас.%, метионин 0,6-0,9 мас. %, лизин - 6,5-9,0 мас.%. Способ получения упомянутых модифицированных глобиновых продуктов включает щелочную обработку исходного материала при рН более 12 и окислительную обработку при рН ниже 12 с одновременным поддержанием температуры ниже 50oС. Способ предусматривает возможность удаления железосодержащих компонентов. Изобретение обеспечивает получение нового глобинового белкового продукта, имеющего свойства и характеристики, аналогичные казеинатам и соевым изолятам, при его использовании в пищевых продуктах не создается нежелательного запаха и вкуса. 2 с. и 1 з.п. ф-лы, 2 табл.

СПОСОБ ПОЛУЧЕНИЯ БЕЛКОВОГО ИЗОЛЯТА КАНОЛЫ

FIELD: food products. SUBSTANCE: method of manufacturing canola protein isolate implies extraction of meal, solubilisation of protein producing water protein solution with pH from 5 to 6.8, separation of water protein solution, increase of protein concentration, dilution of the above protein solution with cooled water producing individual protein micelles in water phase, precipitation of protein micelles producing protein micelle mass, isolation of protein micelle mass from the supernatant fluid; the protein micelle mass has protein content of at least 90 % wt. (N x 6.25) on dry weight basis. During processing meal of the canola oil seeds is washed with alcohol by dispersing the meal in alcohol in the proportion weight/volume of 1:3 to 1:10 and/or concentrated protein solution is diafiltrated up to the above dilution degree and/or the micelle protein mass is dried and the dried canola protein isolate is extracted by alcohol water solution and/or concentrated protein solution is pasteurised up to the above dilution degree. EFFECT: decreasing protein isolate colouration. 20 cl, 41 tbl, 12 ex ÐÎÑÑÈÉÑÊÀß ÔÅÄÅÐÀÖÈß (19) RU (11) 2 342 848 (13) C2 (51) ÌÏÊ A23J A23J A23L A23L 1/14 3/14 1/27 1/277 (2006.01) (2006.01) (2006.01) (2006.01) ÔÅÄÅÐÀËÜÍÀß ÑËÓÆÁÀ ÏÎ ÈÍÒÅËËÅÊÒÓÀËÜÍÎÉ ÑÎÁÑÒÂÅÍÍÎÑÒÈ, ÏÀÒÅÍÒÀÌ È ÒÎÂÀÐÍÛÌ ÇÍÀÊÀÌ (12) ÎÏÈÑÀÍÈÅ ÈÇÎÁÐÅÒÅÍÈß Ê ÏÀÒÅÍÒÓ (21), (22) Çà âêà: 2005101219/13, 20.06.2003 (72) Àâòîð(û): ÃÐÈÍ Áðåíò Ý. (CA), ÊÑÓ Ëåè (CA), ÌÈËÀÍÎÂÀ Ðàäêà (CA), ÑÈÃÀËË Êåâèí È. (CA) (24) Äàòà íà÷àëà îòñ÷åòà ñðîêà äåéñòâè ïàòåíòà: 20.06.2003 (73) Ïàòåíòîîáëàäàòåëü(è): ÁÀÐÊÎÍ ÍÜÞÒÐÀÑÀÉÍÑ (ÌÁ) ÊÎÐÏ. (CA) (43) Äàòà ïóáëèêàöèè çà âêè: 10.08.2005 R U (30) Êîíâåíöèîííûé ïðèîðèòåò: 20.06.2002 US 60/389,957 (45) Îïóáëèêîâàíî: 10.01.2009 Áþë. ¹ 1 2 3 4 2 8 4 8 (56) Ñïèñîê äîêóìåíòîâ, öèòèðîâàííûõ â îò÷åòå î ïîèñêå: US 4285862, 25.08.1981. US 4420425, 13.12.1983. CA 1057114, 26.06.1979. US 4208323, 17.06.1980. US 6005076, 21.12.1999. «Ðàñòèòåëüíûé áåëîê». Ïåðåâîä ñ ôðàíöóçñêîãî ...

СПОСОБ УДАЛЕНИЯ ПРИВКУСА У БЕЛКА МОЛОЧНОЙ СЫВОРОТКИ

Изобретение относится к пищевой промышленности, в частности к обработке молочных материалов. Белковые материалы молочной сыворотки из процессов приготовления сыра, концентраты белков молочной сыворотки и изоляты белков молочной сыворотки подвергают удалению привкуса регулированием рН водной композиции таких белковых материалов молочной сыворотки от около 8 до около 12 или от около 2,5 до около 4,0 для солюбилизации белков молочной сыворотки и для высвобождения вкусовых соединений. После этого пропускают композицию с отрегулированным рН через ультрафильтрационную мембрану, имеющую порог отсечения молекулярной массы около 50000 Дальтон, при этом вкусовые соединения проходят через эту мембрану, а белковый материал молочной сыворотки с улучшенным вкусом задерживается мембраной. После чего осуществляют рециркулирование белкового материала молочной сыворотки при поддержании заданного рН. Предлагаемый способ обеспечивает повышение степени очистки белкового материала молочной сыворотки. 22 з.п.

ПРИГОТОВЛЕНИЕ РАСТВОРОВ РАСТВОРИМОГО БЕЛКА ИЗ СОИ ("S701")

... 1. Соево-белковый продукт, который имеет содержание белка, по меньшей мере, 60 мас.% (Nх6,25) на сухое вещество и который:- полностью растворяется в водных средах при кислотных значениях рН ниже 4,4,- показывает термостабильность в водных средах при кислотных значениях рН ниже 44,- не требует применения стабилизаторов или других добавок для удерживания белкового продукта в растворе или суспензии,- имеет низкое содержание фитиновой кислоты,- не требует применения ферментов для своего получения.2. Соево-белковый продукт по п.1, (а) который не имеет “бобового” привкуса или постороннего запаха соевых бобов и/или (b) в котором соевый белок не подвергался гидролизу, и/или (с) который имеет низкую активность ингибиторов трипсина, и/или (d) который имеет содержание белка, по меньшей мере, 90 мас.% (Nх6,25) на сухое вещество, предпочтительно, по меньшей мере, примерно 100 мас.%, и/или (е) который имеет содержание фитиновой кислоты ниже 1,5 мас.%.3. Соево-белковый продукт, имеющий содержание белка ...

СПОСОБ СБОРА И ПЕРЕРАБОТКИ КРОВИ В ГИДРОЛИЗОВАННЫЙ БЕЛОК С ИСПОЛЬЗОВАНИЕМ КРОВИ УБИТОГО ЖИВОТНОГО ДЛЯ ПОЛУЧЕНИЯ ГИДРОЛИЗОВАННОГО БЕЛКА КРОВИ

... 1. Способ сбора крови и переработки ее в гидролизованный белок с использованием крови убитого животного для получения гидролизованного белка крови, включающий стадии сбора крови, разделения, обработки в реакторе для плазмы, в реакторе для гемоглобина, обработки в реакторе, фильтрации, пастеризации, сушки и измельчения. ! 2. Способ по п.1, отличающийся тем, что на стадии сбора кровь собирают в чистом виде и без воды и смешивают в процессе слива крови с метабисульфитом в пропорции от 5 до 25 г метабисульфита на литр и несколькими граммами сахара в зависимости от количества метабисульфита, например с 30% сахара по отношению к количеству метабисульфита. ! 3. Способ по п.1, отличающийся тем, что на этапе приемки в ходе промышленного процесса продукт заливают в приемный бак с возможностью осторожного перемешивания и опорожнения из нижней части, что обеспечивает предотвращение образования пены в верхней части. ! 4. Способ по п.3, отличающийся тем, что в случае использования насосов эти насосы ...

СПОСОБ УСТРАНЕНИЯ ПРИВКУСА У ПОЛУЧЕННЫХ ИЗ СОИ МАТЕРИАЛОВ ДЛЯ ИСПОЛЬЗОВАНИЯ В ПРОДУКТАХ НА ОСНОВЕ ТЕСТА И В ВЫПЕЧЕННЫХ ПРОДУКТАХ

... 1. Содержащее сою тесто, содержащее тесто на основе муки и соевый белковый материал с устраненным привкусом, причем этот соевый белковый материал с устраненным привкусом получают способом, предусматривающим (а) приготовление водной композиции соевого материала, содержащей растворимые соевые белки, вкусовые соединения и нерастворимые материалы; (b) солюбилизацию соевых белков регулированием рН водной композиции со стадии (а) до уровня от около 9 до около 12 и высвобождение этих вкусовых соединений; (с) пропускание водной композиции со стадии (b) с отрегулированным рН смежно ультрафильтрационной мембране, имеющей порог отсечения по молекулярной массе до около 50000 Дальтон, при поддержании рН в диапазоне от около 9 до около 12, при подходящих условиях ультрафильтрации, причем эти вкусовые соединения проходят через эту мембрану с устранением посредством этого привкуса соевого материала и удерживанием по существу всех солюбилизированных соевых белков; и (d) извлечение солюбилизированных соевых ...

Zweistufiges Bleichverfahren für pflanzliches Material.

PROCEDURE FOR DEAROMATISIERUNG OF WHEY PROTEIN

PROCEDURE FOR THE BLANCHIEREN OF VEGETABLE SUBJECT IN DRY ENVIRONMENT.

PROCEDURE FOR ENTAROMATISIERUNG OF SOJAHALTIGEN MATERIALEN

BEVERAGE CONTAINING SMELL-NEUTRALIZED SOJAPROTEIN ADDITIVES AVAILABLE OF MEANS A SPECIFIC PROCEDURE, AND MANUFACTURING PROCESS OF THE BEVERAGE

Method of preparation of high quality soy-containing cheese products

Colour reduction in canola protein isolate

Bleached grain and grain products and methods of preparation

Production of soluble protein solutions from soy ("S701")

Delivery of ethylene blocking and/or promoting agents

PROCEDURE AND FACILITIES FOR OZONE TREATMENT OF FOOD PRODUCTS

L'invention concerne un procédé de traitement d'un produit alimentaire, comportant une mise en contact du produit avec de l'ozone, le produit ayant été au préalable mélangé pour former une solution initiale qui comporte, outre le produit, de l'eau, se caractérisant par la mise en oeuvre combinée des mesures suivantes: a). On dispose d'une source de ladite solution initiale; b). On dispose d'un organe de pompage permettant d'amener sous pression la solution initiale à un contacteur; c). On injecte dans la solution initiale un mélange gazeux de traitement qui comporte de l'ozone, l'injection se faisant selon l'une, ou plusieurs à la fois, des localisations suivantes : entre ladite source initiale et l'organe de pompage, entre l'organe de pompage et le contacteur, au niveau d'un ou de plusieurs des points du contacteur.

A METHOD FOR IMPROVING COLOURING OF THE BEET COSSETTES

PROCEEDED OF DISCOLOURATION OF SUBSTANCES COLOREES BY COMPOSE TETRAPYRROLE, AND PRODUCED OBTAINED

DELIVERY OF ETHYLENE BLOCKING AND/OR PROMOTING AGENTS

PROCESSED GLOBIN PRODUCTS AND METHODS FOR THE PRODUCTION THEREOF

IMPROVEMENT OF COLOR OF BEET CHIP

ПЕРОКСИДНЫЕ ДИСПЕРСИИ

Изобретение относится к обесцвечиванию пищевого, косметического или фармацевтического продукта или продукта из бытовой химии. Способ обесцвечивания продукта включает приведение продукта в контакт с водной способной к перекачиванию, разливанию или распылению псевдопластичной дисперсией с вязкостью от 800 до 2000 сП. Дисперсия содержит 35 вес. % или более твердого бензоилпероксида со средним размером частиц менее 10 мкм и от 0,1 до 2 вес.% поверхностно-активного вещества. ПАВ представляет собой сложный полиглицериловый эфир одной или более C6-C12 жирных кислот, выбранных из октановой кислоты, декановой кислоты и их смесей. ПАВ характеризуется значением HLB 12-18. Изобретение позволяет получить безопасную легко перекачиваемую дисперсию перокисида для обесцвечивания различных продуктов. 7 н. и 22 з.п. ф-лы, 6 пр.

СПОСОБ УСТРАНЕНИЯ ПРИВКУСА У МАТЕРИАЛОВ, ПОЛУЧЕННЫХ ИЗ СОИ

... 1. Способ приготовления соевого белкового материала, у которого устранен привкус, включающий (a) приготовление водной композиции соевого материала, содержащего растворимые соевые белки, создающие привкус соединения, и нерастворимые материалы; (b) перевод соевых белков в растворимую форму путем регулирования pH водной композиции со стадии (a) до уровня от около 9 до около 12 и высвобождение создающих привкус соединений; (c) удаление нерастворимых материалов из водной композиции со стадии (b) с отрегулированным pH для получения обработанной водной композиции; (d)пропускание обработанной водной композиции со стадии (c) смежно мембране ультрафильтрации, имеющей порог отсечения по молекулярной массе до около 50000 Дальтон, при поддержании pH на уровне от около 9 до около 12, при соответствующих условиях ультрафильтрации, в котором создающие привкус соединения проходят через мембрану, благодаря чему устраняется привкус соевых материалов и задерживаются, по существу, все переведенные в растворимую ...

Zubereitung von Aromen.

VERFAHREN ZUR HERSTELLUNG VON BLANCHIERTEM PFLANZLICHEN FRUCHTFLEISCH.

CONTAINING SOJAPROTEIN ADDITIVES AVAILABLE OF MEANS A SPECIFIC PROCEDURE SMELL-NEUTRALIZED PRODUCTS ON PASTE BASIS AND BAKING GOODS

PRODUCTS FROM TREATED GLOBIN AND PROCEDURES FOR PRODUCTION THE SAME

TWO-STAGE BLEACHING PROCESS FOR VEGETABLE MATERIAL.

COLOR REDUCTION IN CANOLAPROTEINISOLAT

NEW PROCEDURE FOR ENZYMATIC BLEACHING OF FOOD

PREPARATION OF FLAVOURS.

Seed oil compositions

The present invention is directed to seed oil compositions that can be used for cooking and frying applications. These oil compositions of the present invention have advantageous stability characteristics. In some embodiments, the oil compositions have a low concentration of -linolenic acid.

Amylases, nucleic acids encoding them and methods for making and using them

AMYLASES, NUCLEIC ACIDS ENCODING THEM AND METHODS FOR MAKING AND USING THEM In one aspect, the invention is directed to polypeptides having an amylase activity, polynucleotides encoding the polypeptides, and methods for making and using these polynucleotides and polypeptides. In one aspect, the polypeptides of the invention can be used as amylases, for example, alpha amylases, to catalyze the hydrolysis of starch 1o into sugars. In one aspect, the invention provides delayed release compositions comprising an desired ingredient coated by a latex polymer coating.

Method of modifying the color of a dairy material

BLEACHING FISH MEAT

PROCESS FOR PRODUCING A FISH PRODUCT

PROCESS

In one aspect the present invention provides a process for treating oil-containing seeds, comprising a step of contacting the seeds with an enzyme which is capable of hydrolysing chlorophyll or a chlorophyll derivative. Also provided are a method for obtaining oil from plant seeds and a process for producing a refined plant oil comprising such a treatment. Further provided are crude and refined plant oils obtainable from the processes and methods.

PROCESSES FOR PREPARATION OF OIL COMPOSITIONS

A process for preparing an oil composition comprising degumming a crude oil to form a degummed oil; bleaching the degummed oil to form a bleached oil; deodorizing the bleached oil at a temperature from 220°C to 270°C at a pressure of not more than 1.4 kPa for not more than 50 minutes to form the oil composition having an anisidine value of less than 3 and comprising less than 1 wt.% trans-fatty acid based on the total weight of fatty acids or derivatives thereof in the oil composition; and further comprising at least one of the following steps: (i) contacting the degummed oil with a bleaching material at a temperature from 80°C to 120°C at a pressure of 0.6 to 7 kPa to form the bleached oil; (ii) reacting the crude oil with an acidic aqueous solution, at a temperature of at least 35°C and in the presence of an inert gas to minimize oxygen concentration, to form the degummed oil; or (iii) cracking and dehulling whole seeds, in the presence of an inert gas to minimize oxygen concentration ...

Konjaku flour equipment for bleaching based on tea polyphenol antioxidant activity

Fine konjac flour and preparation method thereof

PROCEEDED OF DISCOLOURATION OF SUBSTANCES COLOREES BY COMPOSE TETRAPYRROLE, AND PRODUCED OBTAINED

Bleaching dark fish flesh - by contacting with alkaline aq. hydrogen peroxide soln., eliminating peroxide from bleached flesh, and neutralising

PROCESS AND INSTALLATION OF TREATMENT THE OZONE OF FOOD PRODUCTS

L'invention concerne un procédé de traitement d'un produit alimentaire comportant une mise en contact du produit avec de l'ozone, le produit ayant été au préalable mélangé pour former une solution initiale qui comporte, outre le produit, de l'eau, se caractérisant par la mise en oeuvre combinée des mesures suivantes : a). On dispose d'une source de ladite solution initiale; b). On dispose d'un organe de pompage permettant d'amener sous pression la solution initiale à un contacteur; c). On injecte dans la solution initiale un mélange gazeux de traitement qui comporte de l'ozone, l'injection se faisant selon l'une, ou plusieurs à la fois, des localisations suivantes : entre ladite source initiale et l'organe de pompage, entre l'organe de pompage et le contacteur, au niveau d'un ou de plusieurs des points du contacteur.

método para produzir suco clarificado, suco embalável, etanol e açúcar da cana-de-açúcar e seus sistemas.

СПОСОБ УДАЛЕНИЯ ПРИВКУСА У МАТЕРИАЛОВ ИЗ СОИ ДЛЯ КОНДИТЕРСКИХ ПРОДУКТОВ

... 1. Сое-содержащий кондитерский продукт, включающий не имеющий привкуса соевый белковый материал, полученный способом, предусматривающим (а) приготовление водной композиции соевого материала, содержащего растворимые соевые белки, вкусовые соединения и нерастворимые вещества; (b) солюбилизацию соевых белков путем регулирования рН водной композиции со стадии (а) до уровня в интервале от около 9 до около 12, и высвобождение вкусовых соединений; (с) пропускание водной композиции со стадии (b) с отрегулированным рН смежно ультрафильтрационной мембране, имеющей порог отсечения по молекулярной массе до около 50000 Дальтон, при поддержании рН в интервале от около 9 до около 12, в подходящих условиях ультрафильтрации, при которой вкусовые соединения проходят через мембрану, в результате чего происходит удаление привкуса у соевого материала, а по существу все солюбилизированные соевые белки задерживаются; и (d) выделение солюбилизированных соевых белков, задержанных ультрафильтрационной мембраной, ...

ПЕРОКСИДНЫЕ ДИСПЕРСИИ

Verfahren zum Bleichen von oel- oder fetthaltigen tierischen oder pflanzlichen Produkten

Verfahren zur Entfaerbung von Pektinextrakten bzw. Pektinkonzentraten

Whitened exine shells

Process for preparing an inhibited starch

PROCEDURE FOR THE PRODUCTION OF HIGH-QUALITY FERMENTIERTEN SOY BEAN PRODUCTS

PROCEDURE FOR THE PRODUCTION OF OIL COMPOSITIONS

PROCEDURE FOR THE SMELL NEUTRALIZATION OF SOJAPROTEIN ADDITIVES

Bleached bran and bran products and methods of preparation

High PUFA oil compositions

The present invention is directed to oil compositions having a high concentration of poly-unsaturated fatty acids. In addition, the oils of the present invention have advantageous stability characteristics and minimal trans-fatty acids.

PEROXIDE DISPERSIONS

The viscosity of aqueous dispersions of normally solid organic peroxides may be advantageously lowered through the use of surfactants which are polyglyceryl esters of C6-C12 fatty acids. The reduction in viscosity facilitates milling the peroxides to reduce particle size and also provides dispersions of small particle size peroxides which may be readily poured or pumped. The aqueous dispersions are useful as components of pharmaceutical, personal care, and cleaning products and the like and are effective decolorizing agents for food products, industrial products and the like.

PROCESSES FOR PREPARATION OF OIL COMPOSITIONS

A process for preparing an oil composition comprising degumming a crude oil to form a degummed oil; bleaching the degummed oil to form a bleached oil; deodorizing the bleached oil at a temperature from 220°C to 270°C at a pressure of not more than 1.4 kPa for not more than 50 minutes to form the oil composition having an anisidine value of less than 3 and comprising less than 1 wt.% trans- fatty acid based on the total weight of fatty acids or derivatives thereof in the oil composition; and further comprising at least one of the following steps: (i) contacting the degummed oil with a bleaching material at a temperature from 80°C to 120°C at a pressure of 0.6 to 7 kPa to form the bleached oil; (ii) reacting the crude oil with an acidic aqueous solution, at a temperature of at least 35°C and in the presence of an inert gas to minimize oxygen concentration, to form the degummed oil; or (iii) cracking and dehulling whole seeds, in the presence of an inert gas to minimize oxygen concentration ...

PROCESS FOR BLEACHING/SANITIZING FOOD FIBER

A high yield process is provided for treating lignocellulose food fiber to sanitize and bleach the fiber. The process is not only a high yield process but produces better or equivalent bleaching than alternative processes and further does not produce a waste disposal problem. The process also has the advantage of requiring very little energy compared to alternative processes.

DISPOSAL PROCESS FOR ELIMINATION OF PEROXIDES CONTAINED IN BLEACHED AND DRIED VEGETABLE MATERIAL

Procédé d'élimination des peroxydes d'une matière végétale blanchie à l'aide de peroxyde d'hydrogène et sèche, qui consiste à soumettre ladite matière uniquement à un traitement thermique à une température égale ou supérieure à 60.degree.C en atmosphère confinée de sorte que sa teneur pondérale en eau reste à sa valeur initiale pendant ledit traitement. Ce procédé a l'avantage de ne pas porter atteinte aux qualités de la fibre végétale.

DELIVERY OF ETHYLENE BLOCKING AND/OR PROMOTING AGENTS

СОЕВО-БЕЛКОВЫЙ ПРОДУКТ (ВАРИАНТЫ) И СПОСОБ ЕГО ПОЛУЧЕНИЯ

Группа изобретений относится к пищевой, кормовой и косметической отраслям. Экстрагируют источник соевого белка водным раствором хлорида кальция при pH от 5 до 11 с концентрацией менее 1,0 М. Отделяют водный раствор соевого белка от остаточного количества источника соевого белка. Далее могут осуществлять проведение стадий разбавления водного раствора соевого белка до электропроводности менее 70 мСм, обработки адсорбентом для удаления красящих и/или имеющих запах соединений, регулирования pH водного раствора соевого белка с доведением его до pH от 1,5 до 4,4, концентрирования при одновременном поддержании ионной силы раствора, имеющего концентрацию белка от 50 до 300 г/л, диафильтрации, обработки раствора адсорбентом для удаления красящих и/или имеющих запах соединений, пастеризации при температуре от 55˚С до 70˚С в течение от 30 с до 60 мин и сушки раствора соевого белка. Соево-белковый продукт имеет содержание белка от 60 до 100 мас.% (N×6,25) на сухое вещество, который полностью растворяется ...

СПОСОБ УСТРАНЕНИЯ ПРИВКУСА У МАТЕРИАЛОВ, ПОЛУЧЕННЫХ ИЗ СОИ, ДЛЯ ИСПОЛЬЗОВАНИЯ В НАПИТКАХ

... 1. Содержащий сою напиток, включающий водную жидкость, содержащую соевый белковый материал, у которого устранен привкус, причем соевый белковый материал, у которого устранен привкус, получен способом, предусматривающим: (a) приготовление водной композиции из соевого материала, содержащей растворимые соевые белки, создающие привкус соединения и нерастворимые материалы; (b) перевод соевых белков в растворимую форму путем регулирования pH водной композиции со стадии (a) до уровня от около 9 до около 12 и высвобождение создающих привкус соединений; (c) пропускание водной композиции со стадии (b) с регулируемым pH смежно мембране ультрафильтрации, имеющей порог отсечения по молекулярной массе до около 50000 Дальтон, при поддержании значения pH в пределах от около 9 до около 12, при соответствующих условиях ультрафильтрации, при которых создающие привкус соединения проходят через мембрану, в результате чего получают соевый материал, у которого устранен привкус и в котором содержатся, по существу ...

ПЕРОКСИДНЫЕ ДИСПЕРСИИ

... 1. Водная дисперсия, содержащая a) приблизительно 35% по весу или более нерастворимого в воде твердого органического пероксида, имеющего средний размер частиц менее 10 мкм, и b) поверхностно-активное вещество, которое представляет собой сложный полиглицериловый эфир одной или нескольких C-Cжирных кислот.2. Водная дисперсия по п. 1, отличающаяся тем, что поверхностно-активное вещество характеризуется значением HLB 12-18.3. Водная дисперсия по п. 1, отличающаяся тем, что одна или несколько C-Cжирных кислот выбраны из группы, состоящей из октановой кислоты, декановой кислоты и их смесей.4. Водная дисперсия по п. 1, отличающаяся тем, что одна или несколько C-Cжирных кислот являются насыщенными.5. Водная дисперсия по п. 1, отличающаяся тем, что сложный полиглицериловый эфир одной или нескольких жирных кислот содержит полиглицериновый фрагмент, имеющий в среднем 8-12 глицериновых повторяющихся элементарных звеньев.6. Водная дисперсия по п. 1, отличающаяся тем, что в основе поверхностно-активного ...

Verfahren zur Geruchsneutralisation von Sojaprotein-Zusatzstoffe

Method for treating pyropheophytin-containing compositions

The present invention provides methods and uses for treating pyropheophytin-containing compositions, particularly in order to remove pyropheophytin therefrom. The compositions are typically plant, algal, or bacterial derived products such as vegetable oils. The method comprises a step of contacting the compositions with an enzyme having pyropheophytinase activity. Also provided are related apparatus and products for performing such methods and uses.

PRODUCTION OF SOLUBLE PROTEIN SOLUTIONS FROM SOY ("S701" CIP)

A soy protein product, which may be an isolate, produces transparent heat-stable solutions at low pH values and is useful for the fortification of soft drinks and sports drinks without precipitation of protein. The soy protein product is obtained by extracting a soy protein source material with an aqueous calcium salt solution to form an aqueous soy protein solution, separating the aqueous soy protein solution from residual soy protein source, adjusting the pH of the aqueous soy protein solution to a pH of about 1.5 to about 4.4 to produce an acidified clear soy protein solution, which may be dried, following optional concentration and diafiltration, to provide the soy protein product. 116.-. (canceled)17. A soy protein product having a protein content of at least about 60 wt % (N×6.25) d.b. which is substantially completely soluble in an aqueous medium at a pH of about 7 to about 8.181. An aqueous solution with a near neutral pH , preferably in the range of about 6 to about 8 , having dissolved therein the soy product of claim .192. The aqueous solution of claim which is a beverage.202. The aqueous solution of claim which is incorporated in the manufacture of a dairy analogue or a product that is a dairy/soy blend.212. The aqueous solution of claim which is heat stable.222. The aqueous solution of claim which is transparent at a pH of about 7.5 to about 8.2393.-. (canceled) This application is a continuation-in-part of copending U.S. patent application Ser. No. 12/603,087 filed Oct. 21, 2009 (US Patent Publication No. 2010-0098818; WO2010/045727), which itself claims priority under 35 USC 119(e) from U.S. Patent Applications Nos. 61/107,112 filed Oct. 21, 2008; 61/193,457 filed Dec. 2, 2008; 61/202,070 filed Jan. 26, 2009; 61/202,553 filed Mar. 12, 2009; 61/213,717 filed Jul. 7, 2009 and 61/272,241 filed Sep. 3, 2009.The present invention is directed to the production of protein solutions from soy and to novel soy protein products.A protein product, particularly an ...

FAT-REDUCED SOYBEAN PROTEIN MATERIAL AND SOYBEAN EMULSION COMPOSITION, AND PROCESSES FOR PRODUCTION THEREOF

Disclosed are: a fat-reduced soymilk having a reduced fat content, which is produced by separating a fat from a fat-containing soybean efficiently without relying on an organic solvent; and a novel fat-rich soybean material. Specifically disclosed are: a fat-reduced soybean protein material characterized by containing a protein and a carbohydrate at a total content of 80 wt % or more in terms of dried form content, containing a fat (as an extract from a chloroform/methanol mixed solvent) at a content of less than 10 wt % relative to the content of the protein, and containing campesterol and stigmasterol (as plant-derived sterols) at a total content of 200 mg or more relative to 100 g of a fat; and a soybean emulsion composition characterized by containing a protein at a content of 25 wt % or more in terms of dried form content, containing a fat at a content of 100 wt % or more in terms of dried form content relative to the content of the protein in terms of dried form content, and having an LCI value of 60% or more. 1. A reduced-fat soybean protein material comprising a protein and a carbohydrate at a total content of 80 wt % or more in terms of dry basis , a fat at a content of less than 10 wt % (as an extract with a chloroform/methanol mixed solvent) relative to the protein content , and campesterol and stigmasterol as phytosterols at a total content of 200 mg or more relative to 100 g of the fat.2. The reduced-fat soybean protein material according to claim 1 , wherein the protein content is 30 to 99 wt % in terms of dry basis of the reduced-fat soybean protein material.34-. (canceled)5. The reduced-fat soybean protein material according to claim 1 , wherein the fat content is less than 5 wt % relative to the protein content.6. The reduced-fat soybean protein material according to claim 1 , wherein the content of campesterol and stigmasterol as phytosterols is 400 mg or more relative to 100 g of the fat.7. The reduced-fat soybean protein material according to ...

AGENT FOR STARCH PROCESSED FOOD

Provided is a texture-improving agent for a starch processed food, which exhibits an effect of improving texture by being added to a starch processed food. By using a physical property-improving agent containing, as an active ingredient, a separated soybean protein composition obtained by drying in the form of an acid precipitate, a starch processed food having improved physical properties can be obtained. More specifically, the agent has an effect of improving physical properties and texture, for example, enhancing physical strength such as chewiness and elasticity, improving crispness and stickiness, and so on, and also has an effect of maintaining the improved properties and texture. 1. An agent for improving a physical property of a processed starch food , comprising a soybean protein isolate , which is obtained by drying in a condition of an acidic precipitate , as an active ingredient.2. The agent for improving a physical property of a processed starch food according to claim 1 , for enhancing physical strength or improving ease of bite or stickiness.3. The agent for improving a physical property of a processed starch food according to claim 1 , wherein pH of the soybean protein isolate at a state of water dispersion is 4 to 5 claim 1 , and NSI of the soybean protein isolate is 30% or less at pH 4.5 and 60% at pH 7.0.4. The agent for improving a physical property of a processed starch food according to claim 1 , wherein pH of the soybean protein isolate at a state of water dispersion is 4 to 5 claim 1 , and NSI of the soybean protein isolate is 15% or less at pH 4.5 and 80% at pH 7.0.5. The agent for improving a physical property of a processed starch food according to claim 1 , wherein the processed starch food is noodles.6. The agent for improving a physical property of a processed starch food according to claim 1 , wherein the processed starch food is baked confectionery.7. A processed starch food comprising a soybean protein isolate claim 1 , which is ...

MEAT-LIKE FOODSTUFF AND METHOD FOR PRODUCING THE SAME

The objective of the present invention is to provide a meat-like foodstuff that can provide a natural meat-like texture experienced when chewing and is also similar in appearance to natural meat. A meat-like foodstuff that can achieve the above objective can be obtained by molding a raw-material mixture to produce a molded product and then coagulating the product by heating. The raw-material mixture comprises: a first hydrated and split textured vegetable protein obtained by hydrating and splitting a first textured vegetable protein having been textured by extruder treatment so as to contain a vegetable protein and 0.17 to 0.76 parts by mass of starch with respect to 1 part by mass of the vegetable protein; a hydrated and split second textured vegetable protein obtained by hydrating and splitting a second textured vegetable protein having been textured by extruder treatment so as to contain a vegetable protein and 0.03 to 0.15 parts by mass of starch with respect to 1 part by mass of the vegetable protein; and a binder. 1. A method for producing a meat-like foodstuff , comprising coagulating by heating a raw-material mixture containing:a hydrated and split first textured vegetable protein that is obtained by hydrating and splitting a first textured vegetable protein having been textured by extruder treatment so as to contain a vegetable protein and 0.17 to 0.76 parts by mass of starch with respect to 1 part by mass of the vegetable protein;a hydrated and split second textured vegetable protein that is obtained by hydrating and splitting a second textured vegetable protein having been textured by extruder treatment so as to contain a vegetable protein and 0.03 to 0.15 parts by mass of starch with respect to 1 part by mass of the vegetable protein; anda binder.2. The method of claim 1 , wherein the hydrated and split first textured vegetable protein content calculated on a dry basis ranges from 20 to 90 mass percent with respect to the total amount of the hydrated and ...

SOY PROTEIN PRODUCTS OF IMPROVED WATER-BINDING CAPACITY

Soy protein products are provided which lack the characteristic beany flavour of conventional soy protein isolates and can replace conventional isolates in various food products to provide food products having improved flavour. 2. The method of wherein said heat treatment is effected at a temperature of about 70° to about 160° C. for about 2 seconds to about 60 minutes.3. The method of wherein said heat treatment is effected at a temperature of about 80° to about 120° C. for about 15 seconds to about 15 minutes.4. The method of wherein said heat treatment is effected at a temperature of about 85° to about 95° C. for about 1 to about 5 minutes.5. The method of wherein liquid phase resulting from recovery of precipitated soy protein from the heat treated solution is either dried to provide a soy protein product or is further processed by membrane concentration and/or diafiltration and/or heat treated followed by drying to provide a soy protein product.7. The method of wherein said heat treatment is effected at a temperature of about 70° to about 160° C. for about 2 seconds to about 60 minutes.8. The method of wherein said heat treatment is effected at a temperature of about 80° to about 120° C. for about 15 seconds to about 15 minutes.9. The method of wherein said heat treatment is effected at a temperature of about 85° to about 95° C. for about 1 to about 5 minutes.10. The method of wherein liquid phase resulting from recovery of precipitated soy protein from the heat treated solution is either dried to provide a soy protein product or is further processed by membrane concentration and/or diafiltration and/or heat treated followed by drying to provide a soy protein product.12. The method of wherein said heat treatment is effected at a temperature of about 70° to about 160° C. for about 2 seconds to about 60 minutes.13. The method of wherein said heat treatment is effected at a temperature of about 80° to about 120° C. for about 15 seconds to about 15 minutes14. The ...

PEROXIDE DISPERSIONS

The viscosity of aqueous dispersions of normally solid organic peroxides may be advantageously lowered through the use of surfactants which are polyglyceryl esters of C6-C12 fatty acids. The reduction in viscosity facilitates milling the peroxides to reduce particle size and also provides dispersions of small particle size peroxides which may be readily poured or pumped. 1. An aqueous pumpable or pourable dispersion comprising a) about 35% by weight or more of water-insoluble , solid benzoyl peroxide having an average particle size of less than 5 μm and b) 0.1 to 2.0 weight percent of surfactant having an HLB value of 12 to 18 and which is a polyglyceryl ester of one or more saturated C6-C18 fatty acids selected from the group consisting of octanoic acid , decanoic acid , and mixtures thereof.2. The aqueous pumpable or pourable dispersion of claim 1 , wherein the polyglyceryl ester of one or more fatty acids contains a polyglycerol moiety having 8 to 12 glycerol repeating units on average.3. The aqueous pumpable or pourable dispersion of claim 1 , wherein the surfactant is based on a polyglyceryl having hydroxyl groups with from about 25% to about 60% of the hydroxyl groups of the polyglyceryl being esterified.4. The aqueous pumpable or pourable dispersion of claim 1 , wherein the surfactant is selected from the group consisting of polyglyceryl-10 caprylate/caprate claim 1 , polyglyceryl-10 caprylate claim 1 , and polyglyceryl-10 laurate claim 1 , and mixtures thereof.5. The aqueous pumpable or pourable dispersion of claim 1 , wherein the surfactant is a polyglyceryl-10 caprylate/caprate.6. The aqueous pumpable or pourable dispersion of claim 1 , wherein the surfactant is a food grade surfactant and/or a pharmaceutically acceptable surfactant.7. The aqueous pumpable or pourable dispersion of claim 1 , additionally comprising a macromolecular gelling agent.8. The aqueous pumpable or pourable dispersion of claim 7 , wherein the macromolecular gelling agent crosslinks ...

HIGH-PROTEIN CRISPS UTILIZING A SINGLE PROTEIN ISOLATE

High-protein crisp products and methods of making these products are provided. The products are made from a mixture of ingredients, including a hydrolyzed soy protein isolate and a source of a Group I or Group II metal (e.g., CaCO). The mixture preferably further comprises a filler (e.g., a starch) and water. The blended dry ingredients are preferably first introduced into a preconditioner, after which they are passed through an extruder barrel to yield an extrudate that expands upon exiting the extruder outlet to form the crisp rice-like product. 1. A method of forming a high-protein crisp product , said method comprising:providing a mixture of ingredients, said ingredients comprising a hydrolyzed protein, and a source of a Group I or II metal, and said protein being present in said mixture at a level of at least about 75% by weight, based upon the total weight of the ingredients taken as 100% by weight;passing said mixture through an extruder so as to form the high-protein crisp product.2. The method of claim 1 , wherein said mixture is essentially free of nonhydrolyzed proteins.3. The method of claim 1 , wherein said hydrolyzed protein is the sole protein in the mixture.4. The method of claim 1 , wherein said hydrolyzed protein comprises soy protein isolate from a single source.5. The method of claim 1 , wherein said source of a Group I or II metal is selected from the group consisting of sources of Ca claim 1 , Mg claim 1 , Na claim 1 , and mixtures thereof.6. The method of claim 5 , wherein said metal is a source of Ca.7. The method of claim 6 , wherein said source is selected from the group consisting of tribasic calcium phosphate claim 6 , calcium chloride claim 6 , dibasic calcium phosphate claim 6 , calcium carbonate claim 6 , and mixtures thereof.8. The method of claim 1 , wherein said hydrolyzed protein comprises soy protein isolate from a single source claim 1 , and wherein said Group I or II metal is a source of Ca.9. The method of claim 1 , wherein: ...

PROTEIN-CONTAINING EMULSIFIED OIL OR FAT COMPOSITION FOR PRODUCING EMULSIFIED FOOD

A protein-containing emulsified oil or fat composition for producing an emulsified food, said emulsified composition comprising 10-70 mass % of a protein, 30-90 mass % of an oil or fat and 0-40 mass % of a carbohydrate, when the total amount of the protein, oil or fat and carbohydrate is regarded as 100 mass %, characterized in that at least 50 mass % of the protein is derived from a vegetable protein material satisfying all of the requirements a) to d): a) having a protein content in solid matters of 70 mass % or more; b) having an NSI of 80 or more; c) the results of molecular weight distribution measurement thereof showing an area ratio of 10000 Da or more of 50-80% and an area ratio of 2000 Da or more and less than 10000 Da of 10-40%; and d) when heated at 80° C. for 30 minutes, a 22 mass % solution thereof not gelling. 1. A protein-containing fat emulsion composition for use in a production of emulsified food , comprising 10 to 70% by mass protein , 30 to 90% by mass fat and 0 to 40% by mass carbohydrate , with respect to a total amount of protein , fat and carbohydrate , which is assumed as 100% by mass , wherein 50% by mass or more of the protein is derived from a vegetable protein material having all the following characteristics a) to d):a) a protein content in a solid content is 70% by mass or more,b) NSI is 80 or more,c) measured molecular weight distribution shows that an area ratio of 10000 Da or more is 50 to 80%, and that an area ratio of 2000 Da or more to less than 10000 Da is 10 to 40%,d) gel is not formed by heating 22% by mass the protein solution at 80° C. for 30 minutes.2. The protein-containing fat emulsion composition for use in a production of emulsified food according to claim 1 , wherein the composition comprises 20 to 60% by mass protein and 40 to 80% by mass fat claim 1 , with respect to a total amount of protein claim 1 , fat and carbohydrate claim 1 , which is assumed as 100% by mass.3. The protein-containing fat emulsion composition ...

MINERAL COMPOSITION

Compositions suitable for the purification of liquids, methods for making said compositions, and the uses of said compositions. 1. A composition comprising:a smectite, palygorskite, or sepiolite mineral;a second mineral; andsynthetic amorphous silica;wherein the synthetic amorphous silica is dispersed on the surface of at least one of the smectite, palygorskite, or sepiolite mineral and the second mineral.2. The composition of claim 1 , wherein the synthetic amorphous silica is dispersed on the surface of both the smectite claim 1 , palygorskite claim 1 , or sepiolite mineral and the second mineral.3. The composition of claim 1 , wherein the synthetic amorphous silica is silica gel.4. The composition of claim 1 , wherein the smectite claim 1 , palygorskite claim 1 , or sepiolite mineral is a smectite mineral.5. The composition of claim 1 , wherein the second mineral is selected from the group consisting of diatomite claim 1 , perlite claim 1 , moler claim 1 , kaolin claim 1 , talc claim 1 , or any combination of one or more thereof.6. The composition of claim 1 , wherein the smectite mineral and the second mineral are moler.7. The composition of claim 1 , wherein:at least about 60 wt % of particles in the composition are equal to or smaller than 75 μm; and/or{'sub': '50', '#text': 'the composition has a dranging from about 10 μm to about 60 μm; and/or'}{'sub': '90', '#text': 'the composition has a dranging from about 40 μm to about 150 μm; and/or'}{'sub': '10', '#text': 'the composition has a dranging from about 1 μm to about 10 μm.'}8. The composition of claim 1 , wherein the composition comprises:from about 60 wt % to about 98 wt % of the smectite, palygorskite, or sepiolite mineral; and/orfrom about 1 wt % to about 35 wt % of the second mineral; and/orfrom about 1 wt % to about 15 wt % of the synthetic amorphous silica.9. The composition of claim 1 , wherein the ratio of the smectite claim 1 , palygorskite claim 1 , or sepiolite mineral to the second mineral in ...

LIQUID FOOD COMPOSITIONS COMPRISING SOY WHEY PROTEINS THAT HAVE BEEN ISOLATED FROM PROCESSING STREAMS

A liquid food composition comprising soy whey proteins that have been isolated from processing streams, wherein the food composition is used to form liquid food product. A process for recovering and isolating soy whey proteins and other components from soy processing streams is also disclosed. 1. A liquid food composition , the food composition comprising:(a) soy whey protein having a solubility of at least about 80% in an aqueous medium across a pH range of the aqueous medium of from 2 to 10 and a temperature of 25° C.; and(b) at least one additional ingredient, wherein the at least one additional ingredient is selected from the group consisting of protein-containing material, carbohydrate, dietary fiber, antioxidants, antimicrobial agents, phospholipids, emulsifiers, and combinations thereof;(c) wherein the soy whey protein is present in the composition in an amount ranging from 0.01% to 90% by weight.2. The liquid food composition of claim 1 , wherein the composition further comprises an ingredient selected from the group consisting of a sweetening agent claim 1 , a leavening agent claim 1 , a preservative claim 1 , a pH-adjusting agent claim 1 , a flavoring agent claim 1 , a coloring agent claim 1 , other nutrients claim 1 , and combinations thereof.3. The food composition of claim 1 , wherein the composition is used to prepare a sauce.4. The food composition of claim 1 , wherein the composition is used to prepare a soup.5. The food composition of claim 1 , wherein the composition is used to prepare a gravy.6. A method for producing a liquid food product claim 1 , the method comprising the steps of: (i) pretreating the feed stream by passing the stream through at least one separation technique to form a retentate comprised of soluble components in the aqueous phase of the stream and a permeate comprised of insoluble large molecular weight proteins, wherein the insoluble large molecular weight proteins are selected from the group consisting of pre-treated soy ...

SOY PRODUCTS WITH REDUCED LEVELS OF SULFITE, FREE RADICALS AND METHANETHIOL

Soy products or compositions are treated with a food grade iodate compound or a cystine compound to reduce levels of methanethiol, sulfites and sulfite free-radicals, sulfate free radicals and other free radicals generated from sulfite free radicals in the soy products or compositions by 1% to 95%. 111-. (canceled)12. A product comprising Isolated Soy Protein (ISP) treated with a food grade iodate wherein said ISP has lower levels of sulfite and free radicals relative to untreated ISP and wherein said ISP comprises from 0.2 to 73 parts per million iodine.13. The product of claim 12 , wherein the levels of sulfite and free radicals in the ISP are reduced by 1% to 95% relative to untreated ISP.14. The product of claim 13 , wherein the levels of sulfite and free radicals in the ISP are reduced by 95%.15. (canceled)16. A product comprising ISP treated with a food grade iodate compound wherein said ISP has less than the naturally occurring levels of methanethiol relative to untreated ISP and wherein said ISP comprises from 0.2 to 73 parts per million iodine.17. The product of claim 12 , wherein the level of methanethiol in the ISP is reduced from 1% to 95% relative to untreated ISP.18. The product of claim 17 , wherein the levels of sulfite and free radicals in the ISP are reduced by 95%.19. (canceled)20. Iodine-treated isolated soy protein (ISP) comprising 0.2 to 73 parts per million iodine and reduced levels of sulfite and free radicals relative to ISP that is not iodine treated.21. The ISP of wherein the ISP is prepared by a process comprising the step of treating an aqueous slurry comprising soy protein obtained from defatted soy flour or flakes with a food grade iodate to provide an ISP comprising from 0.2 to 73 parts per million iodine This application is a continuation of U.S. application Ser. No. 11/516,674, filed Sep. 7, 2006, which is a continuation-in-part of U.S. application Ser. No. 10/421,955, filed Apr. 24, 2003, now U.S. Pat. No. 7,147,878, issued on Nov. ...

PROTEIN COMPOSITION AND ITS USE IN RESTRUCTURED MEAT AND FOOD PRODUCTS

The invention provides protein compositions containing structured protein products having protein fibers that are substantially aligned. 1. A structured protein product made from at least one ingredient containing protein , wherein the structured protein product comprises protein fibers that are substantially aligned and wherein the arrangement of protein fibers are such that an average of at least 55% of the protein fibers forming the structured protein product are contiguous to each other at less than a 45° angle when viewed in a horizontal plane , and wherein said structured protein product is further characterized by average shear strength of at least 1400 grams.2. A structured protein product according to claim 1 , wherein the arrangement of protein fibers are such that at least 55% of the protein fibers forming the structured protein product are contiguous to each other at less than a 45° angle when viewed in a horizontal plane.3. A structured protein product according to claim 2 , wherein the arrangement of protein fibers are such that at least 55% of the protein fibers forming the structured protein product are contiguous to each other at less than a 45° angle when viewed in a horizontal plane claim 2 , and wherein said structured protein product is further characterized by a shear strength of at least 1400 grams.4. A structured protein composition according to claim 1 , which has average shear strength of 1500 to 1800 grams claim 1 , or 1800 to 2000 grams claim 1 , or 2000 to 2600 grams.5. A structured protein composition according to claim 1 , which has a shear strength of 1500 to 1800 grams claim 1 , or 1800 to 2000 grams claim 1 , or 2000 to 2600 grams.6. The structured protein product according to claim 1 , wherein said structured protein product is further characterized by an average shred characterization of at least 10% by weight of large pieces.7. The structured protein product according to claim 6 , wherein said structured protein product is ...

SOYBEAN OLIGOPEPTIDE WITH LOW ALLERGENICITY AND LITTLE BITTERNESS AND PREPARATION METHOD AND APPLICATION THEREOF

The present invention provides a soybean oligopeptide with low allergenicity and little bitterness and its preparation method and application. The preparation method includes the following steps: 1) mixing a soybean protein powder with water to obtain a soybean protein solution, and then performing thermal denaturation on the soybean protein solution, to prepare a denatured protein solution; 2) adjusting pH value of the denatured protein solution to 6-9, and then adding a neutral protease and papain to conduct a first enzymolysis, to obtain a first enzymatic hydrolysate; 3) adding an alkaline protease and a flavor protease into the first enzymatic hydrolysate to conduct a second enzymolysis, and after performing enzyme inactivation, to obtain a second enzymatic hydrolysate; and 4) centrifuging the second enzymatic hydrolysate, and performing membrane filtration on centrifuged supernatant liquid, to obtain the soybean oligopeptide with low allergenicity and little bitterness. 1. A method for preparation of a soybean oligopeptide with low allergenicity and little bitterness , comprising the following steps:1) mixing a soybean protein powder with water to obtain a soybean protein solution, and performing thermal denaturation on the soybean protein solution to obtain a denatured protein solution;2) adjusting pH value of the denatured protein solution to 6-9, and then adding a neutral protease and papain to conduct a first enzymolysis to obtain a first enzymatic hydrolysate;3) adding an alkaline protease and a flavor protease into the first enzymatic hydrolysate to conduct a second enzymolysis, and after performing enzyme inactivation, to obtain a second enzymatic hydrolysate; and4) centrifuging the second enzymatic hydrolysate, and performing membrane filtration on centrifuged supernatant liquid, to obtain the soybean oligopeptide with low allergenicity and little bitterness.2. The method in accordance with claim 1 , wherein a mass to volume ratio of the soybean protein ...

SOY PROTEIN PRODUCT WITH NEUTRAL OR NEAR NEUTRAL PH ("S701N2")

An aqueous solution of a soy protein product having a protein content of at least about 60 wt % (N×6.25) d.b. which is completely soluble in aqueous media at a pH of less than about 4.4 and heat stable at that pH range is adjusted in pH to a pH of about 6.1 to about 8. The resulting product is further processed by drying the product, recovering and drying any precipitated soy protein material, heat treating and then drying the product, or heat treating the product and recovering and drying any precipitated soy protein material. 1. A soy protein product comprising:(a) a protein content of at least about 60 wt % (N×6.25) d.b. with a natural pH in aqueous solution of 6.5 to 8;(b) a non-beany flavor;(c) a phytic acid content of less than about 1.5 wt %; and(d) a molecular weight profile, as determined by the method described in Example 13, comprising:about 10 to about 46% greater than about 100,000 Da;about 21 to about 34% from about 15,000 to about 100,000 Da;about 1 to about 14% from about 5,000 to about 15,000 Da; andabout 20 to about 52% from about 1,000 to about 5,000 Da.2. The soy protein product of claim 1 , comprising a phytic acid content of less than about 0.5 wt %.3. The soy protein product of claim 1 , comprising a natural pH in aqueous solution of about 6.5 to about 7.5.4. The soy protein product of claim 1 , comprising a protein content of at least about 90 wt % (N×6.25).5. The soy protein product of claim 4 , comprising a protein content of at least about 100 wt % (N×6.25).6. (canceled)7. The soy protein product of comprising a molecular weight profile comprisingabout 15 to about 41% greater than about 100,000 Da;about 26 to about 32% from about 15,000 to about 100,000 Da;about 6 to about 9% from about 5,000 to about 15,000 Da; andabout 25 to about 47% from about 1,000 to about 5,000 Da.8. The soy protein product of comprising a surface hydrophobicity between about 250 and about 575 as determined by the method described in Example 14.9. A food composition ...

PH ADJUSTED PULSE PROTEIN PRODUCT

An aqueous solution of a pulse protein product having a protein content of at least about 60 wt % (N×6.25) d.b. which is soluble in aqueous media at a pH of less than about 4.4 and heat stable at that pH range is adjusted in pH to a pH of about 6 to about 8. The resulting product is further processed by drying the product, recovering and drying any precipitated pulse protein material, heat treating and then drying the product, or heat treating the product and recovering and drying any precipitated pulse protein material. 1. A pulse protein product having a protein content of at least about 60 wt % (N×6.25) d.b. with a natural pH in aqueous solution of about 6 to about 8 and which has a clean flavor2. The pulse protein product of claim 1 , the flavor of which does not contain green and/or beany and/or vegetable notes.3. The pulse protein product of wherein the pH is about 6.5 to about 7.5.4. The pulse protein product of which has a protein content of at least about 90 wt % (N×6.25).5. The pulse protein product of which has a protein content of at least about 100 wt % (N×6.25).6. A food composition comprising a pulse protein product as claimed in .7. The food composition of which is a processed meat product.8. The food composition of which is a baked good.9. The food composition of which is a nutrition bar.10. The food composition of which is a dairy analogue or dairy alternative product.11. The food composition of wherein the dairy analogue or dairy alternative product is a beverage or a frozen dessert.12. A method of producing a pulse protein product as claimed in claim 1 , which comprises:providing an aqueous solution of a pulse protein product having a protein content of at least about 60 wt % (N×6.25) d.b. which is soluble in aqueous media at a pH of less than about 4.4 and heat stable at that pH range,adjusting the pH of the solution to about pH 6 to about 8, andoptionally drying the entire pH-adjusted solution oroptionally recovering and then drying any ...

Increased Alpha-Prime Beta-Conglycinin Soybeans

The invention overcomes the deficiencies of the art by providing a soybean plant with non-transgenic mutations conferring decreased α-subunit of β-conglycinin content and increased α′-subunit content of β-conglycinin in seed. Moreover, the invention provides an agronomically elite soybean plant with non-transgenic mutations conferring a gyclinin null phenotype, increased β-conglycinin content, and increased α′-subunit content of β-conglycinin in the seed. The invention also provides derivatives, and plant parts of these plants and uses thereof. Methods for producing such plants are also provided. 121-. (canceled)22. A soybean protein product comprising a glycinin content of between about 1% to about 35% of the total protein , and an increased β-conglycinin content wherein the α′-subunit level is at least equal to that of the a-subunit in the β-conglycinin trimer.23. The soybean protein product of comprising soybean meal claim 22 , soy flour claim 22 , defatted soyflour claim 22 , edamame claim 22 , soy nuts claim 22 , soymilk claim 22 , spray-dried soymilk claim 22 , soy protein concentrate claim 22 , texturized soy protein claim 22 , hydrolyzed soy protein claim 22 , soy protein isolates claim 22 , and spray-dried tofu.24. A foodstuff made with the soybean protein product of comprising beverages claim 23 , infused foods claim 23 , sauces claim 23 , coffee creamers claim 23 , cookies claim 23 , emulsifying agents claim 23 , bread claim 23 , candy instant milk drinks claim 23 , gravies claim 23 , noodles claim 23 , soynut butter claim 23 , soy coffee claim 23 , roasted soybeans claim 23 , crackers claim 23 , candies claim 23 , soymilk claim 23 , tofu claim 23 , tempeh claim 23 , baked soybeans claim 23 , bakery ingredients claim 23 , beverage powders claim 23 , breakfast cereals claim 23 , fruit juices claim 23 , syrups claim 23 , desserts claim 23 , icings and fillings claim 23 , soft frozen products claim 23 , confections and intermediate foods.25. The soybean ...

SOY PROTEIN PRODUCTS OF IMPROVED WATER-BINDING CAPACITY

Soy protein products are provided which lack the characteristic beany flavour of conventional soy protein isolates and can replace conventional isolates in various food products to provide food products having improved flavour. 2. The method of wherein said heat treatment is effected at a temperature of about 70° to about 160° C. for about 2 seconds to about 60 minutes.3. The method of wherein said heat treatment is effected at a temperature of about 80° to about 120° C. for about 15 seconds to about 15 minutes.4. The method of wherein said heat treatment is effected at a temperature of about 85° to about 95° C. for about 1 to about 5 minutes.5. The method of wherein liquid phase resulting from recovery of precipitated soy protein from the heat treated solution is either dried to provide a soy protein product or is further processed by membrane concentration and/or diafiltration and/or heat treated followed by drying to provide a soy protein product.7. The method of wherein said heat treatment is effected at a temperature of about 70° to about 160° C. for about 2 seconds to about 60 minutes.8. The method of wherein said heat treatment is effected at a temperature of about 80° to about 120° C. for about 15 seconds to about 15 minutes.9. The method of wherein said heat treatment is effected at a temperature of about 85° to about 95° C. for about 1 to about 5 minutes.10. The method of wherein liquid phase resulting from recovery of precipitated soy protein from the heat treated solution is either dried to provide a soy protein product or is further processed by membrane concentration and/or diafiltration and/or heat treated followed by drying to provide a soy protein product.12. The method of wherein said heat treatment is effected at a temperature of about 70° to about 160° C. for about 2 seconds to about 60 minutes.13. The method of wherein said heat treatment is effected at a temperature of about 80° to about 120° C. for about 15 seconds to about 15 minutes.14. The ...

Fixed Bed Decolorization Process For Polyunsaturated Fatty Acid

The present invention relates to a fixed bed decolorization process for an polyunsaturated fatty acid, comprising a polyunsaturated fatty acid or a polyunsaturated fatty acid solution is either passed directly through a filler of the fixed bed or recycled in a filler of the fixed bed, a colorless or light-colored polyunsaturated fatty acid product is ultimately produced, at the same time, other than the color, other qualities of the polyunsaturated fatty acid remain unaffected. The decolorization process allows continuous operation or intermittent operation. The filler of the fixed bed comprises one or a mixture of activated carbon, diatomite, carclazyte, silicone and an ion-exchange resin. An upper or a middle or a bottom or a combination thereof is employed to feed a polyunsaturated fatty acid feedstock or a polyunsaturated fatty acid solution. The filler in the fixed bed can be used repeatedly. The filler can be reused after being washed when decolorization effects thereof become deteriorated or ineffective. 1. A fixed bed decolorization process for polyunsaturated fatty acid , the fixed bed decolorization process comprising:1) filling a fixed-bed filler in a decolorization fixed bed, and rinsing the decolorization fixed bed with a dissolving solvent; and then rinsing the decolorization fixed bed with a polyunsaturated fatty acid feedstock or a polyunsaturated fatty acid solution for 1˜2 times to obtain a stable decolorization fixed bed; wherein the polyunsaturated fatty acid solution includes the polyunsaturated fatty acid feedstock and the dissolving solvent;2) mixing the polyunsaturated fatty acid feedstock or the polyunsaturated fatty acid solution with the dissolving solvent together to obtain a mixture; and3) passing the mixture through an inlet of the decolorization fixed bed to feed, passing the mixture through an outlet of the decolorization fixed bed to discharge, a temperature of the decolorization fixed-bed is 0° C.˜150° C., to obtain a decolorized ...

METHOD FOR PRODUCING CELLULOSE NANOFIBER USING ALMOND SEED COAT

The method of the present invention for producing cellulose nanofiber from almond seed coat includes alkali cooking a food manufacturing by-product containing plant fiber with an alkali acceptable for food use, washing the object, bleaching the pulp component containing cellulose and hemicellulose thus obtained using a chemical acceptable for food use, washing the object with water, and mechanically fibrillating and grinding the pulp component obtained above, thereby obtaining cellulose nanofiber. The present invention allows efficient production of highly safe cellulose nanofiber from a food manufacturing by-product as a raw material, or almond seed coat acceptable for food use. 1. A method for producing cellulose nanofiber (CNF) comprising:alkali cooking a food manufacturing by-product containing plant fiber using an alkali acceptable for food use, followed by washing with water;bleaching a pulp component containing cellulose and hemicellulose thus obtained using a chemical acceptable for food use, followed by washing with water; and thenmechanically fibrillating and grinding the pulp component obtained above, thereby obtaining cellulose nanofiber.2. The method according to claim 1 , wherein the food manufacturing by-product containing plant fiber is selected from the group consisting of almond seed coat claim 1 , bean curd refuse claim 1 , rice bran claim 1 , and wheat bran.3. The method according to claim 1 , wherein the food manufacturing by-product containing plant fiber is almond seed coat.4. The method according to claim 1 , wherein sodium hydroxide is used as an alkali acceptable for food use.5. The method according to claim 1 , wherein any one of sodium hydroxide claim 1 , sodium hypochlorite claim 1 , ozone claim 1 , oxygen claim 1 , hydrogen peroxide claim 1 , or a mixture of these chemicals is used as a chemical acceptable for food use.6. The method according to claim 1 , wherein processing to a nano size by mechanical fibrillating and grinding is ...

SEAWEED MEAL AND METHOD OF MAKING THE SAME

Provided are methods of making high quality seaweed meal suitable for food applications. The method comprises the steps of cleaning the fresh, dried, or rehydrated red seaweed, pretreating the red seaweed with a salt under heat, and drying and grinding the treated red seaweed to obtain the seaweed meal. Optionally, the method comprises bleaching the red seaweed, and/or hydrolyzing the red seaweed with cellulase. The seaweed meal produced by the disclosed technology has a light color, good flavor and taste, good mouthfeel, high gelling capability, great stability, and ideal smoothness and slipperiness suitable for food applications. 2. The method of claim 1 , further comprising bleaching the seaweed with a bleaching agent.3. The method of claim 2 , wherein the bleaching step is performed with a seaweed:bleaching solution ratio of between 1:1 and 1:3 claim 2 , between 1:1 and 1:5 claim 2 , between 1:2 and 1:5 claim 2 , or between 1:1 and 1:10.4. The method of claim 2 , wherein the bleaching step is performed with a concentration of available chlorine content of between 0.01% and 5% claim 2 , between 0.02% and 3% claim 2 , between 0.05% and 2% claim 2 , between 0.05% and 1% claim 2 , between 0.05% and 0.5% claim 2 , or between 0.01% and 0.1% (wt %).5. The method of claim 2 , wherein the bleaching step is performed for a period of between 5 minutes and 240 minutes claim 2 , between 10 minutes and 180 minutes claim 2 , between 10 minutes and 120 minutes claim 2 , between 10 minutes and 60 minutes claim 2 , or between 20 minutes and 60 minutes.6. The method of claim 2 , wherein the bleaching agent is selected from the group consisting of hypochlorous acid claim 2 , sodium hypochlorous claim 2 , chlorine dioxide claim 2 , and a combination thereof.7. The method of claim 1 , further comprising treating the seaweed with an enzyme to improve mouthfeel of the seaweed meal claim 1 , wherein the enzyme is cellulase.8. The method of claim 7 , wherein the enzyme treatment step is ...

SEAWEED MEAL AND METHOD OF MAKING THE SAME

Provided are methods of making high quality seaweed meal suitable for food applications. The method comprises the steps of cleaning the fresh, dried, or rehydrated red seaweed, pretreating the red seaweed with a salt under heat, and drying and grinding the treated red seaweed to obtain the seaweed meal. Optionally, the method comprises bleaching the red seaweed, and/or hydrolyzing the red seaweed with cellulase. The seaweed meal produced by the disclosed technology has a light color, good flavor and taste, good mouthfeel, high gelling capability, great stability, and ideal smoothness and slipperiness suitable for food applications. 1. A method of preparing a high quality seaweed meal suitable for food applications , consisting of:cleaning seaweed material with water, wherein the seaweed material is dry, fresh, or rehydrated seaweed material; andtreating the seaweed with a salt under heat;thereby to obtain the seaweed meal.2. A method of preparing a high quality seaweed meal suitable for food applications , consisting of:cleaning seaweed material with water, wherein the seaweed material is dry, fresh, or rehydrated seaweed material; andtreating the seaweed with a salt under heat; and bleaching the seaweed with a bleaching agent,thereby to obtain the seaweed meal.3. The method of claim 2 , wherein the bleaching step is performed with a seaweed:bleaching solution ratio of between 1:1 and 1:3 claim 2 , between 1:1 and 1:5 claim 2 , between 1:2 and 1:5 claim 2 , or between 1:1 and 1:10.4. The method of claim 2 , wherein the bleaching step is performed with a concentration of available chlorine content of between 0.01% and 5% claim 2 , between 0.02% and 3% claim 2 , between 0.05% and 2% claim 2 , between 0.05% and 1% claim 2 , between 0.05% and 0.5% claim 2 , or between 0.01% and 0.1% (wt %).5. The method of claim 2 , wherein the bleaching step is performed for a period of between 5 minutes and 240 minutes claim 2 , between 10 minutes and 180 minutes claim 2 , between 10 ...

Low-Color Starch Materials and Methods for Making and Using Same

The present disclosure relates to low-color waxy tapioca starches and methods for making and using them. A method for preventing color formation in a waxy tapioca starch, the method comprising providing a waxy tapioca starch, and contacting the waxy tapioca starch with an aqueous decolorizing liquid, the aqueous decolorizing liquid being selected from the group consisting of an aqueous alkaline liquid, and an aqueous surfactant liquid; and substantially removing the aqueous decolorizing liquid from the waxy tapioca starch. 130-. (canceled)31. A method for preventing color formation in a waxy tapioca starch , the method comprisingproviding a waxy tapioca starch, and an aqueous alkaline liquid, and', 'an aqueous surfactant liquid; and, 'contacting the waxy tapioca starch with an aqueous decolorizing liquid, the aqueous decolorizing liquid being selected from the group consisting of'}substantially removing the aqueous decolorizing liquid from the waxy tapioca starch.32. The method according to claim 31 , wherein the aqueous decolorizing liquid is an alkaline composition.33. The method according to claim 32 , wherein the aqueous alkaline liquid has a pH in the range of 7.5 to 12.34. The method according to claim 32 , wherein the aqueous alkaline liquid has a pH in the range of 8 to 9.9.35. The method according to claim 32 , wherein the aqueous alkaline liquid includes one or more of a carbonate base claim 32 , a bicarbonate base claim 32 , and a hydroxide base.36. The method according to claim 31 , wherein the aqueous decolorizing liquid is an aqueous surfactant liquid that includes a surfactant.37. The method according to claim 36 , wherein the surfactant is an anionic surfactant.38. The method according to claim 36 , wherein the surfactant is a nonionic surfactant.39. The method according to claim 35 , wherein the surfactant of the aqueous decolorizing liquid has an HLB value of at least about 11.40. The method according to claim 31 , wherein the aqueous decolorizing ...

对叶绿素进行酶促脱色的组合物和方法

本发明提供了酶处理（“漂白”或“脱色”）含叶绿素组合物的组合物和方法，所述含叶绿素组合物例如，藻类制备物，含叶绿素或受叶绿素污染的饲料，食品或油，例如植物油，包括从油料种子加工的油例如油菜（油菜籽）油或大豆油，或从油料果实加工的油例如棕榈油。在一个方面，本发明提供了应用叶绿素酶对藻类、动物（例如鱼）或植物制备物、食品或油中的叶绿素进行酶促水解的方法。在一个方面，叶绿素酶被固定在硅石上。本发明也提供了制造的组合物和洗涤剂。

Patent JPS5635136B2

method

Method of producing soy protein isolate

Группа изобретений относится к пищевой, фармацевтической, кормовой и косметической промышленностям. Для получения соевого белкового изолята из белого лепестка способ осуществляют следующим образом. Подают сырье с индексом растворимости PDI - от 55 до 95, при толщине белого лепестка или его отходов от 0,1 до 1,5 мм, воду и щелочь для получения суспензии соевого белка. Осуществляют его водно-щелочную обработку в гравитационном закрученном потоке, при этом сырье, воду и щелочь подают в начало потока. Экстракцию проводят в две стадии при температуре 48-65°C и pH 6,8-8,8. При снижении индекса растворимости PDI менее 75 после второй экстракции осуществляют обработку суспензии острым паром при температуре 82-102°C и давлении 2,2-4,0 Bar в течение времени, исключающего денатурацию белка, а затем резко снижают температуру до 48-65°C. Отделяют экстракт и осуществляют предварительное смешивание жидкой фазы с кислотой и осаждение белков при pH, соответствующем изоэлектрической точке соевых белков. Отделяют сыворотку от осажденных белков, промывают осажденные белки. Жидкую фазу, образующуюся в процессе выделения белков, используют при обработке и растворении сырья. Сушат и упаковывают готовый продукт. Группа изобретений направлена на получение продукта с высокими органолептическими показателями, на однородный продукт, содержащий в основном высокомолекулярные белки, способ позволяет сократить потери белка. 2 н. и 3 з.п. ф-лы, 2 пр. РОССИЙСКАЯ ФЕДЕРАЦИЯ (19) RU (11) (13) 2 612 151 C1 (51) МПК A23J 3/16 (2006.01) A23J 1/14 (2006.01) ФЕДЕРАЛЬНАЯ СЛУЖБА ПО ИНТЕЛЛЕКТУАЛЬНОЙ СОБСТВЕННОСТИ (12) ФОРМУЛА (21)(22) Заявка: ИЗОБРЕТЕНИЯ К ПАТЕНТУ РОССИЙСКОЙ ФЕДЕРАЦИИ 2016117351, 05.05.2016 (24) Дата начала отсчета срока действия патента: 05.05.2016 (72) Автор(ы): Тришин Сергей Борисович (RU), Кравцова Татьяна Александровна (RU) 02.03.2017 Приоритет(ы): (22) Дата подачи заявки: 05.05.2016 (56) Список документов, цитированных в отчете о поиске: US 20060134310 A1, 22.06.2006. (45) Опубликовано: ...

Method of preparing food concentrate "borsch" of functional purpose

Изобретение относится к пищевой промышленности. Способ приготовления пищевого концентрата «Борщ» функционального назначения включает подготовку сушеных овощей, соли и пряностей, их дозирование и смешивание. Причем в рецептуру в качестве белкового и витаминного компонента вводят соево-свекольный белково-витаминный концентрат в количестве 10% и соево-морковный белково-витаминный концентрат в количестве 10% от общей массы пищеконцентратной смеси. Соево-свекольный и соево-морковный белково-витаминные концентраты получают путем смешивания в равных количествах набухшего зерна сои и нарезанной свежей свеклы или свежей моркови, их дезинтеграции с одновременной экстракцией растворимых веществ в воде, разделения на жидкую и нерастворимую фракции, коагуляции белковых веществ в жидкой фракции композицией аскорбиновой и янтарной кислот, взятых в соотношении 1:1, отделения белково-витаминного сгустка, его формования и сушки до влажности 9-10%. Изобретение позволяет получить продукт из ингредиентов растительного происхождения, богатый белком и клетчаткой, содержащий значительное количество минеральных веществ, витамины С и Е и янтарную кислоту. 3 табл., 2 пр. РОССИЙСКАЯ ФЕДЕРАЦИЯ (19) RU (11) (13) 2 668 425 C1 (51) МПК A23L 3/00 (2006.01) A23J 3/16 (2006.01) ФЕДЕРАЛЬНАЯ СЛУЖБА ПО ИНТЕЛЛЕКТУАЛЬНОЙ СОБСТВЕННОСТИ (12) ОПИСАНИЕ ИЗОБРЕТЕНИЯ К ПАТЕНТУ (52) СПК A23L 3/00 (2006.01); A23J 3/16 (2006.01) (21)(22) Заявка: 2017141665, 29.11.2017 (24) Дата начала отсчета срока действия патента: Дата регистрации: Приоритет(ы): (22) Дата подачи заявки: 29.11.2017 (45) Опубликовано: 01.10.2018 Бюл. № 28 (56) Список документов, цитированных в отчете о поиске: В.Н. Гуляев, Н.В. Дремина и др. Адрес для переписки: 675027, Амурская обл., г. Благовещенск, Игнатьевское ш., 19, ФГБНУ ВНИИ сои, Патентное подразделение C 1 2 6 6 8 4 2 5 R U (54) СПОСОБ ПРИГОТОВЛЕНИЯ ПИЩЕВОГО КОНЦЕНТРАТА "Борщ" ФУНКЦИОНАЛЬНОГО НАЗНАЧЕНИЯ (57) Реферат: Изобретение относится к пищевой зерна сои и нарезанной свежей свеклы или ...

Process for bleaching a food product

The present invention relates to a process for bleaching a food product, comprising incubating an intermediate form of the food product with a laccase which comprises a conserved prosite pattern according to amino acid sequence W-Y-H-X-H- X(3)-Q-Y-C-D-G-X-R-G, wherein X is an amino acid residue A, R, N, D, C, Q, E, G, H, I, L K, M, F, P, S, T, W, Y, or V, and wherein the intermediate form of the food product comprises a colored substance, and producing the food product, wherein the food product is bleached.

High-soluble soybean peptide dry powder and preparation method thereof

本发明涉及大豆肽制品技术领域，具体涉及一种溶解性好的大豆肽干粉的制备方法。溶解性好的大豆肽干粉，其制备方法先将大豆分离蛋白酶解得大豆肽溶液，然后将大豆肽溶液进行干燥并造粒，得大豆肽干粉；干燥为先进行喷雾干燥，再进行滚筒干燥，造粒为为在滚筒干燥过程中通过热风涡流循环使得物料形成颗粒。本发明的大豆肽干粉，在水中溶解分散性能好，不结团、不形成各疙瘩，得到的水溶液均匀、细腻、透明、澄清。本发明提供的制备方法，通过重复干燥后造粒，使得大豆肽干粉水分含量低，且水分含量稳定，同时，使得到的大豆肽干粉溶解性好、分散性好，且得到的颗粒较粉状大豆肽粒度大，不易起扬尘，使用过程中更加方便、安全，易于控制。

A kind of preparation method of smellless soybean separated protein powder

本发明公开了一种无豆腥大豆分离蛋白粉的制备方法，包括：低温脱脂豆粕和水混合进行蒸汽热烫处理脱腥，在碱性条件下进行剪切处理，反应后固液分离，将得到的豆渣进行剪切处理，加水萃取，然后固液分离，将得到的碱萃豆乳液和水萃豆乳液合并得到混合豆乳；将混合豆乳调整pH值使蛋白沉淀，然后固液分离得到固相即为大豆酸沉凝乳蛋白；将大豆酸沉凝乳蛋白配置成蛋白液，加入酶进行酶解，再进行微波脱腥；然后将脱腥蛋白液喷雾干燥得到所述无豆腥大豆分离蛋白粉。本发明采用物理和生物结合的方式来去除豆腥味，得到的大豆分离蛋白粉无豆腥味，可应用于乳品、饮料、冲调饮品中。

Method for extracting isoflavone from residual products of soybean paste

본 발명은 콩으로부터 이소플라본을 추출하는 방법에 관한 것으로서, 구체적으로는 본 발명은 증숙한 콩으로 메주를 제조하는 과정에서 증숙한 콩으로부터 부산물로 발생하는 액체 성분을 분리하고, 상기 분리한 액체 성분을 컬럼 크로마토그래피로 정제하여 이소플라본을 추출하는 것이다. 또한, 본 발명은 메주를 발효하여 된장을 제조하는 과정에서 상층부에 부유하는 고체 성분을 분리하고, 상기 분리한 고체 성분에 알콜 또는 알콜 수용액을 넣고 교반 및 여과한 후, 여과액을 컬럼 크로마토그래피로 정제하여 이소플라본을 추출하는 것이다. 본 발명은 간단한 공정으로 이소플라본을 추출할 수 있고, 메주 및 된장을 제조하는 과정에서 발생하는 부산물로부터 이소플라본을 추출함으로써 생산성을 향상시키는 것을 가능하게 한다.

Method

The present invention provides methods and uses for treating pyropheophytin-containing compositions, particularly in order to remove pyropheophytin therefrom. The compositions are typically plant, algal, or bacterial derived products such as vegetable oils. The method comprises a step of contacting the compositions with an enzyme having pyropheophytinase activity. Also provided are related apparatus and products for performing such methods and uses.

Process for refining crude plant oil involving enzymatic hydrolysis and gum recycling

In one aspect, provided herein is a continuous process for refining a crude plant oil, comprising (i) an enzymatic hydrolysis step comprising contacting the crude oil with an enzyme which hydrolyses chlorophyll or a chlorophyll derivative; and (ii) a degumming step comprising separating a gum phase from the oil; wherein the process comprises recycling at least a portion of the separated gum phase for addition to the crude oil before enzymatic hydrolysis.

Process for treating plant oil involving addition of serial doses of chlorophyll or chlorophyll derivative degrading enzyme

In one aspect, provided herein is a process for treating a plant oil, comprising (i) adding a first dose of an enzyme which is capable of hydrolysing chlorophyll or a chlorophyll derivative to the oil; (ii) performing a first reaction step in which the enzyme hydrolyses chlorophyll or a chlorophyll derivative present in the oil; and (iii) adding one or more further doses of the enzyme to the oil, wherein a further reaction step is performed after addition of each further dose of the enzyme to the oil.

Method for treating pyropheophytin-containing compositions

The present invention provides methods and uses for treating pyropheophytin-containing compositions, particularly in order to remove pyropheophytin therefrom. The compositions are typically plant, algal, or bacterial derived products such as vegetable oils. The method comprises a step of contacting the compositions with an enzyme having pyropheophytinase activity. Also provided are related apparatus and products for performing such methods and uses.

Compositions and methods for enzymatic decolorization of chlorophyll

The invention provides compositions and methods for the enzymatic treatment (“bleaching” or “de-colorizing”) of chlorophyll-comprising compositions, e.g., algae preparations, chlorophyll-containing or chlorophyll­-contaminated feeds, foods or oils, for example, vegetable oils, including oils processed from oilseeds, such as canola (rapeseed) oil or soybean oil, or oil fruits, such as palm oil. In one aspect, the invention provides methods using a chlorophyllase enzyme for the enzymatic hydrolysis of chlorophyll in an algae, an animal (e.g., a fish) or plant preparation, a food or an oil. In one aspect, the chlorophyllase is immobilized onto a silica. The invention also provides compositions of manufacture and detergents.

Production method for soya-mushroom functional products

FIELD: food industry. SUBSTANCE: invention refers to food industry. Mixture is prepared by way of combined disintegration of protein and mushroom components in water medium at the ratio soya beans: mushrooms: water being equal to 1:1:6. Mushroom component is prepared from the mixture of porcini and aspen mushrooms taken at the ratio 1:2. The mixture is divided into liquid and insoluble fractions. Protein is coagulated in the liquid fraction by 3% water solution of ascorbic acid at the ratio protein-vitamin-mineral liquid fraction:ascorbic acid being 1:0.1. The produced coagulate is separated, the coagulate and the insoluble soya-mushroom fraction are moulded and the moisture content is regulated up to 10-60%, and culinary sauce is cooked on the base of the separated whey. EFFECT: invention ensures manufacturing of a functional product with high organoleptic properties, nutritive and biological value. 2 tbl, 2 ex РОССИЙСКАЯ ФЕДЕРАЦИЯ (19) RU (11) (13) 2 610 181 C1 (51) МПК A23J 1/14 (2006.01) ФЕДЕРАЛЬНАЯ СЛУЖБА ПО ИНТЕЛЛЕКТУАЛЬНОЙ СОБСТВЕННОСТИ (12) ФОРМУЛА (21)(22) Заявка: ИЗОБРЕТЕНИЯ К ПАТЕНТУ РОССИЙСКОЙ ФЕДЕРАЦИИ 2015133878, 12.08.2015 (24) Дата начала отсчета срока действия патента: 12.08.2015 Дата регистрации: (72) Автор(ы): Скрипко Ольга Валерьевна (RU), Литвиненко Оксана Викторовна (RU), Корнева Надежда Юрьевна (RU) Приоритет(ы): (22) Дата подачи заявки: 12.08.2015 (45) Опубликовано: 08.02.2017 Бюл. № 4 ТОЛСТОГУЗОВ В.Б. Новые формы белковой пищи. Москва, Агропромиздат, 1987, с.217-218. RU 2482696 C2, 27.05.2013. 2 6 1 0 1 8 1 R U (57) Формула изобретения Способ получения соево-грибных функциональных продуктов, включающий приготовление соево-грибной белково-витаминно-минеральной смеси из соевого и грибного компонентов, ее разделение на жидкую и нерастворимую фракции, коагуляцию белка в жидкой фракции раствором органической кислоты, отделение полученного коагулята, формование коагулята и нерастворимой соево-грибной фракции, отличающийся тем, что белково- ...

Method for preparing complexes of food water soluble soya protein

FIELD: food industry. SUBSTANCE: suspension of soya protein and hydrated gel of phosphate of alkaline-earth metal (its concentration being 5-20 % ) is prepared. Said gel is prepared by reacting hydroxide of alkaline-earth metal and phosphoric acid, the process takes place at pH 7.5-9.5. Quantity of said gel is so that content of metal in desired product is 1.5-3.5 mass % as calculated for dry protein. Thus prepared mixture is dried. Suspension of soya protein may be heated to 104.4-204.4 C before or after mixing. Content of solid particles in mentioned above gel may be 7-10 mass % , pH of soya protein may be 6.5-7.5. EFFECT: improves efficiency of the method. 5 cl, 2 tbl 59$ С$0Сс ПЧ Го РОССИЙСКОЕ АГЕНТСТВО ПО ПАТЕНТАМ И ТОВАРНЫМ ЗНАКАМ (19) (51) МПК ВИ” 2 032 353. 13) Сл А 23 43 3/00 12) ОПИСАНИЕ ИЗОБРЕТЕНИЯ К ПАТЕНТУ РОССИЙСКОЙ ФЕДЕРАЦИИ (21), (22) Заявка: 4028932/13, 02.02.1987 (30) Приоритет: 03.02.1986 Ц$ 824990 (46) Дата публикации: 10.04.1995 (56) Ссылки: 1. Патент США М 2605229, кл. 252-517, 1949.2. Авторское свидетельство СССР М 820784, кл. А2З. 300, 1979. (71) Заявитель: Ральстон Пьюрина Компани (0$) (72) Изобретатель: Санта Хью-Ченг Лин[ц3], Мионг Я Чо[0$] (73) Патентообладатель: Ральстон Пьюрина Компани (1$) (54) СПОСОБ ПОЛУЧЕНИЯ ПИЩЕВЫХ ВОДОРАСТВОРИМЫХ КОМПЛЕКСОВ СОЕВОГО БЕЛКА (57) Реферат: Использование: В пищевой промышленности при производстве жидких пищевых продуктов. Сущность: из соевого белка и гидратированного геля фосфата щелочноземельного металла готовят 5 - 20% суспензии, при этом гель фосфата щелочноземельного металла получают путем взаимодействия гидроокиси щелочноземельного металла с фосфорной кислотой при рН реакционной среды 7,5 - 9,5, гель вводят в количестве, обеспечивающем содержание металла в продукте 1,5 - 3,5 мас.% в пересчете на сухой белок, полученную смесь высушивают. Возможно нагревание суспензии соевого белка до 104,4 - 2044°С до или после смешивания, а содержание в геле твердых частиц может быть 7 - 10 мас.%, рН соевого белка ...

Food analog and process for making the same

Disclosed is a novel process for producing a cooked food analog from soybeans. The process comprises obtaining soybean milk and adding a coagulant to the soybean milk, preferably while the soybean milk is at a temperature in the range of about 70°-90° C. (158°-194° F.) to form a mixture of soybean curds and whey. The mixture of curds and whey is broken to obtain curd differentiation. The curds are then cooked, at a temperature and for a time effective to form small pieces of curd. The supernatant liquid is separated from the curds, and the curds are rapidly cooled. The present invention provides a process for obtaining food analogs having a wide range of organoleptic properties, from a scrambled egg analog, wherein the curds are soft and relatively large, to a cooked meat analog, wherein the curds are harder and relatively small.

Method for production of protein-vitamin-mineral functional product

FIELD: food industry. SUBSTANCE: invention relates to food industry and can be used during preparation of functional purpose protein-vitamin or protein and mineral products using soya. Method envisages combined disintegration of soya seeds with Laminaria and water in ratio of soya seeds:Laminaria:water of 1:1:7. Then performing separation of liquid soya-Laminaria fraction from mixture and protein coagulation at temperature of 70–75 °C by adding of ascorbic acid 5 % aqueous solution at ratio of soya-Laminaria fraction:ascorbic acid of 1:0.15. Then obtained coagulate and remaining insoluble soya-and-Laminaria residue is molded and conditioned till moisture content of 9–50 %. EFFECT: invention allows to produce functional food products with high organoleptic indices, as well as nutritional and biological value. 1 cl, 1 dwg, 1 tbl, 1 ex РОССИЙСКАЯ ФЕДЕРАЦИЯ (19) RU (11) (13) 2 607 602 C1 (51) МПК A23J 1/14 (2006.01) A23L 11/00 (2016.01) A23L 17/60 (2016.01) A23J 3/16 (2006.01) ФЕДЕРАЛЬНАЯ СЛУЖБА ПО ИНТЕЛЛЕКТУАЛЬНОЙ СОБСТВЕННОСТИ (12) ФОРМУЛА (21)(22) Заявка: ИЗОБРЕТЕНИЯ К ПАТЕНТУ РОССИЙСКОЙ ФЕДЕРАЦИИ 2015133881, 12.08.2015 (24) Дата начала отсчета срока действия патента: 12.08.2015 (72) Автор(ы): Скрипко Ольга Валерьевна (RU) Дата регистрации: 29.12.2016 Приоритет(ы): (22) Дата подачи заявки: 12.08.2015 (56) Список документов, цитированных в отчете о поиске: RU 2482696 C2, 27.05.2013. RU (45) Опубликовано: 10.01.2017 Бюл. № 1 R U (57) Формула изобретения Способ получения белково-витаминно-минерального функционального продукта, включающий приготовление белково-минеральной смеси из соевого и ламинариевого компонентов, ее разделение на жидкую и нерастворимую фракции, коагуляцию белка в жидкой фракции раствором органической кислоты, отделение полученного коагулята, формование коагулята и нерастворимой соево-ламинариевой фракции, отличающийся тем, что белково-минеральную смесь готовят путем совместной дезинтеграции белкового и ламинариевого компонентов в водной среде при ...

Processing method of squid legs

PURPOSE: A processing method of squid legs is provided to offer the squid legs which are white, soft, and chewy, and have excellent taste. CONSTITUTION: Squid legs are selected from the squid body, and are assorted by a predetermined standard. The assorted squid legs are soaked in a proteinase solution at 45-70°C for 5-20 minutes. Primary tastes are applied to the soaked squid legs, and the water content of the squid legs is controlled. The squid legs are cut into a proper size for people to eat. The cut squid legs are processed with secondary seasoning liquid or seasoning powder, and aged. The aged squid legs are dried and packaged. The proteinase solution contains proteinase and salt. [Reference numerals] (AA) Washing and assorting squid legs (first process); (BB) Bleaching the surface of the squid legs and pre-processing (second process); (CC) Firstly processing squid legs (third process); (DD) Cutting squid legs (fourth process); (EE) Secondly processing squid legs (fifth process); (FF) Post-processing (sixth process)

METHOD TO TREAT A COMPOSITION CONTAINING PYROPHIOPHYTIN

Métodos y usos para tratar composiciones que contienen pirofeofitina, particularmente con el fin de eliminar la pirofeofitina de ellas. Las composiciones típicamente son productos derivados de plantas, de algas o de bacterias, tales como aceites vegetales. El método comprende el paso de poner en contacto las composiciones con una enzima que tiene actividad de pirofeofitinasa. Aparato y productos relacionados para poner en práctica dichos métodos y usos. Methods and uses for treating compositions containing pyropheophytin, particularly for the purpose of eliminating pyropheophytin from them. The compositions are typically products derived from plants, algae or bacteria, such as vegetable oils. The method comprises the step of contacting the compositions with an enzyme having pyrophytokinase activity. Apparatus and related products to implement these methods and uses.

Soy protein isolation process using swellable poly(N-isopropylacrylamide) gels

A method is provided for the purification and concentration of soy protein comprising mixing an aqueous solution including soy protein along with other water soluble moieties including sugars, salts, and phytins with a solid crosslinked polymer gel selected from the group consisting of N-substituted polyacrylamides and copolymers of N-substituted polyacrylamides; swelling the gel to absorb a portion of the water and other water soluble moieties including sugars, salts, and phytins from the aqueous solution by substantially maintaining the temperature of the gel at a preselected temperature below the lower critical solution temperature of the gel, to yield a concentrated soy protein solution; and separating the concentrated soy protein solution from the swollen gel. The concentrated soy protein solution may be repeatedly subjected to the gel treatment depending on the desired purity of the protein and the desired solids concentration.

Integrated method for protein concentrate and isoflavones production

Изобретение относится к пищевой, микробиологической, кормовой промышленности. Обрабатывают соевую муку баротермическим способом, включающим измельчение указанной муки до размера частиц хотя бы в одном измерении менее 50 микрон, при условии что не менее 50% этих частиц имеет размер менее 25 микрон. Экстрагируют 60-80%-ным этанолом или водой при нейтральном рН с получением экстракта растворимых веществ. Концентрируют экстракт растворимых веществ с получением мелассы. Обрабатывают мелассу органическим растворителем, не смешивающимся или ограниченно смешивающимся с водой при соотношении 1:1-1:5, подкисленным пищевыми кислотами до кислой области рН с получением раствора олигосахаров и концентрата изофлавоноидов с их содержанием 15-30%. Получают концентрат изофлавоноидов с их содержанием 40-60% путем очистки с помощью ионообменной хроматографии. Изобретение обеспечивает улучшенный способ получения фракций изофлавоноидов и олигосахаридов из соевой муки, проведение экстракции не только водно-спиртовыми растворами, но и обычной водой при нейтральных значениях pH с получением водной мелассы, упрощение режима проведения процесса. 1 табл., 16 пр. РОССИЙСКАЯ ФЕДЕРАЦИЯ (19) RU (11) (13) 2 636 047 C1 (51) МПК A23J 3/16 (2006.01) A23J 1/14 (2006.01) ФЕДЕРАЛЬНАЯ СЛУЖБА ПО ИНТЕЛЛЕКТУАЛЬНОЙ СОБСТВЕННОСТИ (12) ОПИСАНИЕ ИЗОБРЕТЕНИЯ К ПАТЕНТУ (21)(22) Заявка: 2015150717, 08.08.2016 (24) Дата начала отсчета срока действия патента: 08.08.2016 Дата регистрации: Приоритет(ы): (22) Дата подачи заявки: 08.08.2016 (56) Список документов, цитированных в отчете о поиске: ХАБИБУЛИНА Н.В. и др. (45) Опубликовано: 17.11.2017 Бюл. № 32 (56) (продолжение): US 6228993 B1, 08.05.2001. Стр.: 1 C 1 2 6 3 6 0 4 7 C 1 (54) Комплексный способ получения белкового концентрата и изофлавоноидов (57) Реферат: Изобретение относится к пищевой, соотношении 1:1-1:5, подкисленным пищевыми микробиологической, кормовой кислотами до кислой области рН с получением промышленности. Обрабатывают соевую муку раствора ...

Method of producing soya isolated protein

Изобретение относится к пищевой промышленности. Способ осуществляют в несколько стадий. На первой стадии замачивают обезжиренный белый лепесток и добавляют антипенный препарат. На второй стадии выполняют первую экстракцию при температуре 50–55°С в водно-щелочном растворе, где щелочь разводят в воде. Добавляют каустическую соду, увеличивая pH до 7,3–7,8. Время нахождения суспензии в первой экстракционной емкости составляет 40 мин при постоянном помешивании. Разделяют жидкую фазу, содержащую водорастворимые белки и сахара, от твердой фазы, содержащей нерастворимые углеводы – клетчатку и неэкстрагированные белки. Затем осуществляют вторую экстракцию, разделение жидкой фазы, содержащей водорастворимые белки и сахара, от твердой фазы, содержащей нерастворимые углеводы – клетчатку и остатки водо-нерастворимых низкомолекулярных белков. Жидкую фазу подают в емкость осаждения белков, где в потоковую линию подают раствор соляной кислоты. На четвертой стадии – кислотное осаждение белков, где жидкую фазу с растворенными белками и сахарами с первой и второй экстракции подают в емкость для осаждения белков. Осажденную суспензию выдерживают в течение 30 мин. На пятой стадии – декантируют белковый осадок. На шестой стадии полученный концентрированный высокомолекулярный белок доводят до влажности 90–93% при том же уровне pH 4,5–4,7. На седьмой стадии приводят pH очищенного изолированного белка к щелочному балансу путем введения каустической соды до повышения pH 6-6,5. На восьмой стадии осуществляют процесс ферментации белка определенным препаратом в определенном количестве. Смесь гомогенизируют и подают в зону термического шока на девятую стадию, которую осуществляют при температуре t = 135°–140°С в течение 0,2 с с помощью парового теплогенератора. Далее ферментативный изолированный белок проходит десятую стадию, на которой изолированный белок попадают в вакуумную емкость с системой быстрого охлаждения паров, где осуществляют резкое снижение температуры белка со 140°С до температуры ...

Apparatus and process for making soybean albumen

The manufacturing device includes an existing first extruding die (10) and also an auxiliary extruding die (20), which has extruding holes (2) larger than that of the first extruding die and a central circular hole. The device extrudes a mixture of fat-removed bean powder and 5-40 % of separated bean protein with water addition 20-50 % at supply temperature 20-30 deg.C, screw speed 850-1000 rpm and barrel temperature 130-190 deg.C. The extruded bean protein is finally cut by a length.

METHOD AND DEVICE FOR TREATING ANIMAL FLESH, IN PARTICULAR FOR ITS DECOLORATION AND ITS DEODORIZATION

L'INVENTION CONCERNE UN PROCEDE ET UN DISPOSITIF DE TRAITEMENT DE CHAIR ANIMALE EN VUE, NOTAMMENT, DE SA DECOLORATION ET DE SA DESODORISATION. LE PROCEDE CONSISTE A METTRE LA CHAIR EN CONTACT AVEC DE L'OZONE. LA CHAIR EST INTRODUITE DANS UNE ENVELOPPE 2 ET ENTRAINEE PAR UNE VIS DE TRANSFERT 5, 6 DEPUIS UNE TREMIE D'ALIMENTATION 3 JUSQU'A UNE GOULOTTE D'EVACUATION 4. SUR SON PARCOURS, ELLE EST SOUMISE A L'ACTION D'OZONE DIFFUSE A TRAVERS UNE PLURALITE DE DIFFUSEURS 30. L'INVENTION S'APPLIQUE NOTAMMENT AU TRAITEMENT EN CONTINU DE DECOLORATION DE POISSON ET DE VIANDE. The invention relates to a method and a device for treating animal flesh with a view, in particular, to its discoloration and deodorization. THE PROCESS CONSISTS OF PUTTING THE FLESH IN CONTACT WITH OZONE. THE FLESH IS INTRODUCED IN AN ENVELOPE 2 AND DRAWN BY A TRANSFER SCREW 5, 6 FROM A FEED HOPPER 3 UNTIL AN EXHAUST CHUTE 4. ON ITS COURSE, IT IS SUBJECT TO THE ACTION OF DIFFUSED OZONE THROUGH A PLURALITY OF DIFFUSERS 30. THE INVENTION APPLIES IN PARTICULAR TO THE CONTINUOUS PROCESSING OF FISH AND MEAT DISCOLORATION.

An improved process for the preparation of soy protein concentrate with improved functional properties

The present invention relates to soy protein concentrate and a process for the preparation of soy protein concentrate having protein content of 67-72%, from defatted soy flakes by employing steps of leaching, drying, pulverizing and sieving with a reduced beany flavour up to 50%, raffinose and stachyose content up to 90-96%, devoid of lipoxygenase activity, associated with negligible urease and trypsin inhibitor activities, coupled with improved functional properties of the product and useful as human food in variety of food products.

PROCESS FOR THE MANUFACTURE OF BLEACHED VEGETABLE PULPES

METHOD FOR TWO STEP BLEACHING OF VEGETABLE MATERIALS FOR FOOD.

L'invention concerne un procédé de blanchiment de matières végétales blanchies. Le procédé consiste à blanchir les matières végétales en deux étapes, séparées par une filtration et un lavage à l'eau, en utilisant des solutions aqueuses alcalines contenant du peroxyde d'hydrogène, les quantités d'agent alcalin dans les solutions étant telles que, dans la première étape de blanchiment, le pH à la fin de cette étape est au plus égal à 9 et, dans la deuxième étape de blanchiment, le pH à la fin de cette étape, est au plus égal à 8,5. Application à la fabrication de fibres végétales à basse teneur en calories, utiles commes farines diététiques.

A kind of preparation method of the small-peptide chelated copper of feed addictive nanometer

一种饲料添加剂纳米小肽螯合铜的制备方法，包括缓冲液的配制、干肽粉制备、小肽溶液的配制、铜溶液的配制、纳米小肽螯合铜溶液的制备、并经分离、干燥即得纳米小肽螯合铜。本发明与现有技术相比，具有以下优点和效果：（1）生产成本低；（2）产品纯度高，晶型结构好；（3）生物学效价高，提高机体免疫力。

Production of mineral enriched protein composition

(57)【要約】本公報は電子出願前の出願データであるた め要約のデータは記録されません。

Isolation of proteins by ultrafiltration

A high quality soy protein isolate with a significant reduction in phytate and aluminum is prepared via ultrafiltration. Defatted soy flour slurry is prepared and adjusted to a pH such that the protein becomes solubilized. The solubilized protein can pass through the ultrafiltration membrane. The ultrafiltration system rejects phytate and aluminum. Once the soluble protein passes through the ultrafiltration system the soy protein isolate is then precipitated from the clear permeate stream by adjusting the pH within the isoelectric range of soy proteins.

Protein isolate having an increased level of isoflavone compounds and process for producing the same

The present invention relates to the production of an isoflavone enriched vegetable protein isolate in which the weight ratio of material to extractant is controlled and washing of the acid precipitated protein curd is avoided or minimized to provide an increased level of isoflavones in the protein isolate.

Acid-stable soy protein and fortified food or beverage

A water-soluble acid stable soy protein, methods for making same and acidic food or acidic beverage fortified therewith. Particularly, this invention is useful in the pH range of 3.5 to 4.1 where other soy protein fortification methods do not work. The invention is comprised of a soy protein, a thermal treatment method to solubilize at least 90% of the protein, an acidification of the protein to a point preferably significantly below the iso-electric value, and a partial neutralization to bring the product proximal to the intended pH of the application it will be used in.

Method of preparing isoflavone-enriched vegetable protein isolate

FIELD: protein products. SUBSTANCE: objective of invention is to develop method for preparing edible soya-been protein isolate containing isoflavones which can inhibit growth of human cancer cells. For that, protein material is extracted at pH above isoelectric point of soya-been material and pH value of aqueous extract is adjusted to the level of isoelectric point to precipitate protein material. The later is separated and optionally washed with water in amount not exceeding weight of protein material by a factor of four. EFFECT: enabled enrichment of isolate with isoflavones. 2 cl, 6 tbl, 6 ex Э6бзЗ7С с ПЧ Го РОССИЙСКОЕ АГЕНТСТВО ПО ПАТЕНТАМ И ТОВАРНЫМ ЗНАКАМ (19) ВИ” 2124 896 ' 13) СЛ ОМ А бл К 35/78, А 231 1/20 12) ОПИСАНИЕ ИЗОБРЕТЕНИЯ К ПАТЕНТУ РОССИЙСКОЙ ФЕДЕРАЦИИ (21), (22) Заявка: 94036756/14, 10.10.1994 (30) Приоритет: 12.10.1993 Ш$ 08/135.207 (46) Дата публикации: 20.01.1999 (56) Ссылки: Зоу Ргоет Ргодис$ Мапиа!|, Зоу Ргоает Ргодис $ ЗРС, 1987, рр.3-Г. $Ц 1694143 АЛ, 1991. 4$ 4091120 А, 1918. 1$ 41710880 А, 1988. 4$ 4892746 А, 1990. (98) Адрес для переписки: 103735 Москва, ул.Ильинка 5/2, Союзпатент патентному поверенному начальнику отдела механики Томской ЕВ. (71) Заявитель: Протеин Текнолоджиз Интернэшнл, Инк. (Ц$) (72) Изобретатель: Джером Л.Шен (13), Балаггас Ф.Гевара (1$), Френк Е.Спадафора (9$) (73) Патентообладатель: Протеин Текнолоджиз Интернэшнл, Инк. (Ц$) (54) СПОСОБ ПОЛУЧЕНИЯ ОБОГАЩЕННОГО ИЗОФЛАВОНАМИ РАСТИТЕЛЬНОГО БЕЛКОВОГО ИЗОЛЯТА (57) Реферат: Изобретение относится к медицине и касается способа получения обогащенного изофлавонами — растительного — белкового изолята, пригодного для приема в пищу. Задача изобретения состоит в разработке способа получения растительного белкового соевого изолята, содержащего изофлавоны, которые могут ингибировать рост раковых клеток человека. Сущность изобретения заключается в экстракции соевого белкового материала при рН выше изоэлектрической точки соевого материала установлением рН ВОДНОГО экстракта на уровне ...

Acid-stable soy protein and fortified food or beverage

A water-soluble acid stable soy protein, methods for making same and acidic food or acidic beverage fortified therewith. Particularly, this invention is useful in the pH range of 3.5 to 4.1 where other soy protein fortification methods do not work. The invention is comprised of a soy protein, a thermal treatment method to solubilize at least 90 % of the protein, an acidification of the protein to a point preferably significantly below the iso-electric value, and a partial neutralization to bring the product proximal to the intended pH of the application it will be used in.

Method for preparing functional concentrated protein from flaky soybean high-temperature meal

本发明涉及大豆蛋白产品技术领域，具体涉及一种片状大豆高温粕制备功能性浓缩蛋白的方法，包括如下步骤：S1、将片状大豆高温粕超微粉碎，获得高温大豆粕粉；S2、高温大豆粕粉加水溶解后进行超声波扫频萃取蔗糖、低聚糖，获得萃取液；S3、萃取液离心分离获得固相蛋白，固相蛋白加水调质浓度，获得蛋白液；S4、蛋白液进行高压射流空化均质改性，获得改性后蛋白液；S5、改性后蛋白液杀菌、喷雾干燥得功能性浓缩蛋白。本发明制备的功能性浓缩蛋白不含腥味、抗营养因子、蔗糖、低聚糖，也不含钠盐、乙醇等化学添加剂，同时具有一定乳化性，符合绿色、有机的健康加工理念。

Method for reducing contents of lead and cadmium in soybean protein

本发明涉及一种降低大豆蛋白中铅、镉含量的方法，本发明包括以下步骤：取大豆蛋白粉、吸附反应、固液分离、取代螯合、调pH、灭菌、脱水和干燥等步骤，该工艺能有效地同步降低大豆蛋白中铅、镉，且不会影响大豆蛋白的感官及营养价值。

Protein isolate having an increased level of isoflavone compounds and process for producing the same

The present invention relates to the production of an isoflavone enriched vegetable protein isolate in which the weight ratio of material to extractant is controlled and washing of the acid precipitated protein curd is avoided or minimized to provide an increased level of isoflavones in the protein isolate.

An improved process for the preparation of soy protein concentrate with improved functional properties

PROCESS FOR IMPROVING THE COLORING OF BEET COSSETTES

Compositions and methods for enzymatic decolorization of chlorophyll

Method for producing tissue-like plant protein material

本发明的目的在于提供一种较以往更高效地获得降低了特有异味的组织状植物蛋白素材的方法。一种组织状植物蛋白素材的制造方法，其特征在于，将水分为10重量％以下的干燥状态的组织状植物蛋白素材导入气流式粉体加热装置，在加压下使其与超过100℃的过热水蒸气接触30秒以下的时间。

TWO-STEP BLEACHING PROCESS OF PLANT MATERIAL FOR FOOD USE.

Protein isolate having an increased level of isoflavone compounds and process for producing the same

The present invention relates to the production of an isoflavone enriched vegetable protein isolate in which the weight ratio of material to extractant is controlled and washing of the acid precipitated protein curd is avoided or minimized to provide an increased level of isoflavones in the protein isolate.

A kind of instant soluble soybean albumen powder and preparation method thereof

本发明提供了一种速溶大豆蛋白粉及其制备方法，其通过如下方法制备：萃取、分离、酸沉、水洗、中和、杀菌、干燥、微粉化等步骤，采用该方法得到的大豆蛋白粉质量稳定、溶解迅速，适合各类人群食用，是一种保健佳品。

Washing

Protein leisure gluten and preparation method thereof

本发明提供一种蛋白休闲面筋及其制备方法，涉及大豆蛋白食品加工技术领域。所述蛋白休闲面筋由以下重量份的原料制成：纯净水50‑60份，谷朊粉15‑25份，大豆蛋白8‑15份，植物油5‑10份，淀粉3‑8份，盐0.6‑1.2份，糖1.0‑2.2份，味精0.1‑0.3份，辣椒0.1‑0.5份，香辛料0.1‑0.3份，TG酶0.1‑0.2份，食用香精0.2‑0.5份，其之别工艺主要包括：称料、干混、湿混、成型、切花、干燥、拌料、包装、灭菌等步骤。本发明克服了现有技术的不足，改善水分添加的比例，利用大豆分离蛋白的胶性改善产品组织质构，得到具有层次感，口感松软稍具韧性的休闲面筋制品。

PROCESS AND DEVICE FOR TREATING ANIMAL MEAT WITH A VIEW IN PARTICULAR OF ITS DISCOLORATION AND DEODORIZATION

Colour reduction in canola protein isolate

In the recovery of canola protein isolates from canola oil seeds steps are taken to inhibit the formation of colouring components and to reduce the presence of materials tending to form colouring components, to obtain a lighter and less yellow canola protein isolate.

Process for producing soy protein

本发明提供节省大豆蛋白制造厂的用水量、减少排水量、抑制对环境的污染、同时进一步高效率地制得热凝胶化特性好、没有大豆蛋白特有的苦味及收敛味的分离大豆蛋白的方法。是分离大豆蛋白的制造方法，具有使用pH3.0～5.0范围的水性介质对脱脂大豆进行洗涤处理、提取除去乳清成分的酸洗工序和，使用中性～碱性范围的水性介质对酸洗工序得到的酸洗大豆浆进行蛋白质的提取处理，除去提取残渣的提取工序和，把提取工序得到的提取液保持在中性～碱性的范围分离成水与蛋白的分离工序。

A kind of peanut production technology

本发明涉及到一种花生果生产工艺，包括以下步骤：步骤1，选料、步骤2，筛选去杂、步骤3，浸泡清洗、步骤4，煮制、步骤5，浸泡入味、步骤6，烘干、步骤7，多头秤、步骤8，金探、步骤9，包装入库。焖制过程中花生种皮浸泡在焖汁中充分保持其中的水分，因此不会轻易出现种皮脱落等现象；之后花生放置在调味料中，种皮表面的水分有助于调味料粘附在花生表面，之后在烘烤过程中，包裹在花生外部的调味料预先受热失去水分形成一个包裹在花生外侧的壳体，待壳体将热量向花生内部传导时，在壳体的阻挡下，花生种皮中的水分难以向外散去，仍在一定程度上保有柔性，因而不会轻易的发生脱落等现象。

A kind of dietary composition that can improve metabolic syndrome symptom

本发明提供了一种低钠大豆分离蛋白，本发明提供了包含该低钠大豆分离蛋白的饮食组合物以及其用途，本发明所述饮食组合物中各种原料都具有改善代谢综合征症状的功能，综合在一起使用，能同时改善肥胖、血脂紊乱、血糖升高和血压升高等症状，而且各原料间还具有协同作用，使各原料的改善功能更加明显。

Process for the production of a mineral fortified protein composition

A method of producing a mineral-enriched protein composition for use in the production of liquid foodstuffs comprising forming a hydrated gel of an alkaline earth salt, such as a calcium salt, and adding the hydrated gel to a slurry of a soy protein isolate to form a mineral-enriched soy protein composition. The composition can then be dried and, upon resuspension in a liquid foodstuff, results in improved suspension of the mineral in the foodstuff.

Fractionated soybean protein and process for producing the same

A process for efficiently and industrially fractionating soybean into highly pure 7S globulin and 11S globulin which comprises heating a solution containing soybean protein undes a slightly acidic condition and ther fractionating it into a soluble fraction and an insoluble fraction at pH 5.6 to 6.6. If necessary, a treatment with phytase is further carried out fot the fractionation into 7S globulin and 11S globulin.

Color reduction of canola protein isolate

カノーラ油糧種子粗粉からのカノーラタンパク質単離物の回収に際し、着色成分の形成を抑制するステップ、および着色成分を形成する傾向のある物質の存在を減少させるステップを取り入れ、より淡色で黄色味の少ないカノーラタンパク質単離物を得る。

Method for preperation of water-soluble vegetabel protein aggregates

Ag. vegetable protein disperslons are subjected to successive pressure and cavitation cycling at temps. below the denaturation point and at pH 7-8 to give products with high N soly. index. Thus, 1000 parts soybean protein conc., 7000 parts H2O, and 6 parts NaOH were slurried and pumped at 18.9L/min to a centrifugal homogenizer operating at 6150 rpm, 0.9 mm clearance, discharge pipe back pressure -2.1 kg/cm2, steam injection at 1.4-2.8 kg/cm2, and 104≰ temp. The discharged product was neutralized to pH 6.4 at 71≰C with 10N HCl, and pumped to a concurrent-flow spray drier operating with air inlet and outlet temps. of 210-25 and 92-8≰.

Water soluble vegetable protein aggregates, a process for the production thereof and food recipes containing them.

Aqueous protein dispersions obtained from vegetable sources are subjected to successive pressure and cavitation cycling (e.g., centrifugal homogenization) at temperatures below the protein heat denaturization and under slightly alkaline pH's (e.g., pH 7.0-8.0) to provide a high NSI product. These high NSI products may be dried to provide a vegetable seed product having functional properties and utility similar to milk proteins. Buffered salt extracts from such spray-dried products reveal a predominant restructuring of the protein constituents into high molecular weight protein aggregates. Low NSI soy concentrates obtained by aqueous alcohol extraction processes are converted into a high NSI product possessing many of the desirable functional attributes of soy isolates plus those of milk proteins.

Patent IN151908B

Soybean protein isolate enriched with aglyconisoflavons (variants)

FIELD: medicine. SUBSTANCE: the suggested protein material containing gluconisoflavons is extracted with watery extragent at pH corresponding to isoelectric point of protein material. Watery extract is formed. Gluconisoflavons are subjected to reaction with either beta-glucosidase or esterase enzyme. To obtain isolates enriched with aglyconisoflavons, pH value must reach isoelectric point of plant protein material as a result of which deposition of protein material occurs. Then the latter is separated by obtaining protein isolate enriched with aglyconisoflavons. Soybean protein isolate contains (against a dry matter), at least, 1.5 mg/g genistein or, at least, 1.0 mg/g daidzein. The present innovation enables to obtain soybean protein isolate enriched with substances capable to deteriorate the growth of cancer cells. EFFECT: higher efficiency. 4 cl, 2 ex, 2 tbl

Processed daikon and method for processing the same

본 명세서에는 무 뿌리의 가공방법이 개시된다. 상기 방법은 무 섬유질 조직의 흰색과 초록색의 색소편차가 현저하게 해소된 탈색무로 가공이 가능하며, 가공된 탈색무의 수분을 감소시켜 착색이 용이한 투명한 탈수무로 가공하고 착색제를 부가하여 착색, 숙성시키면 무 본연의 색상과 충돌하지 않아 부가되는 착색제 색상으로 선명하게 착색된 착색무의 제조가 가능한 효과가 있다. In this specification, a method of processing roots is disclosed. The above method is capable of processing with a decolorization-free process in which the deviation of white and green coloring matter of the fibrous tissue is remarkably solved, and the moisture of the processed decolorization is reduced, so that it is processed into a transparent dehydrated color which is easy to color, It is possible to manufacture a coloring paste which does not collide with an intrinsic color and which is clearly colored by the added coloring agent color.

Process for producing soybean protein powder using a fluidized bed

A process for producing a soybean protein powder having improved reduced dustability and excellent water dispersibility which comprises spraying an aqueous liquid preferably containing a surfactant on to a starting soybean protein powder material to moisten and agglomerate particles of the powder material in a fluidized bed and drying the powder material simultaneously or subsequently.

Two-step bleaching method for plant materials

Ozonolysis of whole cardamon seeds

Whole cardamon seeds, either green or sun-dried, are subjected to ozonolysis to bleach the seed pods to an off-white color.

Process for making sour pudding

process to produce soy protein

Food compound.

FRACTIONIZED SOYBEAN PROTEIN AND METHOD FOR THE PRODUCTION THEREOF

Two-stage process for bleaching plant matter

Colour reduction in canola protein isolate

Water soluble vegetable protein aggregates, a process for the production thereof and food recipes containing them

Dry foods containing soybean protein

To provide soybean protein having excellent nutritional properties in the form of dry foods which are favorable in taste and can be easily taken without causing any change in the protein composition, a dough containing soybean protein, fat and moisture is heated and dried in such a manner that globulin can be confirmed by SDS-polyacrylamide gel electrophoresis containing mercaptoethanol. Thus, dry foods containing soybean protein, which have a crispy texture and shortness properties and are favorable in taste, can be obtained without causing any change in the protein.

A process for the production of a mineral-fortified protein composition

A method of producing a mineral-enriched protein composition for use in the production of liquid foodstuffs comprising forming a hydrated gel of an alkaline earth salt, such as a calcium salt, and adding the hydrated gel to a slurry of a soy protein isolate to form a mineral-enriched soy protein composition. The composition can then be dried and, upon resuspension in a liquid foodstuff, results in improved suspension of the mineral in the foodstuff.

Monosodium glutamate mother liquor decoloring and purifying process based on membrane technology

本发明提供了一种基于膜技术的味精母液脱色提纯工艺，包括以下步骤：母液处理‑色素氧化‑沉淀处理‑絮凝处理‑树脂吸附柱过滤‑纳滤。本发明操作简单，不需要酸碱水解的专门设备，同时不需要消耗大量的活性炭，味精中有效成分谷氨酸钠的损失少，能够去除味精母液中的大量杂质，提高结晶的收率和产品的质量。

Water-soluble vegetable protein aggregates

ABSTRACT OF THE DISCLOSURE Aqueous protein dispersions obtained from vegetable sources are subjected to successive pressure and cavitation cycling (e.g., centrifugal homogenization) at temperatures below the protein heat denaturization and under slightly alkaline pH's (e.g., pH 7.0-?.0) to provide a high NSI product. These high NSI products may be dried to provide a vegetable seed product having functional properties and utility similar to milk proteins. Buffered salt extracts from such spray-dried products reveal a predominant restructuring of the protein constituents into high molecular weight protein aggregates. Low NSI soy concentrates obtained by aqueous alcohol extraction processes are converted into a high NSI product possessing many of the desirable functional attributes of soy isolates plus those of milk proteins.

Colored plant slice and method for processing the same

본 명세서에는 식물편의 가공방법이 개시된다. 상기 방법은 식물에 포함된 색소 일부 내지 전부를 제거하여 색소편차를 해소시키고, 식물 섬유질을 식감과 착색이 용이한 성상으로 조밀하게 파괴함으로써 식감이 우수하고 착색제를 용이하게 부가, 숙성시켜 1가지 색상으로 비교적 균일하게 착색된 착색식물편의 제조가 가능한 효과가 있다.