Abstract: A method of reducing the amount propylene chlorohydrin produced in a reaction to make a hydroxypropylated/crosslinked starch comprising removing residual propylene oxide from alkaline slurry. The residual propylene oxide is removed by the dewatering the alkaline slurry or by washing the starch in slurry at a pH of around 10. The starch is then neutralized in an acid solution and recovered from the second slurry and may or may not be washed, depending on whether the slurry while at pH around 10 to make a hydroxypropylated/crosslinked starch having less than 1 ppm propylene chlorohydrin.
Type:
Grant
Filed:
May 2, 2017
Date of Patent:
April 21, 2020
Assignee:
CORN PRODUCTS DEVELOPMENT, INC.
Inventors:
John Adeosun, Abhay Borkar, Qian Wei, John Pantina, Judith M. Vaz
Abstract: A coated foodstuff is made using two starch components. One is a spray cooked agglomerated waxy corn starch as having a peak time to hydration viscosity of between about 5.5 and about 7.5 minutes. The snack has unique expansion and hardness properties compared to coatings made from other corn starches, in embodiments the snack has a coating that expands to between about 1.7 and about 2.6 mm, a hardness of between about 3000 and about 3750 grams, or a hardness-to-expansion ratio of about 1200:1 to about 2200:1 g/mm.
Abstract: The present invention provides a food product comprising at least 1.5%, 5%, 10%, 20%, 30%, or more, by weight total ingredients of a low bitter chicory plant material or flour. The present invention also provides a method for obtaining a chicory product with reduced bitterness, comprising blanching chicory roots or root chips, drying the blanched chicory root chips, and optionally grinding the dried chicory root chips and incorporating it into flour, dough, or other food products. Also provided is a method for obtaining a chicory taproot with reduced bitterness, comprising cultivating a chicory plant at a soil nitrogen level of 150 lbs per acre or less in the upper 3 feet of the soil.
Abstract: The present invention relates to the use of pea proteins to substitute at least partially the milk proteins in confectionery traditionally made with milk. It also relates to the confectionery product obtained after this substitution.
Type:
Grant
Filed:
February 3, 2011
Date of Patent:
February 11, 2020
Assignee:
Roquette Freres
Inventors:
Pierre Choromanski, Elsa Muller, Thomas Parady
Abstract: A method for the manufacture an infant formula or an infant nutritional product comprising mixture of human milk oligosaccharides is disclosed. The method involves the catalytic hydrogenolysis of compounds of the general formula 1 and 2 with particular oligosaccharide profiles.
Type:
Grant
Filed:
May 10, 2012
Date of Patent:
December 10, 2019
Assignee:
Societe des Produits Nestle S.A.
Inventors:
Dominique Brassart, Gyula Dekany, Peter Erdmann, Andrea Schwarz, Norbert Sprenger
Abstract: A method for producing frozen confectionery products comprising a coagulated protein system contributes to the improvement of textural and sensorial attributes of the confections, in particular of products based on lower fat formulations. Such a protein system is used in frozen confection prepared by conventional freezing alone or combined with low temperature freezing wherein it improves the microstructure and stability on frozen products.
Abstract: An protein-polysaccharide macromolecular complex article of manufacture containing encapsulated ethyl alcohol and/or other spirits serving as an entertaining and novel non-beverage method of consuming alcohol. The article of manufacture encapsulates ethyl alcohol and/or other spirits in the amorphous regions of the complex macromolecular structure releasing it only upon chewing and exposure to the environment of the oral cavity. The article of manufacture is stable and capable of retaining shape and form for extended periods of time at ambient temperature allowing for relatively low-cost commercial manufacture and distribution.
Type:
Grant
Filed:
April 12, 2012
Date of Patent:
November 12, 2019
Assignee:
CURE PHARMACEUTICAL CORPORATION
Inventors:
Margaret Teresa Thomas Virgallito, Joshua Alan Held
Abstract: An inhibited non-pregelatinized granular starch suitable for use as a food ingredient in substitution for a chemically modified starch may be prepared by heating a non-pregelatinized granular starch in an alcoholic medium in the presence of a base and/or a salt. Steam treatment may be used to enhance the extent of inhibition.
Abstract: Provided is a non-lauric non-trans fat composition for chocolate coating that has the drying time, gloss, difficulty in peeling from a coated item, and sweating resistance required for chocolate coating use. Moreover, the non-lauric non-trans fat composition for chocolate coating enables a novel composite food having a soft texture that has not been obtainable by a conventional fat composition for chocolate coating to be obtained. The non-lauric non-trans fat composition for chocolate coating contains a fat having a specific fatty acid composition and having a rising melting point of 35° C. or higher, and has a specific triglyceride composition.
Abstract: Packaging of respiring biological materials, particularly bananas and other fruits, in sealed containers. The containers preferably include a gas-permeable membrane comprising (1) a microporous film, and (2) a polymeric coating on the microporous film. Using appropriate containers and appropriate controlled atmospheres around the container, the respiring materials can be stored and/or ripened under controlled conditions. Bananas can be ripened while they are being transported, or in conventional ripening rooms without opening the containers in which they have been transported. The ripe bananas are less dehydrated and remain in a satisfactory ripened state for longer periods of time. The gas-permeable membrane can preferably take the form of either a “curtain” or “cartridge” and the R ratio of the membrane may be optimized by adjusting the differential pressure across the membrane.
Abstract: A flowable food composition product utilizing a novel blend of ingredients and a method for creating the same is provided. The flowable food composition includes a food product having a liquid component, such as a condiment like sauerkraut, that is combined with a water-holding agent and a lubricating agent to allow the food composition to flow from a flexible squeeze-type bottle. The method for creating this food product comprises adding a water-holding agent and a lubricating agent to a raw food material which, in some cases, has been strained and chopped, enabling the mixture to become flowable from a flexible package, such as a plastic squeeze bottle.
Abstract: The invention provides a gelled composition of mung bean protein comprising a mung bean protein and an alkali metal ion, wherein the gelled composition of mung bean protein comprises the alkali metal ion at 50 mM or greater based on the total amount of the gelled composition of mung bean protein.
Abstract: A method forms a gel from a highly-refined cellulose by: providing a composition of highly refined cellulose fiber as at least about 0.5% weight/weight highly refined cellulose to water; adding at least one buffering agent to the composition to maintain the pH of the composition at a pH below 9.5; bringing the buffered composition to an elevated temperature such as a boil; stirring the buffered composition; and cooling the buffered composition to below 25° C. to form a gel, such as a stable gel.
Type:
Grant
Filed:
July 14, 2014
Date of Patent:
August 27, 2019
Inventors:
Brock M. Lundberg, Alexander Scott Jasper
Abstract: A low cariogenic, low-laxation hard candy product having acceptable clarity and cold flow stability, contains a bulking sweetener agent, comprising isomaltulose, trehalose, erythritol or combinations thereof and a doctoring agent, comprising inulin, indigestible dextrin, sucromalt, polydextrose, or combinations thereof; wherein the bulking sweetener agent to doctoring agent ratio is 70/30 to 40/60 dry solids wt. %.
Type:
Grant
Filed:
December 27, 2011
Date of Patent:
August 27, 2019
Assignee:
WM. WRIGLEY JR. COMPANY
Inventors:
Chia-Hua Hsu, David G. Barkalow, Barbara Stawski
Abstract: An installation and method for producing and/or processing confectionery masses which are made from at least one liquid raw material and granular and/or powdery raw materials. The installation includes at least a first mixing container and at least one further product-processing device. The first mixing container has at least one raw-material inlet and a product outlet and a mixing device for mixing the raw materials at least largely homogeneously. At least the mixing container includes at least one spraying device in an upper container region, which at least one spraying device serves to feed the at least one liquid raw material, wherein at least one outlet cone of the spraying device is directed, at least in some regions, toward an inner wall surface of the first mixing container.
Abstract: The present invention includes methods for producing an extruded food particle by extruding through an extruder having a screw within a barrel, a composition containing nutritional food components, and gelatin in an amount sufficient to act as a binder when the composition exits the extruder, where the binder has essentially no starch. The present invention also includes extruded food particles that do not use starch as a binder.
Abstract: The use of low energy spontaneous emulsification method to fabricate acidified antimicrobial nanoemulsions suitable for utilization as a food disinfectant/sanitizer is described. The method of these teachings includes pouring an organic phase (containing oil and surfactant and oil-soluble components) into an aqueous phase (containing water and water-soluble components), which leads to the spontaneous formation of fine droplets due to rapid diffusion of the surfactant from the oil phase into the aqueous phase.
Type:
Grant
Filed:
July 22, 2016
Date of Patent:
July 23, 2019
Assignee:
THE UNIVERSITY OF MASSACHUSETTS
Inventors:
David J. McClements, Lynne McLandsborough, Kyle Landry
Abstract: A disposable assembly contains a concentrated liquid food product and comprises an eductor and a microfiltration device. A water inlet of the eductor is configured for connection to an external source of water. A gas inlet of the microfiltration device is configured for connection to an external source of gas and an outlet of the microfiltration device is configured for discharging a foamed food product created by the microfiltration device from the disposable assembly. A system for preparing a foamed food product comprises a product preparation apparatus for preparing said foamed food product, and such a disposable assembly. The apparatus comprises a water source, a water heater and water pressurizing means configured for detachable connection to the eductor of the disposable assembly. The apparatus further comprises a pressurized gas source and gas pressurizing means configured for supplying pressurized gas to the microfiltration device.
Type:
Grant
Filed:
October 29, 2013
Date of Patent:
June 25, 2019
Assignee:
FRIESLAND BRANDS B.V.
Inventors:
Wiebe Nicolaas van Druten, Maarten Joannes Botman
Abstract: Described are coated food products having a sweet coating, such as a (e.g., sucrose, fructose, or the like) coating, the coating containing core-shell sweetener particles that include a sweetener layer at an exterior; also described are related methods of preparing the coated food product and the core-shell sweetener particles.
Type:
Grant
Filed:
July 17, 2013
Date of Patent:
June 25, 2019
Assignee:
General Mills, Inc.
Inventors:
Dena K. Strehlow, Patrick C. Dreese, Stefan Bucher, Fern A. Panda
Abstract: The problem of providing an oily food for inhibiting water migration in frozen confectionery, the oily food being highly versatile and more effective in inhibiting water migration and being capable of application by spraying is addressed. The problem can be solved by use of an oily food for inhibiting water migration in frozen confectionery, the oily food satisfying the following requirements: 1. having a yield value of 1.7 to 12 Pa at 40° C.; 2. having plastic viscosity of 70 to 260 mPa·s at 40° C.; 3. having a value of yield value/plastic viscosity of 10 or greater; and 4. having an oil content of 44 to 80 wt %.