A beverage nucleator system for a supercooled beverage container may include a frame for receiving a beverage container and an ultrasonic device positioned therein. The frame may include a beverage container aperture therein sized to allow direct contact between an ultrasonic transmitter coupled to the ultrasonic device and a closure on the container. The ultrasonic transmitter may operate at a 28 kHz frequency with a power of 5 W for 1-5 seconds. The beverage nucleator system can operate without requiring a fluid or gel transmission medium.

The present invention provides a process for producing instant noodles and an instant noodle product from dragon fruits using ultra-sonication technology, wherein the process comprises: a) Pre-processing dragon fruit ingredients; b) Heating the dragon fruit solution to room temperature; c) Activating the dragon fruit solution; d) Removing impurities of the powdery ingredients through a sieve; e) Performing a catalytic reaction between the activated dragon fruit solution and other ingredients of the instant noodles; f) Proofing; g) Pressing the dough; h) Shape cutting into noodles; i) Steaming instant noodles; j) Macerating with seasonings; k) Cooling and frying (instant noodle product from dragon fruits using ultra-sonication technology with frying); 1) Cooling and drying (instant noodle product from dragon fruits using ultra-sonication technology without frying); m) Cooling; n) Drying and cooling; o) Packaging.

A method for producing a clean-tasting, neutral-color, concentrated, liquid protein base including separating fibrous material from the protein base. The method further includes applying ultrasonication to the protein base at an ulirasonication unit according to ulirasonication settings. The ultrasonication settmgs are adapted to cause acoustic cavitation within the protein base. The method further includes filtering the protein base through one or more membrane filters after separating the fibrous material from the protein base. The method further includes processing the protein base to form a protein ingredient in certain cases, the method further includes processing the separated fibrous material to produce a dietary fiber. Processing the fibrous material includes converting gelatinized starch from the separated fibrous material into resistant starch.

Provided herein is a snack bar containing essentially identifiable uncooked and ready-to-eat foodstuff while being substantially devoid of an added binder, such as carbohydrate-based binder. Also provided is a process of preparing the binder-free snack bar, using compression and ultrasonic energy without cooking the foodstuff, while achieving a chemically and mechanically stable ready-to-eat product.

Provided herein are compositions with enhanced sweetness per weight when compared to the sweetener carbohydrate or sweetener polyol component thereof, and methods for the preparation thereof.

The present invention relates to the field of enhancing the bioavailability of active compounds. More particularly, it relates to a method for enhancing the bioavailability of hydrophilic active compounds in solution in an aqueous medium. The hydrophilic compounds, the bioavailability of which is enhanced, can be used, for example, in the cosmetic, agri-food, neutraceutical or pharmaceutical fields.

The present invention discloses a natural food antioxidant and a method for preparing the same, and belongs to the field of food industry technology. The food antioxidant includes main components of a red clover extract, whose main components are isoflavones, polysaccharides and the mixtures of isoflavones and polysaccharides. Different ingredients have different characteristics in activities, water solubilities and production cost accounting. Combining factors such as activity, solubility and cost, a compounding solution of different ingredients can be used. Especially, the best synergic effect and the highest activity are shown in the mixture of polysaccharides and isoflavones with mass ratio of 1:2. As a leguminous forage, red clover is widely distributed all over the world and has abundant sources. The isoflavones of red clover are usually used as health function. The product of the present invention is easy to be prepared in a safe and environmental process with lower cost, and diversified formulae to satisfy different purposes, which has very wide application prospects.

A method for preparing cassava flour with a low content of cyanogenic glycosides is provided. The method includes: washing, peeling, and cutting newly harvested fresh cassava to obtain cassava pellets, cassava shreds, or a cassava pulp as a raw material. The method further includes the following steps: immersing the raw material in a solution containing cellulase and pectinase for 10-30 minutes, and then placing the raw material in warm water with a temperature of 35-50° C. and a pH value of 5.5-6.5 and ultrasonicating for 10-30 minutes at an ultrasonic frequency of 50-80 kHz, to obtain an ultrasonicated raw material; drying and pulverizing the ultrasonicated raw material to obtain cassava flour with a low content of cyanogenic glycosides, a cyanogenic glycoside content of the cassava flour is less than 15 mg/kg.

A method of producing a denatured pea protein solution comprises the steps of mixing pea protein with an alkali solvent to provide a 1-10% pea protein solution (w/v) having a pH of at least 10, resting the pea protein solution for at least 15 minutes, heating the pea protein solution under conditions sufficient to heat-denature the pea protein without causing gelation of the pea protein solution, and rapidly cooling the denatured pea protein solution to prevent gelation, wherein at least 90% of the pea protein in the denatured pea protein solution is soluble. Also described is a method of producing microparticles having a denatured pea protein matrix, the method comprising the steps of providing a denatured pea protein solution according to the invention, treating the denatured pea protein solution to form microdroplets; and cross-linking and chelating the droplets to form microparticles.

A swollen composition containing starch as a main component, and maintaining the swollen state after heating and having a characteristic texture inherent to a swollen food imparted thereto is provided. A starch content of the entire composition is 15 mass % or more in terms of dry mass. A moisture content of the composition is less than 150 mass % in terms of dry matter. A degree of gelatinization of the starch in the composition is 50 mass % or more. A dietary fiber content of the composition is 3.0 mass % or more in terms of dry mass. A ratio of the area under the curve within the logarithmic molecular weight range of 3.5 or more and less than 6.5 to the total area under the curve is more than 60%. Particle diameter d50 of the composition subjected to a starch and protein degradation treatment followed by ultrasonication is less than 450 μm.