The present application relates generally to a process of manufacturing a plurality of products from chia seeds. The process comprises socking chia seeds in a large volume of water for a period of time followed by sonication at an elevated temperature to remove the soluble fiber, the mucilage of chia seeds using vacuum filtration. The oil component is extracted from mucilage removed chia seeds and the leftover is hydrolyzed in presence of an enzyme to afford a product of protein hydrolysates and a product of insoluble fiber of chia seeds. Both the process and the products are within the scope of this application.

Methods and systems for reducing acrylamide concentration in heat-processed products, and products produced by such methods and systems are provided. The baked products may be sprayed with a riboflavin solution and then irradiated with a UV light source to initiate monomer reactions of acrylamide and reduce the concentration of the acrylamide in the baked product. In addition, riboflavin may be dissolved in heat-processed products, followed by irradiation of the riboflavin-containing heat-processed products with a UV light source to initiate monomer reactions of acrylamide and reduce the concentration of the acrylamide in the baked product.

This invention relates generally to cellulose nanocrystal-based emulsions that can serve as a spray adjuvant for improved agrochemical application efficiency. More particularly, the cellulose nanocrystal-based emulsions are nanocellulose-stabilized Pickering emulsions having a semi-liquid formulation of colloidal cellulose nanocrystals and biopolymers that can substitute currently used surfactants and drift reducing agents in agrochemicals. The cellulose nanocrystal-based emulsions are suitable with both water soluble and oil soluble active ingredient chemistries, and the shear characteristics of the emulsions make them suitable for oil in water-based spray applications. Droplet size distribution can be tuned by changing the ingredient concentrations, thus helping control particle drift. Moreover, a stable cross-linked network formation facilitates the entrapment and encapsulation of volatile agrochemical chemistries, thus preventing their volatilization and reducing vapor drift.

A beverage nucleation device includes a housing, a beverage receiving area defined by the housing for receiving a beverage container containing a supercooled beverage, and a support configured to support the beverage container in an upright orientation in the beverage container receiving area. The beverage nucleation device may further include an applicator configured to contact a sidewall of the beverage container on the support, wherein the applicator includes an elastomeric material. An ultrasonic transducer of the beverage nucleation device is configured to generate and apply ultrasonic energy to the beverage container via the applicator so as to cause nucleation of the supercooled beverage.

Disclosed are a red ginseng and/or a red ginseng extract obtained by subjecting (raw) ginseng to ultrasonic treatment and ultrahigh-pressure treatment and then steaming and drying the ginseng, and a method of preparing the same. Also disclosed are a whole ginseng composition including the red ginseng extract prepared by the method, a ginseng leaf extract and a ginseng berry extract, and a method of preparing the same. Advantageously, the red ginseng and the red ginseng extract produced by ultrasonic treatment and ultrahigh-pressure treatment according to the present invention have a lower maximum stress than the conventional red ginseng concentrate in terms of physical properties, reduced inconvenience during ingestion and storage, and increased active ingredient contents.

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.

Disclosed is a method for producing oleogels by sonicating a mixture including an oleogelator component and an oil component with ultrasound including superpositioned ultrasound waves while cooling the mixture from a temperature wherein the mixture is in molten state to a temperature wherein the oleogelator component of the mixture is at least partially in solid state. The method produces oleogels of improved stability.

A system for imploding leukemia cells of a patient includes (a) a first vessel for containing a volume of blood received from the patient, and (b) drive circuitry cooperatively coupled with at least one transducer to produce ultrasound energy that spatially decoheres and disperses throughout the volume, to implode the leukemia cells throughout the volume via absorption of the ultrasound energy by the leukemia cells. The transducer may be an immersible transducer configured to be immersed in the blood. The system may include a second vessel for containing a liquid, within which the ultrasound energy is decohered and dispersed and from which at least a portion of the ultrasound energy is transmitted to the first vessel to implode the leukemia cells.

Methods, processes, apparatus, devices, kits and systems for crystallizing liquid to form slush inside of supercooled to below 32 F closed beverage bottles or cans, beverages in fountain dispensers, desserts, and food items by transmitting ultrasonic signals in short time spans, while allowing for optional illuminating the effects when the supercooled liquid is crystallized into slush.

Method and apparatus for treating animal carcasses prior to processing for meat consumption include applying acoustic pressure shock waves with a segment parabolic reflector and pseudo-planar shock waves to an animal carcass to reduce contaminants on the carcass for improved safety when distributed as meat.