Formulations that, when suitably mixed, form edible liquid solutions suitable for blowing bubbles. These formulations contain water, a surfactant, a thickener, a pH adjusting agent/preservative, and optionally a sweetener. The formulations may be provided in either solid form or liquid form, either of which may form an edible bubble solution when mixed with a sufficient quantity of a beverage or similar liquid.

Formulations that, when suitably mixed, form edible liquid solutions suitable for blowing bubbles. These formulations contain water, a surfactant, a thickener, a pH adjusting agent/preservative, and optionally a sweetener. The formulations may be provided in either solid form or liquid form, either of which may form an edible bubble solution when mixed with a sufficient quantity of a beverage or similar liquid.

An emulsion gel embedding a fat-soluble vitamin and a pulsed electric field based production method therefor. The production method comprises: dissolving octenyl succinate starch ester in water, heating in a water bath, stirring to complete gelatinization and dissolution, and cooling to room temperature; adding edible oil dissolved with a fat-soluble vitamin to obtain a mixed liquid; shearing and homogenizing the obtained mixed liquid by using a high-speed shearing machine and a high-pressure homogenizer to obtain an emulsion; and adding the emulsion and natural starch to a methyl cellulose solution, performing pulsed electric field treatment after well mixing, heating in a water bath, performing degasification and cooling to obtain an emulsion gel. The pulsed electric field promotes interaction between methyl cellulose and starch molecules, has a higher elastic modulus, and is easier to form a network structure that is more conducive to embedding the fat-soluble vitamin.

An emulsion gel embedding a fat-soluble vitamin and a pulsed electric field based production method therefor. The production method comprises: dissolving octenyl succinate starch ester in water, heating in a water bath, stirring to complete gelatinization and dissolution, and cooling to room temperature; adding edible oil dissolved with a fat-soluble vitamin to obtain a mixed liquid; shearing and homogenizing the obtained mixed liquid by using a high-speed shearing machine and a high-pressure homogenizer to obtain an emulsion; and adding the emulsion and natural starch to a methyl cellulose solution, performing pulsed electric field treatment after well mixing, heating in a water bath, performing degasification and cooling to obtain an emulsion gel. The pulsed electric field promotes interaction between methyl cellulose and starch molecules, has a higher elastic modulus, and is easier to form a network structure that is more conducive to embedding the fat-soluble vitamin.

Various ingredients and compositions are prepared from Stevia rebaudiana Bertoni plant. The compositions can be used as bulking agents, and sweeteners in foods, beverages, cosmetics and pharmaceuticals.

Various ingredients and compositions are prepared from Stevia rebaudiana Bertoni plant. The compositions can be used as bulking agents, and sweeteners in foods, beverages, cosmetics and pharmaceuticals.

Described herein is an innovative composition that improves sleep quality. This composition includes two important systems: 1) a sleep-inducing system that is being used for the first time in food and beverage products; and 2) a unique stabilizer system that provides a robust rheology and greater stability than other stabilizers. The two systems can be incorporated, individually or in combination, into food and beverage products, including but not limited to protein shakes and powders. Together, they enable this composition to aid in relaxation and optimal sleep quality, better sensory taste experiences than current market products, longer shelf life and robust stability. This disclosure also addresses a relevant need in the art for a beverage composition that promotes calmness and reduces stress by using natural ingredients, more specifically made from milk casein. In summary, the sleep-inducing RTD (ready-to-drink) and RTM (ready-to-mix) compositions described herein include a stabilizer composition that improves shelf-life stability and contributes to enhanced specific sensory attributes without any adverse effects.

Systems and methods describe improvements in the automated production of meat analogues. Ingredients are provided, including oil, water, binding agent(s), and one or more forms of protein to be separately and continuously conveyed through a facility. Concurrently to the ingredients being conveyed through the facility, a number of actions occur. The system emulsifies the oil, water, and binding agent(s) within an emulsifying machine to form a final emulsion. A hydration process is separately applied to at least one of the forms of protein. The system mixes and conveys the protein(s) with the final emulsion in a final mixer to form a final dough.

Systems and methods describe improvements in the automated production of meat analogues. Ingredients are provided, including oil, water, binding agent(s), and one or more forms of protein to be separately and continuously conveyed through a facility. Concurrently to the ingredients being conveyed through the facility, a number of actions occur. The system emulsifies the oil, water, and binding agent(s) within an emulsifying machine to form a final emulsion. A hydration process is separately applied to at least one of the forms of protein. The system mixes and conveys the protein(s) with the final emulsion in a final mixer to form a final dough.

Disclosed is a method for preparing an emulsion gel-based fat substitute with adjustable phase change and use thereof, belonging to the field of oils and fats and food processing. The emulsion gel-based fat substitutes are prepared by using an oil-soluble polysaccharide, oil-soluble small molecule gelling agent, water-soluble large molecule gelling agent and vegetable oil as raw materials, dissolving the oil-soluble polysaccharide, small molecule gelling agent and water-soluble large molecule gelling agent in the heated oil and water phases, mixing and emulsifying the oil solution and aqueous solution to obtain an emulsion, and then gelling the emulsion upon stirring and cooling. An oil-soluble polysaccharide reduces the amount of oil-soluble small molecule gelling agent, an emulsion gel-based fat substitute containing trans-free low-saturated fatty acids is prepared, and the overall oil content of the emulsion gel is reduced by adding the water phase gelled with the water-soluble large molecule gelling agent.