Packaged aerated acidified food compositions (e.g., aerated dips, sauces, etc.) having a low density (e.g., 0.4 to 0.8 g/cm.sup.3) due to incorporation of gas bubbles (e.g., nitrogen or air) within an aerated matrix. In addition to the aerated matrix the composition further includes a relatively high fraction of oil (e.g., as an oil/water emulsion). The compositions are shelf-stable, so as to exhibit microbial stability and stability with respect to the aerated low density whipped texture, without requiring refrigeration. The composition includes the aerating gas (e.g., nitrogen or air), a protein (e.g., soy or dairy), a stabilizer (e.g., a hydrocolloid, a cyclodextrin, a monoglyceride, and/or a diglyceride), oil, water, an emulsifier, and a food grade acid. Flavors, spices, and other components may be included.

This invention relates to compositions comprising cellulose particles and methods for making and using same. This invention also relates to compositions comprising a fluid and particles comprising cellulose. Thus, disclosed herein are methods of manufacture, isolation, purification, and handling of cellulose particles. Also disclosed are uses for cellulose particles as additives in leavened or leavenable food products, or in an emulsion or emulsifiable product, or as a suspension aid, or in a thickened composition, or in a meat or meat analog product, or in a personal care formulation, or in a beauty formulation, or in a cosmetic formulation, or in a skin care formulation. Also disclosed are uses for cellulose particles in subterranean treatment compositions. Also disclosed are uses for cellulose particles in metal working compositions, cutting compositions, and stamping compositions. Also disclosed herein are resuspendable particles comprising cellulose. This abstract is intended as a scanning tool for purposes of searching in the particular art and is not intended to be limiting of the present invention.

Methods and compositions for the production of non-meat consumable products are described herein. A meat substitute is described which is constructed from a muscle analog, a fat analog, and a connective tissue analog.

A process for preparing a slurry of an edible oil phase and fat powder, and to a process of preparing an edible fat-continuous spread out of such, wherein the oil phase comprises olive oil.

The present invention relates to a protein preparation produced from almond seeds and a cost-effective method for the preparation thereof. The protein preparation has a protein content of more than 50% by mass, an oil content of less than 6% by mass, a sucrose content of less than 8% by mass and a brightness L* of greater than 70. The taste of the protein preparation is neutral, it has a light colour and is of high quality, so that it is suitable for food applications, such as emulsions and baked good, that are demanding in terms of colour and taste.

Compositions of microalgae-derived flour are disclosed from multiple genera, species, and strains of edible microalgae. Microalgae used in the invention are free of algal toxins and contain varying levels of primarily monounsaturated triglyceride oil. Flours disclosed herein are formulated as free flowing blendable powders, mixed food ingredients, oxidation stabilized, homogenized and micronized, and combinations therein. Flours disclosed herein also form self stabilizing emulsions in slurries with manageable viscosities. Innovative methods of formulating flours and incorporating them into food compositions are also disclosed. The invention also comprises flours with significant digestible protein and unique dietary fiber content and associated water binding, texturizing, and healthy oil delivery attributes. Novel methods of oil and fat replacement using flours of the invention are also disclosed. Flours of the invention can be manufactured from edible and inedible heterotrophic fermentation feedstocks, including corn starch, sugar cane, glycerol, and depolymerized cellulose.

Provided are methods to produce an edible filamentous fungal biomass using an aqueous media which has a carbon source including an extract of dates; and a nitrogen source into which is inoculated filamentous fungal culture followed by culturing in a submerged fungal culture to produce an edible filamentous fungal biomass, wherein the fungal culture comprises Pleurotus spp. The culture may be grown to at least about 25 g/L (dry weight) with a productivity of at least 2.5 g/L/day (dry weight) during the culturing step. Also provided herein are compositions including an edible filamentous fungus.

An edible and thermoreversible oleogel comprising an oil or mixture of oils, grease or mixtures of fats and a structuring agent or mixture of structuring agents on the basis of a distilled monoglyceride of saturated fatty acid having from 12 to 24 carbon atoms that contains more than 90% by weight of monoglycerides, the monoglycerides of the saturated fatty acid are at least 40% by weight of monoglycerides of stearic acid and at least 30% by weight of monoglycerides of palmitic acid. The oleogel is prepared by the combination of oil, grease, and the structuring agent followed by a heating of the mixture, which is then cooled to obtain the oleogel. The resulting oleogel can be used as a substitute for fat in food products.

A dairy spread composition is suggested, obtained or obtainable by: (a) providing a cream fraction having a content of at least 40% by weight fat and at least 6% by weight fat-free dry matter; (b) subjecting the cream fraction to a temperature ripening step; (c) churning the ripened cream fraction, and separating the buttermilk; (d) adding salt and an acidification permeate to the butter such obtained; (e) mixing the acidified at 12 to 16 C. with a vegetable fat that is liquid at this temperature; (f) adding an aqueous phase to the blend in small doses, and (g) packaging the blend after homogenisation and cooling.

A process for preparing a water-in-oil emulsion which emulsion comprises protein, oil and a hardstock fat. The process involves blending the melted hardstock fat with a water-continuous dispersion comprising protein and oil, wherein the temperature of the aqueous dispersion being mixed with the melted hardstock fat is below 15 C., and said mixing is carried out by a high shear mixing device followed by a pin-stirrer.