A composition having an oil-in-water dispersion with enhanced stability is provided. The oil-in-water dispersion has particles of a hydrophobic agent with an average particle size between about 100 to about 999 nm, where the distribution of particle sizes are a monodispersity about the average particle size, and the negative charge on the particles generates a force of repulsion that exceeds the force of coalescence among the particles of the hydrophobic agent in the oil-in-water dispersion. A method for applying the composition to a food and/or beverage is also provided. The submicron average particle size, dispersity, and force of repulsion of the particles in the dispersion increase the extent of penetration and accelerate diffusion of the particles of the hydrophobic agent throughout a water phase of a food or beverage, to enhance the physical, chemical, nutritional and/or sensory properties of the food or beverage, and to prevent freezer burn.

Edible tableware made from a baked dough capable of holding warm liquids for an extended period of time without leakage and a method of making the same. Edible tableware has recently become an area of interest due to a desire to provide more environmentally friendly options for disposable tableware. In disposable tableware, when using paper instead of plastic, the paper that is used to make the disposable tableware is liquid resistant due to a wax or plastic coating. Existing edible tableware has taken a similar approach and uses a heavy sugar glaze as a way of keeping liquids from penetrating into the baked part of the tableware. The use of a sugar glaze is not ideal because an imperfect glazing or too light of a glazing can result in liquid penetrating the baked portion and causing leakage and/or structural failure. Further, the extra sugar contained in the glazing may be undesirable to the consumer. Accordingly, there is a need for edible tableware that does not require a separate glaze for liquid resistance.

The present invention provides a solid fat composition that includes an oil having saturated fat and an oil having at least one long chain polyunsaturated fatty acid. In particular, the solid fat composition can have high levels of long chain polyunsaturated fatty acid and low to no presence of emulsifiers. In preferred embodiments, the polyunsaturated oil is an unwinterized microbial oil. The invention also relates to methods for making such compositions and food, nutritional, and pharmaceutical products comprising said compositions.

Embodiments of the disclosure can relate to dough products and method of making the same. In one example embodiment of the disclosure, a method for making a yeast-based dough product may include preparing a yeast broth by dispersing an amount of yeast into water and mixing the amount of yeast with water until a homogenized solution is reached; mixing the yeast broth with a pre-blend of dry ingredients to form a batter, and without allowing a resting period, baking the batter at an elevated temperature. The amount of yeast utilized may be determined based at least in part on achieving instantaneous gassing without a rise in batter volume when mixing the yeast broth with the pre-blend of dry ingredients.

Algal flour and algal biomass are disclosed. Food compositions comprising algal biomass or algal flour with a high lipid content are disclosed.

A composition having an oil-in-water dispersion with enhanced stability is provided. The oil-in-water dispersion has particles of a hydrophobic agent with an average particle size between about 100 to about 999 nm, where the distribution of particle sizes are a monodispersity about the average particle size, and the negative charge on the particles generates a force of repulsion that exceeds the force of coalescence among the particles of the hydrophobic agent in the oil-in-water dispersion. A method for applying the composition to a food and/or beverage is also provided. The submicron average particle size, dispersity, and force of repulsion of the particles in the dispersion increase the extent of penetration and accelerate diffusion of the particles of the hydrophobic agent throughout a water phase of a food or beverage, to enhance the physical, chemical, nutritional and/or sensory properties of the food or beverage, and to prevent freezer burn.

A process of producing a frozen sheeted dough, which can be prepared without using stress-free sheeting process and transferred directly from the freezer to oven without a proofing step. The process comprises mixing the dough ingredients comprising yeast and chemical leavening agents; resting the dough to form air cell structure; subjecting the dough to high stress sheeting compressions and freezing the dough. The frozen dough can be directly transferred to an oven without a proofing step. The resulting baked product has desirable texture and taste.

A biscuit with no added sugar for consumption by children includes flour (50-70 wt. %), water (5-15 wt. %), oil (3-18 wt. %), fructooligosaccharides (0.1-10 wt. %), inulin (1-20 wt. %), fibre (0.1-5 wt. %) and optionally colourings (0.1-2 wt. %). The biscuit includes neither sucrose nor polyols. A method is for preparing the biscuit with no added sugar for consumption by children.

A non-hydrogenated fat composition comprises greater than 28% by weight stearic acid (C18:0) fatty acid residues; greater than 44% by weight oleic acid (C18:1) fatty acid residues, and less than 10% by weight of palmitic acid (C16) fatty acid residues, based on the total C8-C24 fatty acid residues, and greater than 30% by weight of the combined amounts of StOSt, StStO, StOO and OStO triglycerides based on the total glycerides present in the composition, wherein the weight ratio of (StOSt+StStO)/(StOO+OStO) is from 0.6-1.5.

Disclosed is a formula to produce gluten free coconut dough, in addition to other ingredients to produce a paste, which may be used to make products such as tortillas, chips, tostadas and dough to make tamales, and others, being gluten free, to be consumed by celiac individuals. This compound includes coconut flour, gluten free, saturated fat, fiber and proteins, which are good for health, in which the coconut pulp is obtained after ex-tracting the milk, and desiccated at low temperature to make tortillas and other products. The coconut flour contains 18% of protein, 14% of saturated fat and a reduced amount of carbohydrates.