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.

Composition of a hypoallergenic, plant-based vegan product by combining water with a hypoallergenic-substrate, and a plant-based butter and/or cream including at least one or more of sunflower seed butter and/or coconut cream. The resulting slurry is then subjected to a preservation process. In an alternative method, the resulting slurry is inoculated in order to reduce its pH.

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 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.

The present invention relates to a process of compacting a microporous fat powder, notably a microporous fat powder that can suitably be used as an oil structuring agent.

One aspect of the invention relates to a process for compacting a microporous fat powder, said process comprising: feeding the fat powder into the feed zone of an extruder having a forwarding screw and a barrel within which said screw is centrally positioned; rotating said forwarding screw to advance said fat powder feed through a compacting zone of the extruder where the barrel comprises a plurality of venting openings having a shorter dimension that exceeds the volume weighted average diameter of the fat powder feed and that is less than 10 mm; and expelling the compacted fat powder from the extruder;
wherein the temperature of the fat powder during passage through the extruder is maintained below 40 C. and wherein the compaction factor achieved exceeds 1.5

Another aspect of the invention relates to a compacted microporous fat powder having the following characteristics: a freely settled density in the range of 90-600 g/l; a particle size distribution with at least 90 vol. % of the particles having a diameter in the range of 20 to 600 m; a maximum G.sub.i/G.sub.d ratio of more than 2.0, wherein G represents the elastic modulus at 10 C. of a dispersion of 2 wt. % of the compacted fat powder in glycerol, and wherein the maximum ratio is determined by recording G.sub.i whilst increasing the frequency from 0.1 to 15 s.sup.1, by subsequently recording G.sub.d whilst decreasing said frequency from 15 to 0.1 s.sup.1, and by calculating the ratio G.sub.i/G.sub.d at the frequency at which said ratio is highest.

The invention relates to a method for providing a structuring fat by the interesterification of a first fat with a high content of saturated long chain fatty acids with a second fat or oil to provide triglyceride compositions having an increased level of H-type fatty acids, especially C18:0 at the 2-position, the triglyceride compositions thus obtained and spreads made therefrom.

A method for producing a food product includes preparing a mixture including one or more dried food ingredients and at least one oil or fat, wherein a total fat content in the mixture is 10 to 98% by mass, pulverizing the dried food ingredients in the mixture, and obtaining a food composition comprising the at least one oil or fat and 2 to 98% by mass of fine particles of the dried food ingredients. The dried food ingredients are selected from the group consisting of a vegetable, a fruit and an alga. The food composition has a water content of less than 20% by mass. When the food composition is subjected to an ultrasonication treatment at a frequency of 40 kHz and an output of 40 W for 180 seconds, the fine particles after the ultrasonication treatment have a modal diameter of 0.3 to 200 m.

Certain characteristics of esterified propoxylated glycerol compositions and reduced-fat food products prepared therefrom may be modified and improved by combining such esterified propoxylated glycerol compositions with particular triglyceride compositions having higher melting points, wherein the melting and crystallization properties of each component are taken into account when selecting them for combination. For instance, EPG-based confectionary products having reduced issues with slump, blocking and demolding may be prepared by incorporating such a higher melting triglyceride composition, without compromising the organoleptic qualities of the resulting confectionary.

Pulses are used to produce low-fat, low-calorie, high viscosity food products having superior texture, preferably without need for added emulsifiers and stabilizers. Generally, the food products are made by hydrating pulses (seeds), milling or pulverizing the pulses before, during or after hydration, and then homogenizing the hydrated pulses with additional liquid at temperatures between 0 and 121 C. and pressures between 6.9 and 690 MPa. Additional liquid is advantageously added before or during homogenization to achieve a liquid:solid ratio of between 2:1 and 15:1, depending on the desired end products. The emulsions produced by these conditions preferably have low lipid content and high viscosity, because of the small hydrodynamic particle size (5-200 m). Flavorings can be added to the emulsions to make commercial products that can be packaged as mayonnaise, salad dressings, food spreads and dips, etc.

The invention provides for methods and foods with reduced or no chelating agents. The present invention also relates to methods for using high stability oils including high-stability high-oleic oils produced using genetically engineered microalgae. The oils can be used in multiple food-related applications including frying, spray-coating, and lubrication of equipment. The oils can also be blended with vegetable oils or interesterified with vegetable oils.