An example peanut butter snack food includes about 35 wt% to about 45 wt% binder based on a total weight of the peanut butter snack food and about 55 wt% to about 65 wt% particulates based on the total weight of the peanut butter snack food. The binder includes peanut butter and a second binder. The peanut butter is present in an amount within the range of about 10 wt% to about 20 wt% based on the total weight of the peanut butter snack food. The second binder being present in an amount within the range of about 15 wt% to about 30 wt% based on the total weight of the peanut butter snack food.

An example peanut butter snack food includes about 35 wt% to about 45 wt% binder based on a total weight of the peanut butter snack food and about 55 wt% to about 65 wt% particulates based on the total weight of the peanut butter snack food. The binder includes peanut butter and a second binder. The peanut butter is present in an amount within the range of about 10 wt% to about 20 wt% based on the total weight of the peanut butter snack food. The second binder being present in an amount within the range of about 15 wt% to about 30 wt% based on the total weight of the peanut butter snack food.

The present invention relates to the preparation of fermented plant-based compositions.

In a method for obtaining one or more protein preparations and oil fractions from sunflower seeds or rape seeds, at least three fractions are provided or formed from the seeds, of which a first fraction has a shell content of <1 mass percent, a second fraction has a shell content of <20 mass percent or <10 mass percent, the shell content being greater than the shell content of the first fraction but equal to at least >0.3 mass percent or >0.15 mass percent, and a third fraction has a shell content of >60 mass percent or >30 mass percent. Oil is separated from the first fraction by means of one or de-oiling steps to a residual oil content of <3 mass percent, whereby one or more oil fractions and an oil-free first fraction are obtained as protein preparations. The method makes it possible to convert all of the fractions which are accumulated during the preparation of the sunflower seeds or rape seeds, into ingredients of the highest possible quality for food, animal feed, energy or technical applications.

In a method for obtaining one or more protein preparations and oil fractions from sunflower seeds or rape seeds, at least three fractions are provided or formed from the seeds, of which a first fraction has a shell content of <1 mass percent, a second fraction has a shell content of <20 mass percent or <10 mass percent, the shell content being greater than the shell content of the first fraction but equal to at least >0.3 mass percent or >0.15 mass percent, and a third fraction has a shell content of >60 mass percent or >30 mass percent. Oil is separated from the first fraction by means of one or de-oiling steps to a residual oil content of <3 mass percent, whereby one or more oil fractions and an oil-free first fraction are obtained as protein preparations. The method makes it possible to convert all of the fractions which are accumulated during the preparation of the sunflower seeds or rape seeds, into ingredients of the highest possible quality for food, animal feed, energy or technical applications.

The group of inventions relates to the food industry, and more particularly to a method and device for transforming brewer's spent grain (BSG). The invention makes it possible to increase the level of recovery of edible fractions from BSG to 90-95%, and to increase the amount of protein in an edible suspension to not less than 50 wt % dry solids. The underlying principle of the invention is a technique for preparing BSG for nutrient extraction and extracting said nutrients by mechanical processing on a proposed industrial processing line. The essence of the claimed method lies in loosening BSG on a vibratory sieve, grinding the BSG in a colloid mill with the addition of water or centrate in a ratio of from 0.5:1 to 1:1 relative to BSG to produce a paste-like homogeneous mass of BSG, and then processing said mass in a screw extractor for further grinding and separation into two fractions: an edible suspension having a 90-95% moisture content and containing all of the nutrients of BSG, including protein substances; and ground BSG husks having a 60-75% moisture content, suitable for subsequent industrial use. The edible suspension is then mechanically filtered to remove ground husk residue, and the suspension is pumped into a storage tank.

The group of inventions relates to the food industry, and more particularly to a method and device for transforming brewer's spent grain (BSG). The invention makes it possible to increase the level of recovery of edible fractions from BSG to 90-95%, and to increase the amount of protein in an edible suspension to not less than 50 wt % dry solids. The underlying principle of the invention is a technique for preparing BSG for nutrient extraction and extracting said nutrients by mechanical processing on a proposed industrial processing line. The essence of the claimed method lies in loosening BSG on a vibratory sieve, grinding the BSG in a colloid mill with the addition of water or centrate in a ratio of from 0.5:1 to 1:1 relative to BSG to produce a paste-like homogeneous mass of BSG, and then processing said mass in a screw extractor for further grinding and separation into two fractions: an edible suspension having a 90-95% moisture content and containing all of the nutrients of BSG, including protein substances; and ground BSG husks having a 60-75% moisture content, suitable for subsequent industrial use. The edible suspension is then mechanically filtered to remove ground husk residue, and the suspension is pumped into a storage tank.

A method of producing microparticles by spray drying comprises the steps of providing a spray-drying feedstock solution comprising water, a volatile divalent metal salt, weak acid, 5-15% dairy or vegetable protein (w/v) and 1-20% active agent (w/v). The feedstock solution is adjusted to have a pH at which the volatile divalent metal salt is substantially insoluble. The feedstock solution is then spray-dried at an elevated temperature to provide atomised droplets, whereby the volatile divalent metal salt disassociates at the elevated temperature to release divalent metal ions which crosslink and aggregate the protein in the atomised droplets to produce microparticles having a crosslinked aggregated protein matrix and active agent dispersed throughout the matrix.

A method of producing microparticles by spray drying comprises the steps of providing a spray-drying feedstock solution comprising water, a volatile divalent metal salt, weak acid, 5-15% dairy or vegetable protein (w/v) and 1-20% active agent (w/v). The feedstock solution is adjusted to have a pH at which the volatile divalent metal salt is substantially insoluble. The feedstock solution is then spray-dried at an elevated temperature to provide atomised droplets, whereby the volatile divalent metal salt disassociates at the elevated temperature to release divalent metal ions which crosslink and aggregate the protein in the atomised droplets to produce microparticles having a crosslinked aggregated protein matrix and active agent dispersed throughout the matrix.

The invention relates to leguminous protein isolates, particularly pea protein isolates having a low lipid content, as well as to the method for the preparation thereof.