The present invention relates to a process for the production of an agglomerated particulate product containing one or more flavorant(s) and/or odorant(s). By spraying with certain binders, the storage stability of the particulate product is significantly improved, and the flavorant(s) and/or odorant(s) are protected, in particular, from oxidation. The present invention also relates to particulate products containing one or more flavorant(s) and/or odorant(s), preferably produced by a process according to the invention, and to the use of certain substances for improving the storage stability of particulate products containing one or more flavorant(s) and/or odorant(s).

Baklava, a well-known and popular confection, typically requires preservatives to have a long shelf life. The present technology preserves the baklava naturally by homogenizing the baklava, partially or fully, until it is malleable with the hand. The malleable version thereof made into a regular shape such as a sphere and then covered with an edible sealant such as melting chocolate such that the moisture is substantially maintained in the baklava over a period of, at least, weeks.

Baklava, a well-known and popular confection, typically requires preservatives to have a long shelf life. The present technology preserves the baklava naturally by homogenizing the baklava, partially or fully, until it is malleable with the hand. The malleable version thereof made into a regular shape such as a sphere and then covered with an edible sealant such as melting chocolate such that the moisture is substantially maintained in the baklava over a period of, at least, weeks.

An embodiment of the present invention relates to protein granules containing a whey protein as a main component, the protein granules having an average particle diameter of 207 μm to 570 μm, a homogeneity U of 0.58 or less, a content ratio (volume ratio) of coarse powder having a particle diameter of 500 μm or more of 22% or less, and a content ratio (volume ratio) of fine powder having a particle diameter of 150 μm or less of 31% or less.

An embodiment of the present invention relates to protein granules containing a whey protein as a main component, the protein granules having an average particle diameter of 207 μm to 570 μm, a homogeneity U of 0.58 or less, a content ratio (volume ratio) of coarse powder having a particle diameter of 500 μm or more of 22% or less, and a content ratio (volume ratio) of fine powder having a particle diameter of 150 μm or less of 31% or less.

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 30% by mass or more, wet pulverizing the dried food ingredients in the mixture, and obtaining a food composition including the at least one oil or fat and 20% to 98% by mass of fine particles of the dried food ingredients. The wet pulverization is performed with a maximum pressure of 0.01 to 1 MPa and under a rising temperature condition satisfying T1+1<T2<T1+50. The fine particles subjected to an ultrasonication treatment have a modal diameter of 0.3 to 200 μm and a decreased maximum particle size. A 10.sup.th percentile value of a numerical value N for each fine particle complex is 0.40 or less.

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 30% by mass or more, wet pulverizing the dried food ingredients in the mixture, and obtaining a food composition including the at least one oil or fat and 20% to 98% by mass of fine particles of the dried food ingredients. The wet pulverization is performed with a maximum pressure of 0.01 to 1 MPa and under a rising temperature condition satisfying T1+1<T2<T1+50. The fine particles subjected to an ultrasonication treatment have a modal diameter of 0.3 to 200 μm and a decreased maximum particle size. A 10.sup.th percentile value of a numerical value N for each fine particle complex is 0.40 or less.

A solvent-free method to extract THCA from cannabis, said method comprising: providing a source of THCA-containing cannabis plant; providing a source of natural oil; combining said source of THCA-containing cannabis and said source of natural oil into a blend; milling said blend; optionally, heating the blend during the milling; and extracting a THCA-containing liquid generated during the milling.

A solvent-free method to extract THCA from cannabis, said method comprising: providing a source of THCA-containing cannabis plant; providing a source of natural oil; combining said source of THCA-containing cannabis and said source of natural oil into a blend; milling said blend; optionally, heating the blend during the milling; and extracting a THCA-containing liquid generated during the milling.

Processes for preparing a powdered nutritional composition comprise dry blending protein, fat, and carbohydrate, micronizing the resultant mixture to provide 99% of particles with a size less than about 50 micrometers, and agglomerating the micronized powder to form agglomerates. Powdered nutritional compositions are produced by the processes of dry blending, micronizing, and agglomerating.