A method of making a tablet for hot espresso beverage extraction includes the steps of grinding a brewable product to obtain a powder having a substantially uniform particle size, dosing a predetermined amount of the ground product powder, moistening the powdered product dose, homogenizing the moistened mixture to obtain a powdered product with a substantially uniform moisture content, forming the powdered product dose to obtain a disk-shaped or prismatic tablet, and supplying an amount of energy to the tablet to obtain a substantially compact and integral item. The step of supplying energy is carried out by irradiating the tablet with an electromagnetic wave beam to overheat and partially bake and/or sinter the particles of the powdered product and impart a relatively compact and self-supporting construction to the finished tablet. The electromagnetic wave irradiation step is carried out at the end of the forming step while continuously compressing the dose.

A method of making a tablet for hot espresso beverage extraction includes the steps of grinding a brewable product to obtain a powder having a substantially uniform particle size, dosing a predetermined amount of the ground product powder, moistening the powdered product dose, homogenizing the moistened mixture to obtain a powdered product with a substantially uniform moisture content, forming the powdered product dose to obtain a disk-shaped or prismatic tablet, and supplying an amount of energy to the tablet to obtain a substantially compact and integral item. The step of supplying energy is carried out by irradiating the tablet with an electromagnetic wave beam to overheat and partially bake and/or sinter the particles of the powdered product and impart a relatively compact and self-supporting construction to the finished tablet. The electromagnetic wave irradiation step is carried out at the end of the forming step while continuously compressing the dose.

The present invention relates to amorphous porous particles comprising sugar, a bulking agent and surfactant, having a closed porosity of between 20 to 60% a sphericity of at least between 0.8 and 1. In a further aspect the present invention relates to a process of making said amorphous porous particles and their use as bulk sugar replacers in food products such as fat based confectionery products for example, chocolate.

The present invention relates to amorphous porous particles comprising sugar, a bulking agent and surfactant, having a closed porosity of between 20 to 60% a sphericity of at least between 0.8 and 1. In a further aspect the present invention relates to a process of making said amorphous porous particles and their use as bulk sugar replacers in food products such as fat based confectionery products for example, chocolate.

Disclosed herein are compositions comprising agglomerates formed of fruit flakes and target ingredients, such as flavorings, colorings, aromatic particles, nutrients, etc. Also disclosed are methods for making fruit flake agglomerates that can deliver higher concentrations of flavorings, colorings, aromatic particles, nutrients, etc.

Disclosed herein are compositions comprising agglomerates formed of fruit flakes and target ingredients, such as flavorings, colorings, aromatic particles, nutrients, etc. Also disclosed are methods for making fruit flake agglomerates that can deliver higher concentrations of flavorings, colorings, aromatic particles, nutrients, etc.

Disclosed herein are compounds having structural Formula (I), or salts thereof. These compounds are useful as sweet tasting agents and/or sweetness enhancers. Also disclosed are compositions comprising the present compounds and methods of increasing the sweet taste of ingestible compositions. Furthermore, methods for preparing the compounds are also disclosed.

Disclosed herein are compounds having structural Formula (I), or salts thereof. These compounds are useful as sweet tasting agents and/or sweetness enhancers. Also disclosed are compositions comprising the present compounds and methods of increasing the sweet taste of ingestible compositions. Furthermore, methods for preparing the compounds are also disclosed.

The present invention relates to a savoury seasoning composition, a method of preparing such a composition and to uses of such a composition.

A process for preparing a particulate dairy composition is provided, which comprises (a) combining condensed skimmed milk, sucrose, milk cream and milk powder to prepare a pre-emulsion containing 46-66 wt. % dry matter; (b) homogenizing the pre-emulsion; (c) spray drying the emulsion to produce a semi-dried powder having a water content of at least 5 wt. % water; and (d) agglomerating and further drying the semi-dried powder to produce agglomerates having a water content of less than 5 wt. % water. The process yields a particulate dairy composition that is particularly suitable for use in creamer capsules. Particulate dairy compositions are also disclosed, comprising (A) 77.5-100 wt. % of agglomerates containing, calculated by dry weight of the agglomerates: (i) 15-29 wt. % of milk protein; (ii) 8-33 wt. % of milk fat; (iii) 18-47 wt. % of lactose; and (iv) 7-18 wt. % of sucrose; and (B) 0-22.5 wt. % of sucrose particles, wherein the composition has a poured bulk density of 380-550 g/l.