The invention relates to a bouillon tablet comprising that at least 45 wt % of all ingredients have a median particle diameter Dv50 above 0.6 mm.

The invention relates to a process for producing of a bouillon tablet comprising the step of adding a carbohydrate solution to a dry composition comprising crystalline ingredient, pieces of plant material and optionally amorphous ingredient, wherein the carbohydrate solution has a Brix value between 72 to 87°.

The invention relates to a process for producing of a bouillon tablet comprising the step of adding a carbohydrate solution to a dry composition comprising crystalline ingredient, pieces of plant material and optionally amorphous ingredient, wherein the carbohydrate solution has a Brix value between 72 to 87°.

The invention relates to a manufacturing process for the production of a bouillon tablet or bouillon cube. In particularly the invention relates to a process for the production of a bouillon tablet or bouillon cube wherein the hygroscopic amorphous ingredients are encapsulated with fat and wherein the encapsulated hygroscopic amorphous ingredients have a fat content of between 22 to 80%.

The invention relates to a manufacturing process for the production of a bouillon tablet or bouillon cube. In particularly the invention relates to a process for the production of a bouillon tablet or bouillon cube wherein the hygroscopic amorphous ingredients are encapsulated with fat and wherein the encapsulated hygroscopic amorphous ingredients have a fat content of between 22 to 80%.

A lower carbohydrate soup product is produced by preparing a mixture of soup ingredients, native xanthan gum, particulate xanthan gum and water to form a suspension in a high-speed mixer at a high sheer rate. The native xanthan gum and particulate xanthan gum cooperate to provide a viscosity necessary for successfully retorting a lower carbohydrate soup. The suspension is heated with steam injection until a viscosity sufficient to maintain the soup ingredients and particulate xanthan gum in a suspension. The suspension is then injected into a retort container and undergoes a retort process, thereby producing the lower carbohydrate soup product.

A lower carbohydrate soup product is produced by preparing a mixture of soup ingredients, native xanthan gum, particulate xanthan gum and water to form a suspension in a high-speed mixer at a high sheer rate. The native xanthan gum and particulate xanthan gum cooperate to provide a viscosity necessary for successfully retorting a lower carbohydrate soup. The suspension is heated with steam injection until a viscosity sufficient to maintain the soup ingredients and particulate xanthan gum in a suspension. The suspension is then injected into a retort container and undergoes a retort process, thereby producing the lower carbohydrate soup product.

The present invention refers to the use of a calcium carbonate-based composition as an anticaking agent, wherein the calcium carbonate-based composition comprises a first component being a natural ground calcium carbonate or a precipitated calcium carbonate, and a second component being a surface-reacted calcium carbonate, wherein the surface-reacted calcium carbonate is a reaction product of natural ground calcium carbonate or precipitated calcium carbonate with carbon dioxide and at least one H.sub.3O.sup.+ ion donor, wherein the carbon dioxide is formed in situ by the at least one H.sub.3O.sup.+ ion donor treatment and/or is supplied from an external source. Furthermore, the present invention refers to a particulate composition comprising such an anticaking agent, and to a method for producing such a particulate composition.

The invention relates to an edible oil-in-water emulsion comprising an fat phase, a water phase and a plant-based protein comprising an fat phase a water phase, and wherein the emulsion further comprises 0.01-10 wt. % of a plant-based-protein, the use of the emulsion a non-dairy containing a multipurpose cooking cream and or whipping cream.

The present invention relates to a method for producing a flavour composition comprising providing a slurry of yeast cell walls and contacting the slurry of yeast cell walls with a glucanase and with an endoprotease, followed by separating a liquid fraction by solid/liquid separation to provide the liquid flavour composition.