The invention relates to a brewing plant for continuously or discontinuously obtaining and treating a wort in the beer brewery or beverage industry; wherein the wort derived based on a surface filtration, is obtained continuously or discontinuously. In a second device the wort obtained as such, is set to a first temperature between 0 and 86 C. after completing of the thermal treatment of the wort; and an enzyme-containing substrate is added by means of an apparatus. Therein, the first apparatus for setting the temperature of the wort to a first temperature is arranged downstream to an apparatus for keeping hot or boiling of the wort. The apparatus is arranged downstream to the first apparatus for setting the temperature of the wort to the first temperature. Moreover, a corresponding method and corresponding uses are suggested.

A process for brewing sour beer includes: heating milled grain, water and enzymes to produce a mash; then combining the mash with hot water to produce a wort; then combining the wort with bioacid in a sour tank and heating the wort to produce a soured wort; then transferring the soured wort to a kettle; heating the soured wort in the kettle; then removing particulate matter from the soured wort; then transferring the soured wort to a cellar.

A process for brewing sour beer includes: heating milled grain, water and enzymes to produce a mash; then combining the mash with hot water to produce a wort; then combining the wort with bioacid in a sour tank and heating the wort to produce a soured wort; then transferring the soured wort to a kettle; heating the soured wort in the kettle; then removing particulate matter from the soured wort; then transferring the soured wort to a cellar.

A semi-automated vessel-in-vessel beer brewing and precision timed cooking system is disclosed. This system enables automated, hands-off brewing from strike to boil, more efficient sparging, and precision timed cooking, and can be built as an add-on to existing vessel-in-vessel systems.

A semi-automated vessel-in-vessel beer brewing and precision timed cooking system is disclosed. This system enables automated, hands-off brewing from strike to boil, more efficient sparging, and precision timed cooking, and can be built as an add-on to existing vessel-in-vessel systems.

Device (V) for obtaining a wort (WO) from a mash (MA) in the beer brewing or beverage industry, at least comprising a receiving unit (AG) for receiving the mash (MA); at least one separating device (T; T1, T2) each having a surface (FA; FA1, FA2); wherein the surface (FA) has a multiplicity of openings (OP); wherein the device (V) is preferably suitable for separating the mash (MA) into the wort (WO) and a residual mash (RM) by means of the surface (FA) of the separating device (T); wherein the surface (FA; FA1, FA2) or a part thereof can be brought into contact with the mash (MA), if the mash (MA) is present in the receiving unit (AG) for separation into the wort (WO) and the residual mash (RM); and wherein, during the operation of the device (V), the surface (FA) is arranged such that it is moved or can be moved or can be rotated relative to the mash (MA), the residual mash (RM) and/or the receiving unit (AG).

Device (V) for obtaining a wort (WO) from a mash (MA) in the beer brewing or beverage industry, at least comprising a receiving unit (AG) for receiving the mash (MA); at least one separating device (T; T1, T2) each having a surface (FA; FA1, FA2); wherein the surface (FA) has a multiplicity of openings (OP); wherein the device (V) is preferably suitable for separating the mash (MA) into the wort (WO) and a residual mash (RM) by means of the surface (FA) of the separating device (T); wherein the surface (FA; FA1, FA2) or a part thereof can be brought into contact with the mash (MA), if the mash (MA) is present in the receiving unit (AG) for separation into the wort (WO) and the residual mash (RM); and wherein, during the operation of the device (V), the surface (FA) is arranged such that it is moved or can be moved or can be rotated relative to the mash (MA), the residual mash (RM) and/or the receiving unit (AG).

This disclosure relates to an affinity polymer composite comprising a product of reacting a precursor mixture comprising at least one cross-linking monomer component having two or more ethenyl moieties suitable for polymerization; wherein the affinity polymer composite has a first binding energy with a purine compound that is at least 1 kcal/mole more favorable than a second binding energy with a flavor compound in a complex mixture. Some embodiments include a filtration medium comprising the affinity polymer composite described herein, wherein the affinity polymer composite has a primary particle diameter of about 45 micrometers to about 150 micrometers. Some embodiments include a filtration column comprising the filtration medium described herein. Some embodiments include a method for the removal of a purine compound from a complex mixture using the filtration medium described herein.

The invention relates to a brewing plant for continuously or discontinuously obtaining and treating a wort in the beer brewery or beverage industry; wherein the wort derived based on a surface filtration, is obtained continuously or discontinuously. In a second device the wort obtained as such, is set to a first temperature between 0 and 85? C. after completing of the thermal treatment of the wort; and an enzyme-containing substrate is added by means of an apparatus. Therein, the first apparatus for setting the temperature of the wort to a first temperature is arranged downstream to an apparatus for keeping hot or boiling of the wort. The apparatus is arranged downstream to the first apparatus for setting the temperature of the wort to the first temperature. Moreover, a corresponding method and corresponding uses are suggested.

The invention provides methods for the production of dough and bread products made at least in part of spent brewer's grain. The spent grain is removed from a brewing or distilling process, dried, frozen, and then further processed into a spent grain dough product. More specifically, the invention relates to the systems and methods for making frozen pizza dough balls composed at least in part of grain products that have been used in the process of brewing beer or distilling sprits such as whiskey.