A brewing device may have several different configurations to make various beverages. Under computer control, the device may be able to sequence various ingredients using direct or recirculating percolation for immediate consumption, such as coffee and tea, or for fermenting for later consumption, such as beer, kombutcha, or other consumable products. The device may be capable of a sequenced percolation, such as coffee infusion of a first type of coffee, then a second type of coffee, followed by vanilla, and followed by spices. The device may be capable of sequential, cascading, or parallel percolation directly or using recirculating paths. Ingredients may be pre-packaged or may be placed into various removable and cleanable containers. The device may further be capable of infusion by steeping ingredients in a dispensing device.

A system for brewing beer in small batches comprises a first heat exchanger and a second heat exchanger. The first heat exchanger delivers heated fluid into the second heat exchanger. A fluid-in line delivers cool fluid into the second heat exchanger. The second heat exchanger is configured to indirectly chill or heat brewing ingredients in a vessel.

A method for treating a wort in a kettle provides a kettle with an inlet for feeding a wort into the kettle and with an outlet for flowing the wort out of the kettle. A heating means for bringing the wort contained in the kettle close to or at boiling temperature, as well as for controlling the temperature. A gas sparging system for sparging an inert gas into said wort. Feeding wort from a lautering step into said boiling kettle through the inlet, the wort at a temperature below its boiling temperature. During sparging, heating the wort and maintaining it at a treatment temperature below the boiling temperature of the wort for a duration between 15 and 90 min, and no longer than required to evaporate at most 4 wt. % of water initially in the wort. Transferring the treated wort to a trub separation step through the outlet.

A method for treating a wort in a kettle provides a kettle with an inlet for feeding a wort into the kettle and with an outlet for flowing the wort out of the kettle. A heating means for bringing the wort contained in the kettle close to or at boiling temperature, as well as for controlling the temperature. A gas sparging system for sparging an inert gas into said wort. Feeding wort from a lautering step into said boiling kettle through the inlet, the wort at a temperature below its boiling temperature. During sparging, heating the wort and maintaining it at a treatment temperature below the boiling temperature of the wort for a duration between 15 and 90 min, and no longer than required to evaporate at most 4 wt. % of water initially in the wort. Transferring the treated wort to a trub separation step through the outlet.

A method for treating a wort in a kettle provides a kettle with an inlet for feeding a wort into the kettle and with an outlet for flowing the wort out of the kettle. A heating means for bringing the wort contained in the kettle close to or at boiling temperature, as well as for controlling the temperature. A gas sparging system for sparging an inert gas into said wort. Feeding wort from a lautering step into said boiling kettle through the inlet, the wort at a temperature below its boiling temperature. During sparging, heating the wort and maintaining it at a treatment temperature below the boiling temperature of the wort for a duration between 15 and 90 min, and no longer than required to evaporate at most 4 wt. % of water initially in the wort. Transferring the treated wort to a trub separation step through the outlet.

A method for treating a wort in a kettle provides a kettle with an inlet for feeding a wort into the kettle and with an outlet for flowing the wort out of the kettle. A heating means for bringing the wort contained in the kettle close to or at boiling temperature, as well as for controlling the temperature. A gas sparging system for sparging an inert gas into said wort. Feeding wort from a lautering step into said boiling kettle through the inlet, the wort at a temperature below its boiling temperature. During sparging, heating the wort and maintaining it at a treatment temperature below the boiling temperature of the wort for a duration between 15 and 90 min, and no longer than required to evaporate at most 4 wt. % of water initially in the wort. Transferring the treated wort to a trub separation step through the outlet.

A system and method for generating wort utilizing steam injection heating and stratified flow. The system mixes a fine ground grain with water to form a slurry. The slurry is pumped through a steam injection heater to form a mash. The heated mash enters into a stratified vessel that creates a stratified temperature profile from a first end to a second end. The stratified heating vessel allows the mash to flow from the first end to the second end without internal mixing. After retention within the mash coil, the wort is directed to a mash filtration unit. After filtration, the wort enters into a boil kettle and is heated using a second steam injection heater. The boil kettle includes a spray head that directs brewing liquor onto the wort to reduce foam within the boil kettle. Finally, the wort passes through a scraped surface sieve that removes particles from the heated wort.

A system and method for generating wort utilizing steam injection heating and stratified flow. The system mixes a fine ground grain with water to form a slurry. The slurry is pumped through a steam injection heater to form a mash. The heated mash enters into a stratified vessel that creates a stratified temperature profile from a first end to a second end. The stratified heating vessel allows the mash to flow from the first end to the second end without internal mixing. After retention within the mash coil, the wort is directed to a mash filtration unit. After filtration, the wort enters into a boil kettle and is heated using a second steam injection heater. The boil kettle includes a spray head that directs brewing liquor onto the wort to reduce foam within the boil kettle. Finally, the wort passes through a scraped surface sieve that removes particles from the heated wort.

A system for brewing beer in small batches comprises a first heat exchanger and a second heat exchanger. The first heat exchanger delivers heated fluid into the second heat exchanger. A fluid-in line delivers cool fluid into the second heat exchanger. The second heat exchanger is configured to indirectly chill or heat brewing ingredients in a vessel.

A system for brewing beer in small batches comprises a first heat exchanger and a second heat exchanger. The first heat exchanger delivers heated fluid into the second heat exchanger. A fluid-in line delivers cool fluid into the second heat exchanger. The second heat exchanger is configured to indirectly chill or heat brewing ingredients in a vessel.