A fluid coupling system arranged laterally between a first tank and a second tank of a brewing system is provided. The fluid system comprises: a plurality of pipes configured to couple with an inlet and outlet of the first tank and an inlet and the outlet of the second tank; an impeller pump coupling with a pipe; and an actuator coupled with a pipe, configured to facilitate fluid flow through the fluid coupling system. A method of brewing a beverage using a brewing system is also provided, comprising: mashing ingredients within a first tank to form a mash; transferring the mash into a second tank; lautering the mash to form a clarified wort; transferring the clarified wort to the first tank for boiling; transferring the clarified wort to the second tank for chilling; emptying the first tank and the second tank; and cleaning the first tank and the second tank.

Examples relating to a brewing system are provided. The brewing system includes an outer housing; a first tank and a second tank arranged within an interior region of the outer housing; a fluid coupling system arranged between the first tank and the second tank and fluidly coupling the first tank and the second tank; and an operator interface for controlling the operation of the brewing system. In another example, a method of brewing a beverage using a brewing system is provided. The method comprises: receiving, by the brewing system, an indication of a recipe via an operator interface; receiving ingredients; mashing the ingredients to form a mash; transporting the mash; lautering the ingredients to form a wort; cooling the wort; receiving an indication of whether to perform a fermentation of the wort or a transfer of the wort to a separate system; and cleaning the brew system.

A component of a brewing system is provided, which comprises: a tank; a whirl arm disposed within the tank; an inlet pipe coupled with the whirl arm; and an outlet pipe coupled with a fluid coupling system; wherein the tank is configured for filtering a mash to form a wort. A brewing system is provided, which comprises: a first and a second tank, and a fluid coupling system, the second tank comprising: an inner and an outer cylinder; a whirl arm within the second tank; an inlet pipe coupled with the whirl arm and the fluid coupling system; and an outlet pipe coupled with the fluid coupling system. A method is provided, which comprises: receiving mash within a second tank from a first tank; circulating mash to form wort; transferring the wort into the first tank; receiving wort within the second tank from the first tank; and chilling the wort.

Aspects of the present disclosure relate to an automated brewing system. In examples, a brewing system includes a variety of brewing components (e.g., one or more tanks, pumps, heaters, chillers, and/or sensors) and an associated brewing controller that manages operation of the brewing components. The brewing system may include an operator device that is in communication with the brewing controller and obtains one or more recipes (e.g., from a brewing platform) to be performed by the brewing system, thereby at least partially automatically brewing liquid based on the recipe accordingly. A user device may enable a user to browse recipes of the brewing platform, view the status of the brewing system, and/or control the brewing system, among other examples.

A component of a brewing system is provided, comprising a tank; a rotary arm disposed within the tank; an inlet pipe coupled with the rotary arm; and an outlet pipe coupled with a fluid coupling system of the brew system. Additionally, a brewing system is provided, which comprises: a first and a second tank, and a fluid coupling system between the first and second tank, the first tank including: an inner cylinder and an outer cylinder; a rotary arm; an inlet pipe fluidly coupled with the rotary arm; and an outlet pipe. Further, a method is provided, comprising: receiving water into the first tank; boiling the water; receiving malt into the first tank; mashing the malt to form a mash; transferring the mash out of the first tank; receiving wort into the first tank; boiling the wort within the first tank; and transferring the wort out of the first tank.

A device and method for recovering energy from a hot medium, in particular from hot wort or hot mash for a beer brewery, including a first heat exchanger device for a heat transfer medium that is arranged in particular downstream of a device for heating, boiling or keeping wort or mash warm and is designed such that the heat transfer medium can be heated while cooling preferably wort or mash, wherein at least one heat consumer of the brewery is heated with the heat transfer medium. The heat transfer medium cooled down during heating the heat consumer can be recirculated to the first heat exchanger device in the circuit.

A mixer (I) comprising a mixing container (2) having an internal volume, capable of rotation about a rotation axis (4), the mixer (I) being characterized in that it also comprises at least one ultrasound source (31, 32, 33, 34) capable of exposing at least one portion of said internal volume to ultrasound. The mixer preferably also has a heating system (II) and/or a grid (12) separating a portion of the internal volume of the mixing container (2). The mixer is usable in particular in the brewing of beer.

A method for a multi-step supply of heat to at least one processing device in a brewhouse includes storing in an energy storage tank a heat transfer medium, which is heated by a heat recovery device before it is stored; in a first phase, supplying heat to the at least one processing device mainly by supplying the heat transfer medium from the energy storage tank to the at least one processing device; and, subsequently, in a second phase, supplying a heat amount, which increases over time, of heat of non-recuperative origin to the heat transfer medium supplied to the at least one processing device, and thus to the at least one processing device.