A system for processing foodstuffs includes a chamber including foodstuffs, a blade assembly, and a processor. The blade assembly includes blades configured to rotate within the chamber based on initiation of a blend cycle. The processor is configured to determine a trigger event to initiate a cleaning cycle of the blade assembly to remove foodstuffs remaining in the chamber, and execute the cleaning cycle, responsive to detecting the trigger event, by causing fluid to be injected into the chamber, causing the blades of the blade assembly to rotate for a predetermined amount of time, and cause removal of at least a portion of the fluid and the remaining foodstuffs from the chamber.

A fluids delivery system may include a mixing system configured to deliver a fluid to a wellbore; a dry component delivery system configured to deliver a dry component to the mixing system; a liquid additive system configured to deliver a liquid component to the mixing system; and a controls system configured to control the mixing system, the dry additive system and the liquid additive system to produce the fluid.

A process for injecting an immiscible liquid stream comprising a co-catalyst for a hydrocarbon conversion into a larger liquid stream that is an ionic liquid catalyst for the hydrocarbon conversion, comprising: a. feeding the immiscible liquid stream towards one or more injection quills in an additive delivery system comprising a transfer drum; b. transferring the immiscible liquid stream from the additive delivery system to the one or more injection quills in a solvent flushing system, fluidly connected downstream from the additive delivery system, wherein the solvent flushing system injects a solvent into one or more additive addition lines in the solvent flushing system; and c. continuously injecting the immiscible liquid stream into the larger liquid stream in an additive injection and mixing system comprising the one or more injection quills.

A system for processing foodstuffs includes a container platform, a blade platform, and a locking mechanism. The container platform defines a container receptacle configured to receive a container including foodstuffs. The blade platform includes blades configured to rotate to process the foodstuffs. The locking mechanism is configured to couple the container platform to the blade platform to form a blending chamber including the blades and the container subsequent to determining that the container is received by the container receptacle and prior to rotation of the blades.

A fluid handling apparatus for ejecting fluid into a tank and draining fluid from the tank comprises: a fluid duct for draining/supplying fluid from/to the tank, the fluid duct configured for fluid communication with a tank opening at a tank bottom; a fluid inlet pipe for supplying fluid to the tank, the fluid inlet pipe extending at least partly through the fluid duct and configured to extend through the tank opening into the tank; a rotary fluid ejection device in fluid communication with the fluid inlet pipe; and a rotary drive shaft extending at least partly inside the fluid inlet pipe, the rotary drive shaft being rotatably connected to the rotary fluid ejection device. Also disclosed is a fluid tank system comprising a tank and a fluid handling apparatus, and a method for mixing beer or wort with solid hops material in a tank by a fluid handling apparatus.

A method of producing plant milk enable batch production and may be implemented in a system of low complexity. The method comprises introducing water, plant material and one or more enzymes into a mixing chamber of a mixing unit; operating the mixing unit to generate a slurry that comprises the water, the plant material and the one or more enzymes; transferring the slurry from the mixing unit to a separation unit, which separates the slurry into a liquid component and a sludge component; transferring the liquid component into the mixing chamber of the mixing unit; adding vegetable oil to the liquid component; and operating the mixing unit to produce, in the mixing chamber, plant milk that comprises the vegetable oil and the liquid component.

Apparatus (100, 200, 300, 400, 500, 600) for customized production of a flavoring agent, the apparatus too, (200, 300, 400, 500, 600) comprising: a retainer (110, 210, 310, 610) for retaining at least two containers (10), each container (10) comprising a respective flavoring agent; a collecting and dispensing unit, e.g. a manipulator (120, 220, 320), for collecting and dispensing flavoring agents; a mixer (130, 230, 330) for mixing flavoring agents for obtaining a new flavoring agent; a control-unit (140) for controlling at least the collecting and dispensing unit (120, 220, 320) and the mixer (130, 230, 330), and a communication unit for communicating with a remote server (41) and/or remote device 20, wherein the control-unit (140) is configured such that the collecting and dispensing unit (120, 220, 320) collects and dispenses a first defined amount of flavoring agent from a first container (10) to the mixer (130, 230, 330), the collecting and dispensing unit (120, 220, 320) collects and dispenses a second defined amount of flavoring agent from a second container (10) to the mixer (130, 230, 330), and the mixer (130, 230, 330) mixes the first and second defined amount of flavoring agents inside of the mixer (130, 230, 330) for producing the new flavoring agent. The invention further relates to a system with such an apparatus, a corresponding process as well as to a container for such an apparatus, system and process.

An apparatus to realize personalized cosmetic compositions including a formula supply assembly having a plurality of additive reservoirs that contains a plurality of additive substances, a plurality of additive pumps that supplies selected additive quantities of the plurality of additive substances, a base reservoir that contains a base substance, and a base pump that supplies a base quantity of the base substance and a mixing assembly having an additive inlet that receives the selected additive quantities, a base inlet that receives the base quantity, and a mixing channel that mixes the additive quantities with the base quantity to form the personalized cosmetic compositions.

Methods and systems for conveniently producing fresh smoothies, which can be tailored to the particular nutritional requirements and desires of the individual customer. The system is typically a semi-automatic or fully automatic system and may be in the form of a vending machine for smoothies. It allows a consumer to select ingredients and other options, and provides a freshly-made smoothie in a short amount of time. The system generally includes a user input apparatus for receiving orders and customer preferences, and then makes a smoothie to order, delivers the smoothie to the customer, and cleans the blending device.

Devices and methods mix a bone cement and comprise at least one cartridge, wherein the cartridge comprises in its interior a cylindrical mixing chamber, a discharge piston movable in the cylindrical mixing chamber in the longitudinal direction and sealable against the walls of the mixing chamber, a mixing device for thoroughly mixing the content of the mixing chamber, which is arranged in the interior of the mixing chamber. The mixing device is operable externally via a mixing rod and the mixing rod is guided through a passage in the discharge piston such that it can be rotated and displaced in the longitudinal direction by the discharge piston. The cartridge comprises a discharge opening opposite the discharge piston, wherein, in the mixing chamber, a first component is contained between the discharge piston and the discharge opening, wherein a monomer fluid as a second component is introducable through the discharge opening into the mixing chamber. The device further comprises a locking element with which the mixing rod is affixable to the discharge piston such that the discharge piston is movable by means of the mixing rod in the mixing chamber in the longitudinal direction.