The present invention relates to a method (300) for reducing an amount of microorganisms in brewers spent grains (BSG). The method (300) comprises feeding (S305) a liquid (120) and the BSG (110) into a mixing arrangement (130), mixing (S310), by means of the mixing arrangement (130), the liquid (120) and the BSG to form a mixture, feeding (S330) the mixture into a heat exchanger (140), and heating (S335), by means of the heat exchanger (140), the mixture for a predetermined period of time at a predetermined temperature such that the amount of microorganisms in the BSG (110) is reduced.

The present disclosure relates to a reconstitution device for reconstituting a medicament, the reconstitution device comprising: a base, a carrier movably arranged on the base, and a mount for a medicament container, wherein the mount is movably arranged on the carrier.

The present disclosure relates to a reconstitution device for reconstituting a medicament, the reconstitution device comprising: a base, a carrier movably arranged on the base, and a mount for a medicament container, wherein the mount is movably arranged on the carrier.

A combination plunger, a mixing device and a mixing syringe including the same are provided. The mixing syringe includes concentric outer and inner barrels that form an outer chamber, the inner barrel having an inner chamber. The combination plunger includes a mixing plunger and a delivery plunger and a biasing means. The mixing plunger is slidably located in the outer chamber and translated by coordinated depression of the delivery plunger to transfer a first substance from the outer chamber to mix with a second substance in the inner chamber. After the mixing stage is complete, the delivery plunger is disengaged from the mixing plunger and permitted, such as by rotation, to be further depressed in the axial direction to deliver fluid contents of the mixing syringe to a recipient. The mixing syringe needle is then retracted as result of engagement by the delivery plunger and activation of the biasing means.

Apparatus and methods for designing a system that measures deflection at multiple points and in various axes and how it relates to flow measurement are described. A system for continuously measuring the mass flow of a media includes one or more cartridges, one or more displacement sensing devices, and a processor. The one or more cartridges are connected serially between an inflow and outflow media pipe. The one or more displacement-sensing devices is configured to detect displacement changes of the one or more cartridges at two or more separate points on the cartridge(s) when the media flows through the cartridge(s). The processor is configured to calculate the flow of the media based on the detected displacement changes of the one or more cartridges at the one or more separate points.

An agitation control system of an agricultural system. The agitation control system includes an agitator that induces movement of particulate material through the agricultural system. An agitator motor couples to the agricultural system to move the agitator. A first motor couples to the agitation control system. The first motor includes a first sensor that detects a first temperature of the first motor and emits a first signal indicative of the first temperature. A controller couples to the agitator motor and to the first motor. The controller receives the first signal indicative of the first temperature from the first sensor and determines an ambient temperature from the first temperature. The controller controls the agitator motor in response to the ambient temperature.

A preparation apparatus includes a first tank, a second tank, a preparation tank, and a computer having a hardware processor. The first tank contains a first liquid. The second tank contains a second liquid having a lower viscosity than the first liquid. The preparation tank stirs the first liquid supplied from the first tank and the second liquid supplied from the second tank to prepare a preparation liquid. The hardware processor measures a viscosity of the first liquid based on a supply time required to supply a specified amount of the first liquid at a constant pressure from the first tank to the preparation tank, and supplies an amount of the second liquid to the preparation tank based on the measured viscosity of the first liquid so as to cause the preparation liquid to have a target viscosity.

Dilute chemical solution production device has a plunger pump and a chemical solution supply pipe that supply a chemical solution from a chemical solution reservoir. The end of the chemical solution supply pipe serves as an injection point for the chemical solution. The chemical solution supply pipe is inserted to an approximately central position in the radial direction of an ultrapure water passage, which is a first pipe, via a bore-through joint. Conductivity meter as a conductivity measuring means is provided on the downstream side of the bore-through joint, which serves as the injection point, and is connected to the previously described control means so that the plunger pump can be controlled in accordance with the measured value of the conductivity meter. The dilute chemical solution production device is capable of producing, with a simple structure, a dilute chemical solution having an extremely low concentration of acid/alkali or the like.

A device (1) for producing a solution of at least one liquid first medium and at least one second medium has a first container (2) for the first medium and a second container (3) for the second medium. Each container (2, 3) is connected to a supply line of a static mixer (9) via a pump (4, 5) that can be regulated by a controller (6). A sensor (10) is connected to the controller (6) downstream of the static mixer (9) in the flow direction. A branching valve (17) is downstream of the static mixer (9) in the flow direction and is controlled by the controller (6). A sterile filter (11) is downstream of the static mixer (9) and has an RFID tag (15) that stores process-relevant data to at least be read by the controller (6). A method also is provided for producing a solution using the device.

A cleaning chemical liquid supply device includes: first and second mixers respectively mixing first chemical liquid with dilution water and respectively supplying to first and second nozzles respectively supplying the first chemical liquid adjusted to desired flow rates and concentrations to a first position and a second, different position of the substrate in the cleaning device; a first dilution water control box controlling flow rates of the dilution water supplied to the first and second mixers; third and fourth mixers respectively mixing second, different chemical liquid with the dilution water and respectively supplying to third and fourth nozzles for respectively supplying the second chemical liquid adjusted to desired flow rates and concentrations to a third position and a fourth, different position of the substrate in the cleaning device; and a second dilution water control box controlling flow rates of the dilution water supplied to the third and fourth mixers.