An apparatus for mixing bone cement for use in orthopedic surgeries includes a mixing region and an agitator for mix the cement ingredients. A temperature sensing means of apparatus determines when that the cement mix can no longer be used. The apparatus can be operated or acted on by a power tool for the mixing of the bone cement. The power tool and/or mixing apparatus may include a mechanical torque limiter that inhibits the agitator as a result of mixing torque exceeding a threshold value. A timer of the apparatus may be started by a sensor of the apparatus or by the user in response to a mechanical torque value. When the timer is complete, a cue by the apparatus signals to the user that the mixed cement is ready and able to be applied.

Systems and methods that implement a GUI functional block that allows a user to specify a compounding formula for a composition, an ingredient validation functional block configured for receiving a code on a container holding a first ingredient, consulting a database to derive a formulation ingredient to be used in preparing the composition, determining if the first ingredient matches the formulation ingredient, a planetary mixer control functional block configured for consulting the database arrangement at least partly on a basis of the specified compounding formula to determine mixing parameters for a planetary mixer that are associated with the specified compounding formula, causing a motor assembly of the planetary mixer to apply superimposed rotation and revolution movements to a container in accordance with the mixing parameters determined from the consulting, preventing operation of the motor assembly if the determining step fails to match the first ingredient to the formulation ingredient.

The present disclosure refers to a filling machine and to a method for filling a foodstuff which comprises at least two components to be mixed, particularly for sausage production. The foodstuff may be filled into a filling hopper of the filling machine and thoroughly mixed with a mixing cam. The mixing cam may be driven via its own drive at different speeds according to a specific speed profile while the foodstuff is conveyed out of the lower portion of the filling hopper via a conveying mechanism and is filled via a filling unit.

In one embodiment, the present system describes a system wherein a first fluid is within a tank. An intermittent mixer is used for agitating the first fluid within the tank. At least one data acquisition device within the tank is capable of measuring at least one characteristic within the first fluid. In the embodiment, at least one data analyzer is capable of receiving the characteristics within the first fluid, comparing the characteristics within the first fluid to the characteristics of a second fluid, generating a data packet which contains a calculated operational speed and an operational time needed for the intermittent mixer to agitate the first fluid to obtain the characteristics of the second fluid and transmitting the data packet to the intermittent mixer. In this system the intermittent mixer is capable of altering the first fluid within the tank into the second fluid.

An information processing device includes: an information acquiring part configured to acquire plating process information including operational motion information including target paddle motion information indicating an agitating motion of a target paddle corresponding to a paddle to be processed, plating solution motion information indicating a motion of supplying a plating solution to a plating tank, and carrier machine motion information indicating a motion of carrying a substrate and operational-motion paddle vibration information indicating vibration characteristics of the target paddle when an operational motion is performed, the motions being operational motions performed by a substrate plating device; and an information generating part configured to generate agitating-motion paddle vibration information in response to the plating process information by inputting the plating process information acquired by the information acquiring part to a learning model which has learned a correlation between the plating process information and the agitating-motion paddle vibration information using machine learning.

The present invention relates to a system and process for a nutraceutical beverage compounding system and methods for the same. Provided is a customizable supplement beverage system and method for personalizing and operating the same to a particular user and optionally for operative tracking. Proposed additionally is an operative system for receiving and individually identifying a concentrate or supplement combinations, for mixing the same prior to a use, and for dispensing the same for use, and for tracking control factors relating to the same.

Systems and methods that implement a GUI functional block that allows a user to specify a compounding formula for a composition, an ingredient validation functional block configured for receiving a code on a container holding a first ingredient, consulting a database to derive a formulation ingredient to be used in preparing the composition, determining if the first ingredient matches the formulation ingredient, a planetary mixer control functional block configured for consulting the database arrangement at least partly on a basis of the specified compounding formula to determine mixing parameters for a planetary mixer that are associated with the specified compounding formula, causing a motor assembly of the planetary mixer to apply superimposed rotation and revolution movements to a container in accordance with the mixing parameters determined from the consulting, preventing operation of the motor assembly if the determining step fails to match the first ingredient to the formulation ingredient.

Apparatuses and systems and methods implementing the apparatuses and systems include a blender base unit having an rpm sensor and the methods determines a minimum rpm value that is converted to a shear rate, a fluid velocity rate, and an estimated maximum fracture width.

A computer-implemented method for execution by a processor of a computing device. The method comprises implementing a computerized graphical user interface (GUI) that provides a user of the computing device with an opportunity to identify a pharmaceutical compounding formula; consulting a database at least partly on a basis of the identified pharmaceutical compounding formula in order to determine mixing parameters for a planetary mixer, associated with the identified pharmaceutical compounding formula; and causing a mixer to subject a container to superimposed rotation and revolution movements in accordance with the mixing parameters determined from consulting the database.

Biosolids conversion systems and methods are provided. Wastewater may be received and separated into a separated water component and a dewatered solids component on-site at or near a wastewater source. The separated water components may be treated on-site using an ancillary water treatment process. The dewatered solids may be converted to a biosolid with aid of one or more oxidizers and a blending chamber. The dewatered solids may be converted to a biosolid on-site at or near a wastewater source or may be converted to a biosolid off-site at a central solids processing facility.