This disclosure relates to equipment utilized to manufacture chemical agents, particularly biopharmaceuticals. In some embodiments, reactor systems comprising a mobile carriage assembly; a disposable reaction container removably attached to the carriage assembly; and, a carriage holder into which the mobile carriage assembly may be removably inserted are provided.

A manual mixer serves to facilitate mixing and agitating materials for use during surgery. For example, the manual mixer includes a body portion defining an interior area, a mixing assembly provided in the interior area of the body portion, a crank assembly for actuating the mixing assembly, and a valve assembly. The mixing assembly serves to mix and agitate the materials provided in the interior through rotation of a plunger portion and a spring attached thereto, and through upwards and downwards movement of the plunger portion in the interior area. Rotation of the crank assembly serves to rotate the plunger portion and the spring attached thereto, and effectuate upwards and downwards movement of the plunger portion. The valve assembly can be opened to facilitate dispensing of the materials from the interior area.

A manual mixer serves to facilitate mixing and agitating materials for use during surgery. For example, the manual mixer includes a body portion defining an interior area, a mixing assembly provided in the interior area of the body portion, a crank assembly for actuating the mixing assembly, and a valve assembly. The mixing assembly serves to mix and agitate the materials provided in the interior through rotation of a plunger portion and a spring attached thereto, and through upwards and downwards movement of the plunger portion in the interior area. Rotation of the crank assembly serves to rotate the plunger portion and the spring attached thereto, and effectuate upwards and downwards movement of the plunger portion. The valve assembly can be opened to facilitate dispensing of the materials from the interior area.

A mixing bowl for a stand mixer includes a body defining an interior and an exterior. The body has first and second mounting flanges extending outwardly from opposite sides of the exterior and defining respective cavities open at least on bottom sides of the mounting flanges. The mixing bowl further includes first and second inserts fixedly received in the respective cavities of the first and second mounting flanges. The inserts define respective pin holes for receiving mounting pins of a bowl-lift mechanism of the stand mixer, the first and second pin holes being located relative to each other at a first tolerance and relative to the respective first and second flanges at a second tolerance lower than the first tolerance.

A mixing bowl for a stand mixer includes a body defining an interior and an exterior. The body has first and second mounting flanges extending outwardly from opposite sides of the exterior and defining respective cavities open at least on bottom sides of the mounting flanges. The mixing bowl further includes first and second inserts fixedly received in the respective cavities of the first and second mounting flanges. The inserts define respective pin holes for receiving mounting pins of a bowl-lift mechanism of the stand mixer, the first and second pin holes being located relative to each other at a first tolerance and relative to the respective first and second flanges at a second tolerance lower than the first tolerance.

A method of transporting solid refinery waste includes loading solid refinery waste into a mobile tank having at least one sloped floor wall and a plurality of compartments separated by at least one buffer. The method may also include maintaining a head space between a top level of the solid refinery waste and a top wall of the mobile tank. The method may also include delivering the mobile tank to a burning facility that maintains a reserve of diluent and that is equipped with an agitator configured for lowering into the mobile tank through a manhole opening, to thereby permit the diluent to be conveyed into the headspace and mixed with the solid refinery waste, thereby enabling a resulting mixture to be off-loaded for burning at the burning facility.

A device and to the use thereof for mixing material to be mixed. A method for providing material to be mixed has the following steps: provision of a container with a single container opening and an inner chamber which contains an initial filling, surrounding the container with a jacket, introduction of a mixer such that the mixer protrudes into the inner chamber of the container, wherein the mixer is connected to a drive unit or the mixer can be connected to a drive unit in a subsequent step, rotary driving of the mixer using the drive unit in order to provide the material to be mixed by mixing the initial filling, removal of the mixer from the inner chamber of the container, separation of container and jacket in order to provide the container with all of the material to be mixed located inside, for consumption.

A blender for home or commercial use that is rugged enough to blend frozen beverages, simple to use and safe. The blender includes an upper housing with a front housing door that covers the moving blending machinery. The blender also includes a cupholder receiving area which allows the user to safely insert a frozen food or beverage cup inside a cupholder for blending. After the start button is pressed, the cup and cupholder will be lifted together for blending in a balanced, linear motion by an elevator assembly. Dual lead screws or a dual belt drive are preferably used in the elevator assembly to achieve this balanced, linear motion. As the cupholder is lifted upward, a cover will be pressed over the top opening of the inserted cup to prevent spillage during blending. The elevator assembly continues to lift the cupholder upward until the rotating cutter blades of a spindle assembly cut through successive layers of the frozen food or beverage. To facilitate cleaning, the spindle assembly is preferably removable from the blender through use of a quick release coupling mechanism.

This disclosure relates to equipment utilized to manufacture chemical agents, particularly biopharmaceuticals. In some embodiments, reactor systems comprising a mobile carriage assembly; a disposable reaction container removably attached to the carriage assembly; and, a carriage holder into which the mobile carriage assembly may be removably inserted are provided.

A pharmacy formulation preparation system (2) for preparing individual pharmaceutical formulations such as formulations for ointments, semisolid preparations, eye drops, lotions, pills, capsules or teas in quantities of up to 5 kg, according to the invention comprises: reading means (8); weighing means (12); mixing means (14), in particular a stirrer having a drive and a mixing container; display means (10); a data processing unit (4) adapted to have access to data in a pharmacy-associated stock database area (6); a preparation database (18) comprising composition information; and that for the read-in individual prescription data of an individual prescription, by accessing the preparation database (18), the raw materials required for preparing the individual prescription and the respective quantities thereof as well as the time period, the processing devices and the procedure parameters of the mixing procedure can be determined.