An embalming machine for mixing of fluids and cleaning of a reservoir may include a reservoir. The embalming machine may include a tube extending from a lower portion to an upper portion of the reservoir, the tube providing a pathway for fluid to travel to the reservoir. The embalming machine may include a port connected to an end of the tube adjacent to the upper portion of the reservoir, the port being configured to dispense the fluid traveling through the tube and into an interior of the reservoir.

An embalming machine for mixing of fluids and cleaning of a reservoir may include a reservoir. The embalming machine may include a tube extending from a lower portion to an upper portion of the reservoir, the tube providing a pathway for fluid to travel to the reservoir. The embalming machine may include a port connected to an end of the tube adjacent to the upper portion of the reservoir, the port being configured to dispense the fluid traveling through the tube and into an interior of the reservoir.

Provided are systems, methods, and apparatuses directed to a container for storing a liquid, the container including a textured surface configured to increase the liquid's dissolved oxygen content, the textured surface having fluid-obstructions configured to disrupt a flow of the liquid in at least one direction, said disruptions being effective to decrease a surface tension associated with the liquid and increasing a surface area associated with the liquid.

A blender bottle system includes a bottle structure forming an inner volume. Liquid is to be disposed in the inner volume. The blender bottle system further includes a lid structure configured to releasably interface with the bottle structure. The lid structure includes a spout portion forming an opening. The blender bottle system further includes an actuation structure configured to be moved by a user relative to the bottle structure. The actuation structure includes one or more metallic components. The blender bottle system further includes an agitator structure disposed in the bottle structure. The agitator structure and the actuation structure are magnetically attracted to each other. The agitator structure is configured to mix the liquid in the bottle structure responsive to the actuation structure being moved relative to the bottle structure.

A blender bottle system includes a bottle structure forming an inner volume. Liquid is to be disposed in the inner volume. The blender bottle system further includes a lid structure configured to releasably interface with the bottle structure. The lid structure includes a spout portion forming an opening. The blender bottle system further includes an actuation structure configured to be moved by a user relative to the bottle structure. The actuation structure includes one or more metallic components. The blender bottle system further includes an agitator structure disposed in the bottle structure. The agitator structure and the actuation structure are magnetically attracted to each other. The agitator structure is configured to mix the liquid in the bottle structure responsive to the actuation structure being moved relative to the bottle structure.

A mixing system for use in a process bottle for mixing its contents, the mixing system including a low volume magnetically-driven mixer mounted at the bottom of the bottle. The mixer may have vanes and lower grooves, or no vanes and grooves on both upper and lower faces. The mixer has a microsized three-dimensional solid inanimate body to enable insertion through relatively small mouth openings at the top of conventional reactor bottles. Methods of assembly are also disclosed which involve passing the microsized mixer through an open mouth of a process bottle and coupling the mixer with a bearing assembly at the floor of the bottle. The bearing assembly includes fixtures sealed around a hole in the floor of the bottle.

A mixing system for use in a process bottle for mixing its contents, the mixing system including a low volume magnetically-driven mixer mounted at the bottom of the bottle. The mixer may have vanes and lower grooves, or no vanes and grooves on both upper and lower faces. The mixer has a microsized three-dimensional solid inanimate body to enable insertion through relatively small mouth openings at the top of conventional reactor bottles. Methods of assembly are also disclosed which involve passing the microsized mixer through an open mouth of a process bottle and coupling the mixer with a bearing assembly at the floor of the bottle. The bearing assembly includes fixtures sealed around a hole in the floor of the bottle.

The present disclosure relates to a mixing system that includes an injector body comprising a first flow path configured to transmit a motive fluid, a second flow path configured to transmit a granular material, and a diffuser configured to transmit and mix the motive fluid of the first flow path with the granular material of the second flow path. A flexible vessel includes a closed end, an open end, and an interior volume configured to hold a granular material. The open end is configured to couple to the injector body at or adjacent the second flow path. A pressurized fluid inlet is configured to fluidly couple to the second flow path and configured to transmit a pressurized fluid to at least one of the interior volume of the flexible vessel and the second flow path.

A blender apparatus includes a cup cover, a bottom cover, a cup body and a blade assembly. The cup body includes an inner cavity. The cup body includes a first port above the inner cavity. The cup body includes a second port below the inner cavity. The first port is detachably connected to the cup cover. The blade assembly includes a blade and a motor and a blade housing. The blade assembly includes an operation state and a storage state. In the operation state, the blade of the blade assembly is inserted into the inner cavity through the second port of the cup body for cutting and mixing objects placed in the inner cavity.

A blender apparatus includes a cup cover, a bottom cover, a cup body and a blade assembly. The cup body includes an inner cavity. The cup body includes a first port above the inner cavity. The cup body includes a second port below the inner cavity. The first port is detachably connected to the cup cover. The blade assembly includes a blade and a motor and a blade housing. The blade assembly includes an operation state and a storage state. In the operation state, the blade of the blade assembly is inserted into the inner cavity through the second port of the cup body for cutting and mixing objects placed in the inner cavity.