The disclosure describes methods and devices with which to process and analyze difficult chemical, biological, environmental samples including but not limited to those containing bulk solids or particulates. The disclosure includes a cartridge which contains a separation tube as well as one or more valves and cavities for receiving raw sample materials and for directing and containing various fluids or samples. The cartridge may contain a separation fluid or density medium of defined density, and structures which direct particulates toward defined regions of the cartridge. Embodiments can include a rotational device for rotating the cartridge at defined rotational rates for defined time intervals. Embodiments allowing multiple assays from a single sample are also disclosed. In some embodiments, this device is used for direct processing and chemical analysis of food, soil, blood, stool, motor oil, semen, and other samples of interest.

A device for producing a bone cement dough from a monomer liquid and a cement powder and dispensing the bone cement dough. The device includes a cartridge holding the cement powder in an internal space. A monomer receptacle screws onto the cartridge, forms a chamber, and has a plunger with a passage that is permeable to gases and the monomer liquid but is impermeable to the cement powder and that connects the internal space to the chamber. The plunger tightly closes the internal space with the exception of the passage. A gas supply opening is arranged in the wall of the monomer receptacle. A monomer liquid container holds the monomer liquid and is located in the chamber. An opening facility opens the container, and closes the gas supply opening before opening the container. Also provided is a method for producing and dispensing the bone cement dough.

A storage container for hydrocarbon fluid includes a mixing device having a sacrificial coating to protect against abrasion of the protective coating along the container wall during mixing.

The present application relates to the technical field of liquor sets, and specifically relates to an unblended liquor and assembly convenient for liquor mixing, and a liquor mixing method for improving liquor tasting culture. The unblended liquor convenient for liquor mixing comprises a liquor bottle. The upper portion of the inner cavity of the liquor bottle is a liquor mixing cavity, wherein the liquor mixing cavity is used for providing an expansion space for a drinker to perform liquor mixing as desired, and for accommodating liquor mixing liquids. The lower portion of the inner cavity of the liquor bottle is an unblended liquor cavity, wherein unblended liquor is packaged in the unblended liquor cavity. The outer sidewall of the liquor bottle is circumferentially provided with at least one set of liquor mixing scales.

A cartridge for mixing and injecting bone cement includes a body including a cylindrical member, a first coupler and a second coupler at a first open end and a second open end of the cylindrical member, respectively, a first opening/closing member detachably coupled with the first coupler, a second opening/closing member detachably coupled with the second coupler, and a mixing ball in an internal space of the body. A bone cement mixing and transferring system includes the cartridge having powder and liquid components of bone cement inserted and mixing the powder and liquid components, an injection tube coupled with the cartridge after removing the first opening/closing member from the cartridge, and a cement gun mounted to a rear side of the second opening/closing member, the cement gun applying pressure for injecting bone cement mixed in the cartridge into an area to be treated via the injection tube.

An integrated at least two component mixing and delivery system and method for creating a new mixture from a first component contained within a first enclosure and a second component contained within a second enclosure that is contained within the first enclosure and, via a series of operations that mix the two components and enable the application of through an applicator tip the placement of the new mixture on at least one surface or a portion thereof.

A handheld device for mixing a liquid and a gas to form foam before a treatment procedure comprises: an inlet for letting a liquid enter the device, the inlet adapted for attachment to a syringe containing the liquid, an outlet for letting a formed foam exit the device, a chamber containing a gas, the chamber comprising the inlet and outlet, at least one agitation element disposed in the chamber, the at least one agitation element is arranged for independent movement in at least one degree of freedom, the at least one agitation element sized and shaped to mechanically agitate liquid flowing past the at least one agitation element, the liquid flowing in an overall inlet-to-outlet direction, the agitation being sufficient for the at least some of the liquid to mix with the gas to produce the formed foam; the device is dimensioned for holding in one hand.

Methods and systems for magnetic mixing. Particular embodiments relate to applying a magnetic field to move a magnetically responsive component in a chamber.

Embodiments of the present technology may include a system for forming an emulsion. The system may include a coiled tube. The coiled tube may have a first end and a second end. The second end may be located at a position higher than the position of the first end. The system may also include a plurality of beads disposed within the coiled tube. The system may further include a first inlet fluidly connected to the coiled tube. The first inlet may be configured to deliver a first fluid to the first end before the second end. In addition, the system may include a second inlet fluidly connected to the coiled tube. The second inlet may be configured to deliver a second fluid to the first end before the second end.

To sum up, by using the shaker for mixing liquids (1-7) (e.g. shampoo, soap, etc) with water right before use, an optimal dose of the liquid is used and appropriate solution is used. A dissolved mixture is applied to the hair/body to most significant part immediatelythe hair roots and the scalp. It works beneficial for the hair, especially the hair ends, preventing dry and split ends as the e.g. shampoo is not applied directly. The mixture is distributed more evenly throughout the hair, without adding additional water and washing out the unused shampoo. The foam evolves quicker and is greater, which makes the washing easier. The shaker enables the user to use multiple liquids at once if needed. The amount of the liquid used is decreased to an optimal dose for the user and is therefore also eco-friendly, as no excessive amount of liquid is used. The invention enables the user to close tap water/shower during use and therefore uses less water and is eco-friendly. With same advantages the shaker is used in pet care and with other liquids.