The present invention provides a nanoparticle mass purification system capable of purifying nanoparticles at high yield and high purify from a nanoparticle synthesis stock solution synthesized in large quantities, and reusing the used solvent by recovery, and a nanoparticle mass purification method using same.

The present invention provides a nanoparticle mass purification system capable of purifying nanoparticles at high yield and high purify from a nanoparticle synthesis stock solution synthesized in large quantities, and reusing the used solvent by recovery, and a nanoparticle mass purification method using same.

A compact and portable multi-stage centrifuge apparatus comprising a cart, a housing mounted onto the cart, and an engine mounted onto the cart adjacent to the housing, wherein the housing comprises an inlet in the top of the housing, an outlet in the wall of the housing, and a bowl contained within the housing, wherein the bowl comprises an engagement member that is operatively coupled to the engine's drive shaft, such that the bowl can be rotated by engaging the engine, thus removing undesirable materials from the bowl and out of the housing through the outlet.

The present invention includes an apparatus, method and centrifuge environmental chamber system for use in a centrifuge to induce different atmospheric paths as boundary conditions to a soil model during a centrifuge test. The invention is configured to be mounted on top of a strongbox, is based on a convection design principle, with components adapted for use in a centrifuge, and software for continuous control and data acquisition. An apparatus for a centrifuge environmental chamber can include a model strongbox including a model space, an airflow channel configured to pull air from the model space and push back the air to the model space, and a humidity nozzle placed in the model space.

A centrifuge includes light sources to provide different illumination states depending on the status of the centrifuge to communicate the status of the centrifuge. The light sources, when activated, project light in the centrifuge chamber and through the centrifuge lid. The light sources are preferably light-emitting diodes. The illumination state is visible up to at least a distance from the centrifuge at which no other visual information on the centrifuge is available. The illumination states allow staff to visually identify the status of a centrifuge from a distance and may reduce turnaround times by enabling staff to identify a completed centrifuge cycle more quickly, reduce staff time wasted checking on the status of a centrifuge, and reduce turnaround time wasted as a result of specimens sitting in a centrifuge after the centrifuge cycle has completed. Methods of communicating the status of a centrifuge are also disclosed.

Provided is a centrifugal field-flow fractionation device in which a liquid sample is less likely to leak from a channel and attachment and detachment work of a channel member is facilitated. By integrally forming an outer peripheral surface 162 and an inner peripheral surface 163 of a channel member 16, the channel member 16 is configured as one hollow member having a channel 161 formed inside. Thus, pressure resistance performance of the channel member 16 is improved, formation of a gap in the channel 161 can be prevented, and deterioration in sealing performance due to secular change is not generated. Accordingly, a liquid sample is less likely to leak from the channel 161. Further, since the channel member 16 can be handled as one member, attachment and detachment work of the channel member 16 is facilitated.

A rotary joint which supplies and discharges a liquid to and from a container which is revolved around a rotation axis, the rotary joint includes: a shaft body which is immovably provided; a tube body into which the shaft body is inserted and which is rotated around the shaft body; a shaft-side supply flow path; a shaft-side discharge flow path; a tube-side supply flow path; a tube-side discharge flow path; a supply communication flow path; and a discharge communication flow path, the tube-side supply flow path is inclined, and the tube-side discharge flow path is inclined.

A rotary joint which supplies and discharges a liquid to and from a container which is revolved around a rotation axis, the rotary joint includes: a shaft body which is immovably provided; a tube body into which the shaft body is inserted and which is rotated around the shaft body; a shaft-side supply flow path; a shaft-side discharge flow path; a tube-side supply flow path; a tube-side discharge flow path; a supply communication flow path; and a discharge communication flow path, the tube-side supply flow path is inclined, and the tube-side discharge flow path is inclined.

Extracting and separating solid particulates from a drilling fluid includes combining a stream of drilling fluid containing solid particulates with a liquefied gas to form a mixture having a reduced viscosity and/or density. The mixture enters a centrifugal separator at a pressure sufficient to keep the liquefied gas in a liquid phase where rotational forces promote the separation of at least a portion of the solid particulates from the mixture. At least a portion of the solid particulates are removed to form a fluid stream having reduced solids content. In embodiments the liquefied gas can be selected from the group consisting of an inert gas, an alkane gas, an alkene gas, an alkyne gas, a noble gas, and combinations thereof. The liquefied gas can be removed from the fluid stream after the centrifugal separator and recycled back to be mixed with the stream of drilling fluid containing solid particulates.

Extracting and separating solid particulates from a drilling fluid includes combining a stream of drilling fluid containing solid particulates with a liquefied gas to form a mixture having a reduced viscosity and/or density. The mixture enters a centrifugal separator at a pressure sufficient to keep the liquefied gas in a liquid phase where rotational forces promote the separation of at least a portion of the solid particulates from the mixture. At least a portion of the solid particulates are removed to form a fluid stream having reduced solids content. In embodiments the liquefied gas can be selected from the group consisting of an inert gas, an alkane gas, an alkene gas, an alkyne gas, a noble gas, and combinations thereof. The liquefied gas can be removed from the fluid stream after the centrifugal separator and recycled back to be mixed with the stream of drilling fluid containing solid particulates.