A centrifugal liquid separating system broadly comprises an insert cartridge including a housing, an inlet, one or more flow guides, a stator, a compression nozzle, an expansion nozzle, and an outlet. The flow guides guide liquid flowing into the inlet past the stator into the compression nozzle. The stator induces a rotational vortex into the liquid flow. Liquid with heavier particles in the liquid flow is urged to the outside of the rotational vortex. Liquid with lighter particles and cleaner liquid is urged to the inside of the rotational vortex. The compression nozzle and the expansion nozzle are aligned to cooperatively form an annular liquid channel. The liquid with the heavier particles flows through the annular liquid channel and the liquid with the lighter particles and the cleaner liquid flows to the expansion nozzle to the outlet.

An apparatus for separating water from a water-in-oil mixture having an elongated inlet vessel with a lower outlet end and an upper inlet end, the length thereof being a multiple of the largest vessel cross-sectional dimension. A separation vessel having an oil outlet and a divergent water outlet has an inlet passageway in communication with the inlet vessel lower outlet end. At least one electrode is positioned within the inlet vessel by which a mixture flowing therethrough is subjected to an electric field.

A system for extracting metals (e.g. precious metals or dangerous metals) from a substrate material such as sludge from a lake bed or sewage treatment facility includes processing the substrate material and metals by exposing the substrate material and metals to the plasma of an electric arc. Then, the exposed substrate material and metals are passed through an electrically charged collection grid in which the metals, now electrically charged, are attracted to the collection grid and hold to the collection grid and the substrate material exits the collection grid with less concentrations (or none) of the metals. In some embodiments, in addition to recovering the metals (e.g. precious metals, dangerous metals, etc.), a flammable gas is produced.

A system for extracting metals (e.g. precious metals or dangerous metals) from a substrate material such as sludge from a lake bed or sewage treatment facility includes processing the substrate material and metals by exposing the substrate material and metals to the plasma of an electric arc. Then, the exposed substrate material and metals are passed through an electrically charged collection grid in which the metals, now electrically charged, are attracted to the collection grid and hold to the collection grid and the substrate material exits the collection grid with less concentrations (or none) of the metals. In some embodiments, in addition to recovering the metals (e.g. precious metals, dangerous metals, etc.), a flammable gas is produced.

A cell sorting apparatus includes a flow channel through which fluid including cells flows, an electric-field application section capable of applying an electric field having a gradient in a direction different from the flowing direction of the fluid at a first position on the flow channel in accordance with a cell sorting signal requesting an operation to sort the cells, and a flow splitting section configured to split the cells changing their flowing directions due to a dielectrophoretic force caused by application of the electric field at a second position on the downstream side of the first position on the flow channel.

This disclosure provides for an improved electrostatic filtration system for removing contaminants from a dielectric fluid that overcomes arcing concerns, resistance burns and fluid flow concerns. The system has three major elements: an electrostatic filtration cartridge; an electrostatic filtration cartridge housing; and an electrostatic filtration system housing. It is within the electrostatic filtration cartridge where the apparatus and method for addressing the arcing concerns and fluid flow concerns reside. The electrostatic filtration cartridge includes at least one set of m conductive plates (m set) and at least one set of n conductive plates (n set). Within the sets (m set and n set) of conductive plates, the conductive plates are directly coupled by a series of conductive connecting portions. Each individual conductive plate includes a cutaway portion to avoid electrical contact between one set of conductive plates and an adjacent conductive connecting portion within another set of conductive plates.

This disclosure provides for an improved electrostatic filtration system for removing contaminants from a dielectric fluid that overcomes arcing concerns, resistance burns and fluid flow concerns. The system has three major elements: an electrostatic filtration cartridge; an electrostatic filtration cartridge housing; and an electrostatic filtration system housing. It is within the electrostatic filtration cartridge where the apparatus and method for addressing the arcing concerns and fluid flow concerns reside. The electrostatic filtration cartridge includes at least one set of m conductive plates (m set) and at least one set of n conductive plates (n set). Within the sets (m set and n set) of conductive plates, the conductive plates are directly coupled by a series of conductive connecting portions. Each individual conductive plate includes a cutaway portion to avoid electrical contact between one set of conductive plates and an adjacent conductive connecting portion within another set of conductive plates.

The present invention relates to a method of sorting particles in a stream of carrier fluid, the method comprising: introducing a stream of carrier fluid containing a mixture of particles into a stream of sheath fluid flowing within a flow channel so as to focus the carrier fluid into a core stream; detecting a particle of interest within the core stream of carrier fluid at a point of detection within the flow channel; applying a potential difference between a first electrode and one or more additional electrodes so as to generate a divergent electric field localised around a tip of the first electrode, wherein the tip of the first electrode is positioned inside of the flow channel or adjacent to the flow channel in a position in which the divergent electric field is experienced by the sheath fluid and carrier fluid within the flow channel, and subsequently terminating application of the potential difference, wherein the potential difference is applied in response to the detection of a particle of interest, the applied potential difference being sufficient to generate a centripetal force on a volume of carrier fluid within the divergent electric field, said volume of carrier fluid containing the particle of interest, so as to displace said volume of carrier fluid in a direction having a component orthogonal to the direction of flow, such that the particle of interest is diverted into a desired outlet of the flow channel.

Methods, systems and kits are described herein for detecting the results of an assay. In particular, the methods, systems and devices of the present disclosure rely on a difference between the diffusion rates of a reporter molecule and an analyte of interest in order to quantify an amount of analyte in a microfluidic device. The analyte may be a secreted product of a biological micro-object.

Methods and apparatus for the selection or processing of particles sensitive to the application of an external stimulus to rupture/lysis at least one selected particle or the fusion of first and second selected particles are disclosed herein. Particles are organized using a first field of force by selectively energizing electrodes of an array of selectable electrodes having dimensions comparable to or smaller than those of the particles. A first configuration of stresses is applied to the electrodes; and then a second configuration of stresses is applied to the electrodes, so as to create a second field of force, located substantially close to at least one selected particle to be lysated or to a pair of first and second particles to be fused and such as to produce the application of a stimulus suited to produce their lysis or fusion.