A filter flow management system includes a cartridge having an inlet through which fluid flow can be introduced to the cartridge, a plurality of channels situated within the cartridge and designed to remove particulates from the fluid flow, at least one channel being in fluid communication with the inlet to receive the fluid flow, and a reservoir into which fluid flow flowing through the at least one channel can be directed and subsequently redirected into at least one other channel.

The reverse osmosis centrifuge converts rotational energy into fluid velocity and conserves the energy placed into the concentrate. As concentrate travels back towards the center of the reverse osmosis centrifuge, the velocity of the fluid is converted into rotational force, thus conserving energy. To accomplish this, the reverse osmosis centrifuge includes a stationary cylindrical housing having a vacuum chamber and a vacuum pump for generating vacuum pressure in the vacuum chamber, a driveshaft coupled to a membrane cylinder rotatable within the stationary cylindrical housing, the membrane cylinder having a plurality of vertical desalination membranes, and an energy recovery turbine. The reverse osmosis centrifuge can be placed on the concentrate or waste stream outlet of a desalination or reverse osmosis facility to increase freshwater production. Through using the methods described above, plant water production can be increased up to 40%, which in turn has a dramatic effect on plant profitability.

A dialyzer composed of: first and second dialyzation chambers, and an intermediate chamber interposed between the first and second dialyzation chambers. Each of the chambers has a respective one of a blood inlet or outlet and a dialysate inlet or outlet arranged so that blood and dialysate flow in counter-current to one another in both chambers. The intermediate chamber is connected to form a dialysate-free blood flow passage between the blood chambers and is configured to maintain a substantially uniform blood flow.

A purification system for a colloidal dispersion containing an unwanted dissolved substance in the dispersing liquid phase is described which includes a back-pressure regulating feature, disposed in a first conduit and downstream of a semi-permeable filter element. This is used to force a portion of the unpurified dispersing liquid across the filter element and into a second conduit. The second conduit is associated with an adsorptive element that serves to remove the unwanted dissolved substance from the filtered portion of the dispersing liquid. A mixing chamber is disposed downstream of the back-pressure regulating feature whereby the purified dispersing liquid portion from the second conduit rejoins the bulk flow of the colloidal dispersion passing through the first conduit. In a preferred embodiment, hollow fibers are used which serve as the back-pressure regulating feature, the adsorptive element, and the mixing chamber before being discharged at the outlet of the device.

The invention relates to a membrane distillation device, comprising at least one condensation/evaporation stage, which comprises at least one condensation unit and at least one evaporation unit and to which vapor is fed and through which a liquid to be concentrated flows, wherein each condensation unit comprises a first vapor chamber that is bounded at least partially by a condensation wall and to which the fed vapor is supplied and each evaporation unit comprises a second vapor chamber that is bounded at least partially by a vapor-permeable, liquid-tight membrane wall, and in each condensation/evaporation stage at least one flow channel is provided, which is formed between such a condensation unit and such an evaporator unit adjacent to said condensation unit and which conducts the liquid to be concentrated, and thus the liquid to be concentrated is heated by means of the condensation wall, and vapor arising from the liquid to be concentrated enters the second vapor chamber through the membrane wall. At least one condensation/evaporation stage is expanded by an integrated apparatus for preheating the liquid to be concentrated, which apparatus comprises at least one additional vapor chamber, to which the vapor fed to the condensation/evaporation stage is supplied and in which the vapor is condensed, whereby the liquid to be concentrated is preheated.

A system, method and device are disclosed for bio-processing a feed stream and providing a constant output by operating a continuous single-pass tangential-flow process. The single-pass process provides high conversion concentration while operating at relatively low feed flow rates, and the process can also be used to provide constant output diafiltration.

Parallel membrane elements are arranged in parallel within a pressure vessel. A sealing body is disposed within the pressure vessel and is compressed against an inner surface of the pressure vessel to provide a leak-right seal in between a feed gas side of the sealing body and a non-permeate side of the sealing body. The sealing body may be slid within the pressure vessel without damaging the sealing body and in all cases without requiring mechanical assistance.

A MEMS sensor system for monitoring membrane elements in a membrane based water filtration plant having a remote telemetry unit (RTU), a SCADA, and a plurality of MEMS sensors for measuring pressure, flow rate. and conductivity. The water filtration plant has a train with a membrane vessel containing a plurality of membrane elements arranged in series creating interfaces between each membrane element. The MEMS sensors are located at the membrane element interfaces. A method of monitoring membrane elements in a membrane based water filtration plant using a plurality of MEMS sensors for measuring pressure, flow rate. and conductivity placed at the filtration plant membrane element interfaces.

Provided is a multi-functional filter including a first filter and a second filter to purify a biological fluid, a housing defining an adsorption section outside of the first filter and the second filter, a flow partitioning connector connecting the first filter and the second filter, and a housing port allowing a fluid to flow through the adsorption section. The housing may comprise a wall, a first cap coupled to the first filter at one end of the wall along a longitudinal direction, and a second cap coupled to the second filter at the other end of the wall along a longitudinal direction. The multi-functional filter according to the present invention in which dialysis, adsorption, and plasma separation or ultrafiltration are integrated to purify blood or dialysate and the internal flow is facilitated may provide a blood purifying apparatus that simplifies the whole apparatus, provides convenience in installation and use, and reduces a treatment cost.

A system, method and device are disclosed for bio-processing a feed stream and providing a constant output by operating a continuous single-pass tangential-flow process. The single-pass process provides high conversion concentration while operating at relatively low feed flow rates, and the process can also be used to provide constant output diafiltration.