Centrifugal air separators, systems including the same, and methods of separating gas are disclosed. Centrifugal air separators include a separation section configured to separate an input air stream into a clean air stream emitted from an exit port of the separation section and a waste stream emitted from a waste port of the separation section. The separation section includes a coiled duct and is configured to transmit through a duct entrance port a duct input air stream that is at least a portion of the input air stream and to at least partially separate the duct input air stream according to a molecular weight of gaseous components of the duct input air stream into a duct clean air stream that is at least a portion of the clean air stream and a duct waste stream that is at least a portion of the waste stream.

Centrifugal air separators, systems including the same, and methods of separating gas are disclosed. Centrifugal air separators include a separation section configured to separate an input air stream into a clean air stream emitted from an exit port of the separation section and a waste stream emitted from a waste port of the separation section. The separation section includes a coiled duct and is configured to transmit through a duct entrance port a duct input air stream that is at least a portion of the input air stream and to at least partially separate the duct input air stream according to a molecular weight of components of the duct input air stream into a duct clean air stream that is at least a portion of the clean air stream and a duct waste stream that is at least a portion of the waste stream.

The invention relates to a filter element (1) comprising a drainage element (2) which is arranged between two filter membranes (3). According to the invention, said drainage element (2) is made of a non-woven filtering material which is arranged in a laminated manner between the filter membranes (3) respectively by means of an adhesive non-woven material (4). The invention also relates to a method for producing a filter element (1), a drainage element (2) made from a non-woven filtering material being laminated between two filter membranes (3). An adhesive non-woven material (4) is arranged between the drainage element (2) and each filter membrane (3), then lamination takes place due to the thermal effect under pressure.

The invention provides a porous hybrid matrix membrane support having at least one porous mesh layer of mesh densified to form a membrane mesh support and at least one porous filament layer of filaments that are generally non-woven, densified to form a membrane filament support. The filament layer is densified to provide a sufficiently small crevice depth in the membrane filament support that can help protect a membrane layer on the membrane filament support from rupturing. The membrane mesh support and the membrane filament support with micro-smooth surfaces can be integrally joined by diffusion bonding to resist separation across the adjoining surfaces. The combined, diffusion bonded support of both types of layers provide structural support sufficient for high pressures and provide substantial uniform permeability across the face of the structural support.

A water treatment system for removing contaminant from a feed solution is provided. The system includes a hollow fiber membrane chemical reactor (HF-MCR) and a magnetic field generator; or a magnetic confinement-enabled column reactor (MCCR) comprising one or more column filters and a magnetic field generator. The magnetic field generator is arranged to produce a magnetic field for realizing a magnetically confined zone that results in a formation of a plurality of microwires comprising the zerovalent iron (ZVI) nanoparticles or a plurality of ZVI wires comprising ZVI microparticles. The plurality of microwires can be a magnetic catalyst to enable catalytic degradation and chemical immobilization of the contaminant. The plurality of ZVI wires can reduce aqueous As (As.sub.aq) concentration in the feed solution after the feed solution is pumped through the one or more column filters.