A portable water filtration device is provided. The portable water filtration device comprises a housing defining an interior volume, said housing comprising; an input port for receiving water under pressure from an external source, and; an output port having an open position and a closed position. The device further comprises; a filter comprising an an array of hydrophilic capillary fibre membranes, said filter being positioned within the housing so as to form a fluid path between the interior volume of the housing and the output port such that, in use, when the output port is in the open position, water received at the input port flows under a pressure differential induced by the external source through walls of the capillary fibre membranes to respective open ends of the capillary fibre membranes to the output port, and further wherein; the filter fills at least 65% of the interior volume of the housing.

The disclosure provides a hollow fiber liquid filter device provided with exhaust fiber membranes. The hollow fiber liquid filter device comprises a shell, a liquid inlet end, a liquid outlet end, a melt-blown fiber filter element, a hollow fiber liquid filtering part and a hollow fiber gas filtering part, wherein the liquid inlet end and the liquid outlet end are respectively connected to the upper end and the lower end of the shell, the melt-blown fiber filter element is arranged on the inner side of the shell, the hollow fiber liquid filtering part and the hollow fiber gas filtering part are respectively arranged on the inner side of the melt-blown fiber filter element, a liquid inlet is formed in the liquid inlet end, and ,a liquid outlet is formed in the liquid outlet end.

A desalination brine dispersal apparatus and method employ airlift to remove, oxygenate and disperse brine from a desalination apparatus. The apparatus includes a brine removal conduit having a brine inlet that receives brine from the desalination apparatus, a plurality of brine outlets submerged in seawater and one or more air introduction points located at depths below the brine outlets. The supplied air oxygenates and moves brine through the brine removal conduit and outlets via airlift and disperses the brine into seawater away from the brine removal conduit. The apparatus avoids the formation of concentrated, high shear brine plumes and can disperse brine into seawater over a wide area well away from the brine removal conduit.

A water filtration system is provided and includes a raw-water inlet, a pure-water outlet, a purified-water outlet, a waste-water outlet and an integrated filter cartridge. The integrated filter cartridge has a first port, a second port, a third port, a fourth port, a fifth port and a sixth port. The first port is connected to the raw-water inlet, and the second port is connected to the purified-water outlet, a connection conduit is connected to the third port, and a free end of the connection conduit is connected between the second port and the purified-water outlet, the fourth port is connected to the pure-water outlet, the fifth port is connected to the waste-water outlet, at least one of a conduit in connection with the pure-water outlet and the sixth port is provided with a water storage device.

A submersible reverse osmosis desalination apparatus and method employs airlift to remove desalinated water from the apparatus via as annular flow regime over a substantial portion of the product water discharge conduit. Use of a high air fraction for airlift operation and an annular flow regime significantly lowers the weight of the product water column, as well as the backpressure on the downstream side of the osmotic membranes and at the bottom of the discharge water conduit. This permits deployment of the apparatus at reduced depths and in many eases closer to shore. In preferred embodiments the apparatus relies wholly upon hydrostatic pressure to drive seawater through the osmotic membranes, and continuously desalinates seawater and delivers pure water to the discharge water conduit without using any submerged moving parts subject to wear or breakage.

An embodiment of this disclosure provides a liquid treatment device, including: a housing 10 having a housing body 16 and a cover body 11, wherein the housing body 16 is open at one end in a length direction and is close at the other end, the cover body 11 is matched with the one end of the housing body 16 for sealing the one end, and the cover body 11 is provided with an inlet 13 for a liquid to flow into the cover body 11; a reverse osmosis membrane unit 20 located in an accommodation space enclosed by the housing body 16 and the cover body 11, the reverse osmosis membrane unit 20 including a reverse osmosis membrane 24 for performing reverse osmosis treatment on the liquid, a collector tube 27 collects a purified liquid obtained by the reverse osmosis treatment, and a support rod 22 supporting the reverse osmosis membrane 24, wherein the reverse osmosis membrane 24 includes a liquid inlet 21 at one end in the length direction; and a filter 30 arranged in the cover body 11 and located between the liquid inlet 21 and the inlet 13 and is used to filter the liquid entering the cover body 11 via the inlet 13, the filtered liquid entering the reverse osmosis membrane 24 via the liquid inlet. According to this disclosure, by providing the filter in the space between the cover body of the liquid treatment device and the support rod, the liquid entering the reverse osmosis membrane may be preprocessed, spaces may be saved, installation is convenient, and cost is relatively low.

A deep ocean desalination system that uses hydrostatic pressure to reverse osmosis the seawater. The membrane structure is deployed to a predetermined ocean depth and includes a submersible pump system.

Disclosed are an integrated composite filter cartridge (200) and a water purifying system (300) having same. The integrated composite filter cartridge (200) comprises: an outer shell (20), wherein a chamber (21) is defined in the outer shell (20), and the outer shell (20) is provided with a raw water inlet (22), a pre-treated water outlet (23), a pre-treated water inlet (24), a purified water outlet (25) and a waste water outlet (26) which are in communication with the chamber (21); a pre-treatment filter cartridge (100); a central pipe (30); a filter membrane (40); and a control member, which is connected to the pre-treated water outlet (23) and the pre-treated water inlet (24). When the integrated composite filter cartridge (200) is used for the first time, the control member switches on the raw water inlet (22) and the pre-treated water outlet (23) and switches off the pre-treated water inlet (24).

A device (1) for purification of water driven by gravity through a purification unit between an upper dirt water container (2) and a lower clean water tank (3). A backwash system may be integrated, the system comprising a receptacle (8) for accumulation of the backwash water to prevent consumption thereof by mistake.

A whole blood filtration device is provided with a filter membrane separating a feeding volume and a clean side of the filter membrane from each other. The feeding volume communicates with a first feeding side opening and with a second feeding side opening. The filter membrane has pores with a pore size that ensures permeability of the filter membrane to blood plasma/serum and that retains blood cells. The first feeding side opening can be coupled to a first blood pump for feeding blood from the first feeding side opening into the feeding volume so that blood plasma/serum permeates the filter membrane and blood cells, retained by the filter membrane, exit from the feeding volume through the second feeding side opening.