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 sterilization water discharge device is disclosed. A sterilization water discharge device includes: a tray part, which is movably disposed under a discharge member for discharging water and allows sterilization water discharged from the discharge member to be received therein and discharged; and a movement driving part for moving the tray part.

A solar distillation device includes a feed water chamber having an open interior feed water compartment and a feed water inlet to the feed water compartment. A distillate chamber has a top and sides and an open interior distillate compartment, and a distillate water outlet in liquid communication with the distillate compartment. The top, the rear wall, and the sides of the distillate chamber includes a solar radiation transmissive portion. A distillation membrane separates the feed water compartment from the distillate compartment, and has a feed water facing surface and a distillate facing surface. The membrane can include a porous hydrophobic material, and the distillate surface of the distillation membrane can be black. The transmissive portion allows solar radiation to pass through the top, the rear wall, and the sides of the distillate chamber and strike the distillation membrane.

Described are wrapped fluid treatment elements, comprising: a composite material; an interleaf; and an inner core; wherein the composite material and the interleaf form layers wrapped around the inner core. The composite material and interleaf may be wrapped in a spiral configuration around the inner core. The invention also relates to a method of separating a substance from a fluid, comprising the step of placing the fluid in contact with an inventive device or element, thereby adsorbing or absorbing the substance to the composite material contained therein.

A water purifier includes a water purifier body including a housing and a filter provided in the housing to filter raw water introduced from outside of the water purifier body. A water discharge module including a water discharge nozzle is disposed on a front surface of the water purifier body to supply the water passing through the filter to the outside of the water purifier body. The water discharge module includes a case from which the water discharge nozzle extends at a lower end of the case. A protection cap is detachably coupled to the lower end of the case to cover at least a portion of the water discharge nozzle extending outside of the case.

A membrane support, usable for example in a membrane filtration device, comprises a support surface provided on an upstream side of the membrane support and adapted to support a flat filtration membrane thereon, and a drainage structure arranged below the support surface to collect a fluid that has passed the filtration membrane supported on the support surface and guide the fluid away to a downstream side, wherein the support surface has a plurality of recesses distributed over the support surface and formed to absorb expansions of the filtration membrane. The membrane support avoids fold formation of a membrane due to membrane expansion after hydration.

A bendable flexible flat membrane module includes: a membrane facing each other and constituting both outer surfaces; a support member made of a flexible material and embedded inside the membrane constituting the both outer surfaces; and a plurality of point bonding portions formed by pressing and bonding the both outer surfaces facing each other at a predetermined point.

The present invention provides a method for hemodiafiltration which applies dialysate gradient across a multi-chambered hemodiafiltrator having a plurality of compartmentalized tubular dialysate chambers. An acidic dialysate with urea at a concentration is applied to a first dialysate chamber. A less acidic dialysate with a lower concentration of urea than those for the first dialysate chamber is applied to a second dialysate chamber. A basic dialysate with no urea but with ammonia at a concentration up to a concentration detected in normal human blood is applied to a last dialysate chamber. The concentrations of urea for the first and second dialysate chambers decrease over time to zero prior to conclusion of hemodiafiltration.

The specification discloses a portable dialysis machine having a detachable controller unit and base unit. The controller unit includes a door having an interior face, a housing with a panel, where the housing and panel define a recessed region configured to receive the interior face of the door, and a manifold receiver fixedly attached to the panel. The manifold includes diaphragms adapted to minimize the dead space between the dialysis machine pins and improve responsivity. The base unit has a planar surface for receiving a container of fluid, a scale integrated with the planar surface and a heater in thermal communication with the container. Embodiments of the disclosed portable dialysis system have improved structural and functional features, including improved modularity, ease of use, and safety features.

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.