A filtering device is for obtaining a chemical liquid by purifying a liquid to be purified, and the filtering device has an inlet portion, an outlet portion, a filter A, at least one filter B different from the filter A, and a flow path which includes the filter A and the filter B arranged in series and extends from the inlet portion to the outlet portion, in which the filter A has a porous base material made of polyfluorocarbon and a coating layer which is disposed to cover the porous base material and contains a resin having an adsorptive group.

A composite that includes an expanded polytetrafluoroethylene (ePTFE) membrane having a porous microstructure. The porous microstructure of the ePTFE membrane is impregnated with a stiffening polymer. An acoustic device assembly that includes the composite and an acoustic device is also described. The composite and the acoustic device assembly can exhibit an insertion loss of less than 7 dB at 1 kHz when measured by the Acoustic Response Measurement (“ARM”) Test.

The invention relates to a mechanically stable ultrafiltration membrane and to a method for producing such an ultrafiltration membrane.

The invention relates to a mechanically stable ultrafiltration membrane and to a method for producing such an ultrafiltration membrane.

Hollow fiber membranes, membrane contactors, and related production and use methods. The asymmetric hollow fiber membranes include a porous substrate having a multiplicity of pores and including at least one semi-crystalline thermoplastic polyolefin (co)polymer. A skin layer including at least one polydiorganosiloxane polyoxamide copolymer overlays the porous substrate. The skin layer is less porous than the porous substrate and forms an outer surface of the asymmetric hollow fiber membrane, while the porous substrate forms an inner surface of the hollow fiber membrane. The skin layer is preferably nonporous.

A fluid separation apparatus comprising a fluid separation membrane is provided. The fluid separation apparatus comprises a fluid separation membrane extending in one direction and having a cross-section with a closed curve shape, wherein the fluid separation membrane has a thickness of 0.1 mm to 2 mm, and an outer diameter of 60 mm to 360 mm when the cross-section is adjusted to be circular.

A fluid separation apparatus comprising a fluid separation membrane is provided. The fluid separation apparatus comprises a fluid separation membrane extending in one direction and having a cross-section with a closed curve shape, wherein the fluid separation membrane has a thickness of 0.1 mm to 2 mm, and an outer diameter of 60 mm to 360 mm when the cross-section is adjusted to be circular.

A drying method for a separation membrane includes supplying a gas for drying to the separation membrane so that a value obtained by dividing the difference between a maximum value and a minimum value of a flow rate of the gas for drying on a membrane surface of the separation membrane by the minimum value of the flow rate is less than or equal to 15%. The gas for drying is less than or equal to 40 degree C. and contains a water-soluble gas that has a solubility in 1 cm.sup.3 of water of greater than or equal to 0.5 cm.sup.3 in conditions of 40 degree C. and 1 atmosphere.

A device and method for increasing the concentration of an analyte in a fluid sample. The device may include: a housing defining a chamber therein for receiving a fluid sample, a membrane associated with the housing; and a pressure generator operatively connected to the housing to create a pressure gradient across the membrane. When the pressure generator is operated to create the pressure gradient, this causes at least a portion of the fluid sample to move across the membrane. As a result, the fluid sample is separated into a first portion of fluid and a second portion of fluid including said analyte on opposite sides of the membrane. This second portion of fluid by having the analyte present in an amount of fluid that is reduced as compared to the fluid sample prior to the application of pressure - is thus the resulting analyte-concentrated fluid sample.

A device and method for increasing the concentration of an analyte in a fluid sample. The device may include: a housing defining a chamber therein for receiving a fluid sample, a membrane associated with the housing; and a pressure generator operatively connected to the housing to create a pressure gradient across the membrane. When the pressure generator is operated to create the pressure gradient, this causes at least a portion of the fluid sample to move across the membrane. As a result, the fluid sample is separated into a first portion of fluid and a second portion of fluid including said analyte on opposite sides of the membrane. This second portion of fluid by having the analyte present in an amount of fluid that is reduced as compared to the fluid sample prior to the application of pressure - is thus the resulting analyte-concentrated fluid sample.