Abstract: A hydrophilic semipermeable membrane can include a porous polymeric structure containing a blend of PVDF and hydroxyalkylcellulose. The membrane may be used for ultrafiltration. A method of making a hydrophilic semipermeable membrane can include providing a blend containing PVDF and hydroxyalkylcellulose, forming the blend into a porous polymeric structure, and purifying the porous polymeric structure.

Abstract: An unsupported fluorocarbon copolymer membrane is made unsupported by using a combination of two distinctly different processes: the first is an annealing heat treatment, and the second is a polymerization process using ultra-violet (UV) light and acrylate monomers (UV/Acrylic process) that may also make the membrane hydrophilic.

Abstract: The present invention relates to a novel filter element having a septum with a staged pleating that repeats a pleating sequence having a major (longest) pleat, a minor (shortest) pleat and at least one intermediate pleat therebetween. The intermediate pleat(s) have pleat heights that are evenly distributed within the range of pleat heights bounded by the pleat height of the minor pleat and the pleat height of the major pleat. In two particular embodiments of the invention, the pleat height ratios of the major, intermediate and minor pleats are 3:2:1 and 4:3:2:1. In an filter element, the pleated septum may be held between an inner core and an outer guard. The tip of the major pleat in each pleating sequence may be in contact with the inner core of the filter element. The septum may also include drainage layers on upstream and downstream of the filter material layer.

Abstract: The present invention relates to nanofiltration and reverse osmosis membranes that may be used in a number of commercial applications in which a contaminant, such as salt, must be separated from a feed fluid, such as brackish water, to yield a purified product fluid, as well as a method for manufacturing such membranes. According to embodiments of the invention, an aqueous amine solution including an amine, an organic acid (e.g., propionic acid) and a non-amine base is applied to the surface of a porous substrate. A second solution containing an acyl halide and an organic solvent immiscible in water is then applied to the aqueous amine solution to cause interfacial polymerization to occur. The resulting membranes exhibit superior salt rejection and flux properties.

Abstract: The present invention is directed to a system and method for removing a first chemical from a web of filtration membrane material using a vacuum roller or other vacuum pressure application device. Embodiments of the method involve applying vacuum pressure to a surface of the membrane web, immersing said membrane web in a flushing chemical and removing the membrane web from the flushing chemical. Embodiments of the system may include one or more vacuum rollers, positioning rollers and a flushing chemical in which a portion of the membrane web may be immersed.

Abstract: The present invention is directed to a filter element in which an undesired fluid flow path through the filter element is blocked. The present invention is also directed to a method for producing such a filter element. In embodiments of the invention, the filter element may be a spiral wound filter element with a filter membrane. The desired flow path through the filter membrane may be through the lateral surface of the filter membrane, while an undesirable flow path may begin at a point on the cross-sectional face of the filter membrane. To prevent fluid from entering the filter membrane through the cross-sectional face, the pores of the filter membrane near the cross-sectional area may be sealed, for example, by filling the pores with a substance, such as a polymer.

Abstract: The present invention is directed to a filter element in which an undesired fluid flow path through the filter element is blocked. The present invention is also directed to a method for producing such a filter element. In embodiments of the invention, the filter element may be a spiral wound filter element with a filter membrane. The desired flow path through the filter membrane may be through the lateral surface of the filter membrane, while an undesirable flow path may begin at a point on the cross-sectional face of the filter membrane. To prevent fluid from entering the filter membrane through the cross-sectional face, the pores of the filter membrane near the cross-sectional area may be sealed, for example, by filling the pores with a substance, such as a polymer.

Abstract: The present invention relates to a novel filter element having a septum with a staged pleating that repeats a pleating sequence having a major (longest) pleat, a minor (shortest) pleat and at least one intermediate pleat therebetween. The intermediate pleat(s) have pleat heights that are evenly distributed within the range of pleat heights bounded by the pleat height of the minor pleat and the pleat height of the major pleat. In two particular embodiments of the invention, the pleat height ratios of the major, intermediate and minor pleats are 3:2:1 and 4:3:2:1. In an filter element, the pleated septum may be held between an inner core and an outer guard. The tip of the major pleat in each pleating sequence may be in contact with the inner core of the filter element. The septum may also include drainage layers on upstream and downstream of the filter material layer.

Abstract: A system and method for detecting defects in a porous material web or dense film applies differential pressure across the material web or film. The pores and defects in the material web or the defects in the dense film may be filled with a liquid. In embodiments of the invention, differential pressure may be applied using a vacuum roller or other vacuum pressure application device. When the differential pressure applied to the material web exceeds the bubble point pressure of a defect, the liquid within that defect may be removed. An image, such as a thermal or photographic image, of the material web is captured after the differential pressure has been applied across the material web or film. Removal of the liquid from a defect is indicated in the image, allowing defects to be detected.

Abstract: A process using acrylate monomers and ultraviolet light permits modification of porous polymeric materials without the use of a free radical initiator is described as is the material so modified. The modified polymeric material exhibits new properties such as wetability and advantageous flow characteristics that are useful in filtration.

Abstract: Embodiments of the present invention relate to a membrane assembly useful in an electro-deposition coating system and a method for constructing such a membrane assembly. The membrane assembly may include a membrane sheet, a guide and a frame. In an embodiment of the invention, the membrane assembly may be formed in a tubular shape by ultrasonically welding a membrane sheet along a spiral seam and placing the membrane sheet between a guide and frame formed form extruded net tubing. Alternative embodiments of the invention may incorporate different seam shapes and manufacturing and joining methods.

Abstract: The present invention is directed to a system and method for removing a first chemical from a web of filtration membrane material using a vacuum roller or other vacuum pressure application device. Embodiments of the method involve applying vacuum pressure to a surface of the membrane web, immersing said membrane web in a flushing chemical and removing the membrane web from the flushing chemical. Embodiments of the system may include one or more vacuum rollers, positioning rollers and a flushing chemical in which a portion of the membrane web may be immersed.

Abstract: One electrode is provided in association with the object to be coated, the other electrode. A pre-stretched ion-exchange membrane in a thin tubular form is sandwiched inbetween two nonconductive water permeable screen tubular housings. The assembly contains a supply line that provides a water way for the electrolyte to flow from the top of the device into a lower cap, then to the lower cap reservoir that allows stabilization and disbursement of electrolyte through the rifled housing Inertia developed through this defined pattern creates a swirling action that scrubs the impurities away from the anode, and to the top of the device to be carried out top. The location of the supply line is just inside the inner screen inserted through both the upper housing and lower cap. The tubular electrode is provided to the inside of membrane housing completing the inner portion of the waterway return chamber.