Disclosed herein are compositions and methods for manufacturing composite paper-based sorbents configured for durability, and high surface area exposure to air. Composite paper-based sorbents can comprise fibers (e.g. natural and/or synthetic fibers), anion exchange resins, and additives. Composite paper-based sorbents can be configured for durability when used in various forming processes, e.g., corrugation, and when used under a variety of conditions, for example, in high and low humidity environments.

Disclosed herein are compositions and methods for manufacturing composite paper-based sorbents configured for durability, and high surface area exposure to air. Composite paper-based sorbents can comprise fibers (e.g. natural and/or synthetic fibers), anion exchange resins, and additives. Composite paper-based sorbents can be configured for durability when used in various forming processes, e.g., corrugation, and when used under a variety of conditions, for example, in high and low humidity environments.

The invention relates to a system and method of use for concentrating a solution that is eluted from an ion exchange process (elution solution) during an ion exchange regeneration using the osmotic pressure of the salt saturator. This method recovers solvent from the elution solution that could be used in a future ion exchange regeneration process. The concentration of the elution solution may include the precipitation and removal of solids from the elution solution.

The present invention relates to a process and plant for treating feed water containing nitrate. The process includes, sorbing nitrate from the feed water onto an ion exchange resin to form a loaded resin and produce a treated water stream depleted in nitrate, regenerating the loaded resin so that the resin can be reused and produce a brine stream high in nitrate; and converting nitrate in the brine stream into molecular nitrogen gas with the assistance of a bioactive agent.

The present invention relates to a process and plant for treating feed water containing nitrate. The process includes, sorbing nitrate from the feed water onto an ion exchange resin to form a loaded resin and produce a treated water stream depleted in nitrate, regenerating the loaded resin so that the resin can be reused and produce a brine stream high in nitrate; and converting nitrate in the brine stream into molecular nitrogen gas with the assistance of a bioactive agent.

An anion-exchange membrane of the present invention includes a substrate made of polyolefin-based woven fabric and an anion-exchange resin, and has an electrical resistance measured using 0.5 M NaCl solution at 25° C. of 1.0 Ω•cm.sup.2 or more to 2.5 Ω•cm.sup.2 or less, a bursting strength of 0.7 MPa or more to 1.2 MPa or less, a water permeation rate measured using pressured water at 0.1 MPa of 300 ml/(m.sup.2•hr) or less, a thickness of the substrate of 90 .Math.m or more to 160 .Math.m or less, and an open area ratio of the substrate of 35% or more to 55% or less.

An anion-exchange membrane of the present invention includes a substrate made of polyolefin-based woven fabric and an anion-exchange resin, and has an electrical resistance measured using 0.5 M NaCl solution at 25° C. of 1.0 Ω•cm.sup.2 or more to 2.5 Ω•cm.sup.2 or less, a bursting strength of 0.7 MPa or more to 1.2 MPa or less, a water permeation rate measured using pressured water at 0.1 MPa of 300 ml/(m.sup.2•hr) or less, a thickness of the substrate of 90 .Math.m or more to 160 .Math.m or less, and an open area ratio of the substrate of 35% or more to 55% or less.

The present disclosure describes a method of recovering uranium including a continuous ion exchange (CIX) process including a single cycle or a dual cycle CIX process and at least a gradient elution or resin crowding process. The present disclosure also describes an apparatus including a single cycle or dual cycle CIX system and a gradient elution and/or resin crowding system.

Embodiments of the invention provide methods of synthesizing .sup.18F-tetrafluoroborate (.sup.18F-TFB) via direct radiofluorination on boron trifluoride (BF.sub.3) to enhance both labeling yield and specific activity. Uses of .sup.18F-TFB include imaging of thyroid or breast cancer, and imaging of thyroid, breast, stomach, salivary glands or kidney.

Embodiments of the invention provide methods of synthesizing .sup.18F-tetrafluoroborate (.sup.18F-TFB) via direct radiofluorination on boron trifluoride (BF.sub.3) to enhance both labeling yield and specific activity. Uses of .sup.18F-TFB include imaging of thyroid or breast cancer, and imaging of thyroid, breast, stomach, salivary glands or kidney.