Dissolved silica is ubiquitous in impaired waters, a fouling agent in desalination membranes, resistant to existing antiscalants, and difficult to remove from power plant feed waters, thereby inhibiting long term reuse of industrial water. According to the present invention, an inorganic anion exchanger, hydrotalcite (HTC), can provide highly selective removal of silica from aqueous solutions. Calcined HTC effectively removes silicate anion from different waste waters and waters with high concentration of competing ions, such as SO.sub.4.sup.2 and Cl.sup.. For example, calcined Mg.sub.6Al.sub.2(OH).sub.16(CO.sub.3).4H.sub.2O has a silica adsorption capacity of 45 mg SiO.sub.2/g HTC. Further, HTC can be easily regenerated and recycled.

Dissolved silica is ubiquitous in impaired waters, a fouling agent in desalination membranes, resistant to existing antiscalants, and difficult to remove from power plant feed waters, thereby inhibiting long term reuse of industrial water. According to the present invention, an inorganic anion exchanger, hydrotalcite (HTC), can provide highly selective removal of silica from aqueous solutions. Calcined HTC effectively removes silicate anion from different waste waters and waters with high concentration of competing ions, such as SO.sub.4.sup.2 and Cl.sup.. For example, calcined Mg.sub.6Al.sub.2(OH).sub.16(CO.sub.3).4H.sub.2O has a silica adsorption capacity of 45 mg SiO.sub.2/g HTC. Further, HTC can be easily regenerated and recycled.

Sorbent cartridge systems useful in regenerating or purifying dialysis solutions are described as well as methods to regenerate or purify spent dialysis solutions. Dialysis systems using the sorbent cartridge system of the present invention are further described.

Sorbent cartridge systems useful in regenerating or purifying dialysis solutions are described as well as methods to regenerate or purify spent dialysis solutions. Dialysis systems using the sorbent cartridge system of the present invention are further described.

A filter system comprises a hollow fiber membrane filter having pores; and an electrostatic adsorption filter partially or wholly having positive charges to be ion adsorbed with nanoparticles of negative charges by an electrostatic attraction, the nanoparticles which exist in the water, and the electrostatic adsorption filter configured to remove in advance the nanoparticles from the water to be supplied to the hollow fiber membrane filter, to prevent a water passing amount of the hollow fiber membrane filter from being rapidly reduced. According to the present invention, the viruses existing in raw water may be removed in accordance with a size exclusion mechanism of the hollow fiber membrane filter, and the nanoparticles, which cause the reduction of the water passing amount of the hollow fiber membrane filter, may be removed using the electrostatic adsorption filter.

A filter system comprises a hollow fiber membrane filter having pores; and an electrostatic adsorption filter partially or wholly having positive charges to be ion adsorbed with nanoparticles of negative charges by an electrostatic attraction, the nanoparticles which exist in the water, and the electrostatic adsorption filter configured to remove in advance the nanoparticles from the water to be supplied to the hollow fiber membrane filter, to prevent a water passing amount of the hollow fiber membrane filter from being rapidly reduced. According to the present invention, the viruses existing in raw water may be removed in accordance with a size exclusion mechanism of the hollow fiber membrane filter, and the nanoparticles, which cause the reduction of the water passing amount of the hollow fiber membrane filter, may be removed using the electrostatic adsorption filter.

Hybrid media formed by combining a metal precursor solution with particulate media to yield a mixture, decanting the mixture to yield a decanted mixture, heating the decanted mixture in via microwave radiation to yield hybrid media, rinsing the hybrid media with water, soaking the rinsed hybrid media in a salt solution, and rinsing the soaked hybrid media with water. The hybrid media includes a metal dioxide derived from the metal precursor, such as TiO.sub.2 derived from TiOSO.sub.4.

Hybrid media formed by combining a metal precursor solution with particulate media to yield a mixture, decanting the mixture to yield a decanted mixture, heating the decanted mixture in via microwave radiation to yield hybrid media, rinsing the hybrid media with water, soaking the rinsed hybrid media in a salt solution, and rinsing the soaked hybrid media with water. The hybrid media includes a metal dioxide derived from the metal precursor, such as TiO.sub.2 derived from TiOSO.sub.4.

The present disclosure is directed to methods and systems of purifying bioderived organic solvents. The purified bioderived organic solvents can be used in a multistep semiconductor manufacturing process.

The present disclosure is directed to methods and systems of purifying bioderived organic solvents. The purified bioderived organic solvents can be used in a multistep semiconductor manufacturing process.