A “hollow plug” for the rapid removal of ions from small volumes of liquid

A hollow-fiber membrane bioreactor was used to separate trichloroethylene (TCE) from a gaseous waste stream with subsequent cometabolic biodegradation by a pure culture of Methylosinus trichosporium OB3b PP358. The two-stage bioreactor system was successfully operated for 20 days. PP358 was grown in

Hollow-fiber membranes were prepared to remove volatile organic vapors (VOCs) from a nitrogen or air stream. Conditions were found to spin hollow fibers of high performance for the removal of VOCs. The effect of temperature on the permeation of nitrogen gas and acetone vapor was studied. It was foun

## Abstract The carrier‐mediated transport of heavy metal ions through bulk liquid membranes has been examined: toxic Hg^2+^, Cd^2+^ and Pb^2+^ ions were studied, along with Cu^2+^ ions for comparative purposes. The ability of a new carrier, 2,2′‐bis(__p__‐octyloxybenzyl)diethylenetriamine (bis‐__p

A new method (competitive adsorption method) for the removal of toxic heavy metals from acid-sensitive biomaterials was proposed and it was applied to the removal of cadmium from the mid-gut gland (MG) of scallop, Patinopecten yessoensis. Insolubilized humic acid, which has been developed in our lab