Micellar‐enhanced ultrafiltration of chromate anion from aqueous streams
Sherril D. ChristianS. N. BhatE. E. TuckerJohn F. ScamehornDawlat A. El-Sayed
Abstract
Abstract Micellar‐enhanced ultrafiltration can be used to remove multivalent anions or cations from aqueous streams. In the removal of chromate ions (CrO ), the cationic surfactant hexadecylpyridinium chloride is added to the solution, and the chromate ions preferentially adsorb at the surface of the highly charged surfactant micelles. The solution is processed by ultrafiltration, using a membrane with pore sizes small enough to block the passage of the micelles and adsorbed ions. The permeate solution has a chromate concentration less than 0.1% that in the original stream. A new equilibrium model, combining the simple two‐phase polyelectrolyte theory of Oosawa with thermodynamic activity, material‐balance, and charge‐balance equations, successfully correlates ultrafiltration and equilibrium dialysis results for chromate solutions.
Metrics
Citation History
Topics
Related Documents
Removal of n-alcohols from aqueous streams using micellar-enhanced ultrafiltration
L.Lane GibbsJohn F. ScamehornSherril D. Christian
Use of Micellar-Enhanced Ultrafiltration to Remove Dissolved Organics from Aqueous Streams
Robert O. DunnJohn F. ScamehornSherril D. Christian
Removal of Chromate from Aqueous Streams by Ultrafiltration and Precipitation
Edwin E. TuckerSherril D. ChristianJohn F. ScamehornHirotaka UchiyamaWenjuan Guo
Removal of Divalent Metal Cations and Their Mixtures from Aqueous Streams Using Micellar-Enhanced Ultrafiltration
John F. ScamehornSherril D. ChristianDawlat A. El-SayedHirotaka UchiyamaSamia S. Younis
Arsenate removal from aqueous solutions using micellar-enhanced ultrafiltration
Pegah BahmaniAfshin MalekiReza RezaeeAmir Hossein MahviMehrdad KhamforoushSaeed Dehestani AtharHiua DaraeiFardin GharibiGordon McKay