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College of Engineering and Information Technology
UMBC Chemical and Biochemical Engineering
Brian Reed
Contact Information

reedb@umbc.edu

410-455-8154

ENG

 

 

 

Brian Reed

Title

Chair, Chemical, Biochemical and Environmental Engineering

Professor of Environmental Engineering

Education

Ph.D. Environmental Engineering – State University of New York at Buffalo, 1990
M.S. Environmental Engineering – State University of New York at Buffalo, 1986
B.S. Civil Engineering – State University of New York at Buffalo, 1984

Professional Interests

My primary research focus has been on the removal of inorganic contaminants from the aqueous phase by activated carbons. Over the last several years I have investigated the efficacy of impregnated carbons for the removal of anionic contaminants such as As(III), As(V), and ClO4-. A recent project I have worked on focuses on the removal of radionuclides from wastewater. My membrane research has focused on industrial or DOE related wastes. Two particularly interesting projects have been the development of a full-scale membrane treatment system for a West Virginia aluminum manufacturer and the investigation of a rotary membrane system for DOE wasters and for wastes high in oil content.

Publications

T. Angele Ngantcha, T.A., Vaughan, R., and Reed, B.E. “Modeling As(III) and As(V) Removal by an Iron Oxide Impregnated Activated Carbon in a Binary Adsorbate System,” accepted for publication in Separation Science and Technology, 2011.

Kwon, J., Thomas, J., Reed, B.E. Levine, L., Magdar, V. Farrar, Bridges, D., and Ghosh, U. “Evaluation of Sorbent Amendments for In Situ Remediation,” Environmental Toxicology and Chemistry, 29(9), 1883-92.

Alba, A. Wheeler, J. and Reed, B.E., “Removal of Cs+ and Co2+ from Domestic Wastewater by Adsorbent Addition,” Practice Periodical of Hazardous, Toxic, and Radioactive Waste Management, Vol. 13, No. 1, January 2009, pp. 2-13.

Vaughan, R.L.,Yang, J., Lemire, L., and Reed, B.E, “Characterization and Surface Acidity Modeling of an Iron Oxide Impregnated Activated Carbon,” Adsorption Science and Technology, 25(5), 295-309, 2007.

Vaughan, Jr., R.L., Reed, B.E., and Smith, E.H, “Modeling As(V) Removal in Iron Oxide Impregnated Activated Carbon Columns.” ASCE Journal of Environmental Engineering, 133, 1, 121-124., 2007.

Vaughan, Jr., R.L., and Reed, B.E. “Modeling As(V) Removal by a Iron Oxide Impregnated Activated Carbon using the Surface Complexation Approach,” Water Research, V39, 1005-1014, 2005.