Research interests focus on physical-chemical and biological treatment processes for water, hazardous wastes and industrial and municipal wastewaters. On-going research includes dissolved air flotation, membrane filtration, disinfection (chlorine, chlorine dioxide, ultraviolet (UV)) and advanced oxidation processes (ozone, uv-peroxide, peroxone) for drinking water and hazardous wastes. Research strives to integrate fundamental physical chemical and biological principles into practical equations/models for the selection, design and operation of engineered treatment systems.
Ph.D., Civil & Environmental Engineering, University of Massachusetts - Amherst
M.S., Environmental Engineering, University of Massachusetts - Amherst
B.S., Environmental Chemistry, Rutgers University
B.S., Civil Engineering, University of Massachusetts - Amherst
CEE 720/820: Solid & Hazardous Waste Eng
CEE 732/832: Solid & Hazardous Waste Design
CEE 733/833: Pub Infrastructure Asset Mgt
CIE 788: Project Planning and Design
CIE/ENE 839/739: Pub Infrastructure Asset Mgt
CIE/ENE 842/742: Solid & Hazardous Waste Eng
ENE 400: Environmental Eng Lectures I
ENE 797: Top/Env Public Infrastructure
INCO 790: Adv Rsrch Exp/Civil Engr
Galjaard, G., Martijn, B., Koreman, E., Bogosh, M., & Malley, J. (2011). Performance evaluation six ® -ceramac® in comparison with conventional pre-treatment techniques for surface water treatment. Water Practice and Technology, 6(4).