Research interests focus on physical-chemical and biological treatment processes for water, hazardous wastes, biohazards, and industrial and municipal wastewaters. Extensive research in response to the Covid-19 pandemic on the inactivation of virus by photo-processes including ultraviolet (UV) for air, solids and objects of interest including PPE. Other ongoing research includes innovative physical and chemical treatment processes to address contaminants of emerging concern (e.g., PFAS) in drinking waters, soils, sediments and solid residuals. 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., Civil Engineering, University of Massachusetts - Amherst
B.S., Environmental Chemistry, Rutgers University
CEE 620: Fund Aspect Environmental Eng
CEE 720: Solid & Hazardous Waste Eng
CEE 720/820: Solid & Hazardous Waste Eng
CEE 732/832: Solid & Hazardous Waste Design
CEE 733: Pub Infrastructure Asset Mgt
CEE 733/833: Pub Infrastructure Asset Mgt
CEE 833: Pub Infrastructure Asset Mgt
CIE/ENE 839/739: Pub Infrastructure Asset Mgt
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).