Edward J. Bouwer
Affiliations: | Johns Hopkins University, Baltimore, MD |
Area:
Environmental Engineering, Biogeochemistry, Microbiology BiologyGoogle:
"Edward Bouwer"Cross-listing: Envirotree
Children
Sign in to add traineeRaymond M. Hozalski | grad student | 1996 | Johns Hopkins |
Sudha Goel | grad student | 1990-1997 | Johns Hopkins University; Whiting School of Engineering (Envirotree) |
Chi-Fu Lin | grad student | 2001 | Johns Hopkins |
Peter C. D'Adamo | grad student | 2003 | Johns Hopkins |
Denise G. Taylor | grad student | 2003 | Johns Hopkins |
William J. Weiss | grad student | 2005 | Johns Hopkins |
Tanya P. Oxenberg | grad student | 2007 | Johns Hopkins |
Jim T. Yu | grad student | 2007 | Johns Hopkins |
Kathryn M. Onesios | grad student | 2012 | Johns Hopkins |
Amar R. Wadhawan | grad student | 2012 | Johns Hopkins |
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Publications
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Freeman DM, O'Neal R, Zhang Q, et al. (2020) Manganese-induced Parkinsonism in mice is reduced using a novel contaminated water sediment exposure model. Environmental Toxicology and Pharmacology. 78: 103399 |
Chow SJ, Lorah MM, Wadhawan AR, et al. (2020) Sequential biodegradation of 1,2,4-trichlorobenzene at oxic-anoxic groundwater interfaces in model laboratory columns. Journal of Contaminant Hydrology. 231: 103639 |
Bohutskyi P, Phan D, Spierling RE, et al. (2019) Production of lipid-containing algal-bacterial polyculture in wastewater and biomethanation of lipid extracted residues: Enhancing methane yield through hydrothermal pretreatment and relieving solvent toxicity through co-digestion. The Science of the Total Environment. 653: 1377-1394 |
Bohutskyi P, Phan D, Kopachevsky AM, et al. (2018) Synergistic co-digestion of wastewater grown algae-bacteria polyculture biomass and cellulose to optimize carbon-to-nitrogen ratio and application of kinetic models to predict anaerobic digestion energy balance. Bioresource Technology. 269: 210-220 |
Khalid M, Johnson E, Vij A, et al. (2018) Anaerobic digestion restricted to phase I for nutrient release and energy production using waste-water grown Chlorella vulgaris Chemical Engineering Journal. 352: 756-764 |
Bohutskyi P, Spierling RE, Phan D, et al. (2018) Bioenergy from wastewater resources: Nutrient removal, productivity and settleability of indigenous algal-bacteria polyculture, and effect of biomass composition variability on methane production kinetics and anaerobic digestion energy balance Algal Research. 36: 217-228 |
Bohutskyi P, Chow S, Ketter B, et al. (2016) Phytoremediation of agriculture runoff by filamentous algae poly-culture for biomethane production, and nutrient recovery for secondary cultivation of lipid generating microalgae. Bioresource Technology. 222: 294-308 |
Bohutskyi P, Kligerman DC, Byers N, et al. (2016) Effects of inoculum size, light intensity, and dose of anaerobic digestion centrate on growth and productivity of Chlorella and Scenedesmus microalgae and their poly-culture in primary and secondary wastewater Algal Research. 19: 278-290 |
Hong Y, Wetzel D, Pulster EL, et al. (2015) Significant spatial variability of bioavailable PAHs in water column and sediment porewater in the Gulf of Mexico 1 year after the Deepwater Horizon oil spill. Environmental Monitoring and Assessment. 187: 646 |
Bohutskyi P, Liu K, Nasr LK, et al. (2015) Bioprospecting of microalgae for integrated biomass production and phytoremediation of unsterilized wastewater and anaerobic digestion centrate. Applied Microbiology and Biotechnology. 99: 6139-54 |