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Bruce E Rittmann

Showing results (21-30 of 369) with videos related to

Pageof 37
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Water Research|July 28, 2004
Evaluating trends in biofilm density using the UMCCA modelChrysi S Laspidou, Bruce E Rittmann
Environmental Science & Technology|December 25, 2009
Significance of biological hydrogen oxidation in a continuous single-chamber microbial electrolysis cellHyung-Sool Lee, Bruce E Rittmann
Biodegradation|February 24, 2007
Modeling bio-protection and the gradient-resistance mechanismAlex O Schwarz, Bruce E Rittmann
Biodegradation|July 25, 2003
Slow complexation kinetics for ferric iron and EDTA complexes make EDTA non-biodegradableAnna I Willett, Bruce E Rittmann
Biodegradation|May 23, 2006
The ACCEL model for accelerating the detoxification kinetics of hydrocarbons requiring initial monooxygenation reactionsElizabeth P Dahlen, Bruce E Rittmann
Journal of Contaminant Hydrology|January 19, 2010
The diffusion-active permeable reactive barrierAlex O Schwarz, Bruce E Rittmann
Biodegradation|February 6, 2007
A biogeochemical framework for metal detoxification in sulfidic systemsAlex O Schwarz, Bruce E Rittmann
Water Research|July 28, 2004
Modeling the development of biofilm density including active bacteria, inert biomass, and extracellular polymeric substancesChrysi S Laspidou, Bruce E Rittmann
Water Research|July 3, 2002
Applying a novel autohydrogenotrophic hollow-fiber membrane biofilm reactor for denitrification of drinking waterKuan-Chun Lee, Bruce E Rittmann
Biodegradation|November 27, 2002
Two-tank suspended growth process for accelerating the detoxification kinetics of hydrocarbons requiring initial monooxygenation reactionsElizabeth P Dahlen, Bruce E Rittmann
Pageof 37

Showing results (21-30 of 369) with videos related to

Sort By:
Pageof 37
Water Research|July 28, 2004
Evaluating trends in biofilm density using the UMCCA modelChrysi S Laspidou, Bruce E Rittmann
Environmental Science & Technology|December 25, 2009
Significance of biological hydrogen oxidation in a continuous single-chamber microbial electrolysis cellHyung-Sool Lee, Bruce E Rittmann
Biodegradation|February 24, 2007
Modeling bio-protection and the gradient-resistance mechanismAlex O Schwarz, Bruce E Rittmann
Biodegradation|July 25, 2003
Slow complexation kinetics for ferric iron and EDTA complexes make EDTA non-biodegradableAnna I Willett, Bruce E Rittmann
Biodegradation|May 23, 2006
The ACCEL model for accelerating the detoxification kinetics of hydrocarbons requiring initial monooxygenation reactionsElizabeth P Dahlen, Bruce E Rittmann
Journal of Contaminant Hydrology|January 19, 2010
The diffusion-active permeable reactive barrierAlex O Schwarz, Bruce E Rittmann
Biodegradation|February 6, 2007
A biogeochemical framework for metal detoxification in sulfidic systemsAlex O Schwarz, Bruce E Rittmann
Water Research|July 28, 2004
Modeling the development of biofilm density including active bacteria, inert biomass, and extracellular polymeric substancesChrysi S Laspidou, Bruce E Rittmann
Water Research|July 3, 2002
Applying a novel autohydrogenotrophic hollow-fiber membrane biofilm reactor for denitrification of drinking waterKuan-Chun Lee, Bruce E Rittmann
Biodegradation|November 27, 2002
Two-tank suspended growth process for accelerating the detoxification kinetics of hydrocarbons requiring initial monooxygenation reactionsElizabeth P Dahlen, Bruce E Rittmann
Pageof 37