Harvey Gullicks scite author profile

The work reviewed here was published between 2008 and 2010 and describes research that involved aerobic and anoxic biofilm treatment of water pollutants. Biofilm denitrification systems are covered when appropriate. References catalogued here are divided on the basis of fundamental research area or reactor types. Fundamental research into biofilms is presented in two sections, Biofilm Measurement and Characterization and Growth and Modeling. The reactor types covered are: trickling filters, rotating biological contactors, fluidized bed bioreactors, submerged bed biofilm reactors, biological granular activated carbon, membrane bioreactors, and immobilized cell reactors. Innovative reactors, not easily classified, are then presented, followed by a section on biofilms on sand, soil and sediment.

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Cold-climate nitrification on plastic media trickling filters

Gullicks¹

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Trickling Filter Nitrification Performance Characteristics and Potential of a Full-Scale Municipal Wastewater Treatment Facility

Evans¹,

Ellis

Gullicks

et al. 2004

J. Environ. Eng.

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The trickling filter solids contact water pollution control facility for the city of Ames, Iowa has successfully nitrified wastewater with trickling filters for the past decade. Both first stage, carbonaceous biochemical oxygen demand removing trickling filters (TFs) and second stage, nitrifying TFs (NTFs) remove significant quantities of ammonia from the wastewater. Based on operating data from January 1999 through December 2001, the average specific ammonia removal rate for the TFs was 1.5ϫ 10 −4 kg N / ͑d m 2 ͒. Most probable number testing confirmed the presence of nitrifiers in the top media layer of both stages of trickling filters. An experiment was performed whereby flows to the TFs and NTFs were varied to test ammonia removal capabilities of the facility. During the experiment, the TFs removed an average of 2.4ϫ 10 −4 kg N / ͑d m 2 ͒ and the NTFs removed an average of 1.5ϫ 10 −5 kg N / ͑d m 2 ͒ due to low loading. Data collected during the study varied with operating conditions. It was compared to and used to calibrate NTF models. An empirical design model poorly fit the data, and a theoretically based model could not be calibrated well with apparent ammonia removal rates. A best-fit equation, dependent on hydraulic loading and influent ammonia concentration (adjusted for recirculation), was regressed directly to the data and is useful for describing nitrification in the Ames WPCF TFs.

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Activated Sludge and Other Aerobic Suspended Culture Processes

Moretti

Das

Kistner

et al. 2011

Water

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Activated Sludge and Other Aerobic Suspended Culture Processes

Moretti

Das

Kistner

et al. 2011

Water

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Harvey Gullicks

Biofilm Fixed Film Systems

Cold-climate nitrification on plastic media trickling filters

Trickling Filter Nitrification Performance Characteristics and Potential of a Full-Scale Municipal Wastewater Treatment Facility

Activated Sludge and Other Aerobic Suspended Culture Processes

Activated Sludge and Other Aerobic Suspended Culture Processes

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