Strategy for complete nitrogen removal in bioreactor landfills

Berge, Nicole D, Debra R Reinhart, and Eyad S Batarseh. 2007. “Strategy for Complete Nitrogen Removal in Bioreactor Landfills”. Journal of Environmental Engineering 133 (12): 1117-25.

Abstract

Waste acclimation and batch microcosm studies containing digested municipal solid waste were conducted at different temperatures (22, 35, and 45 C) and gas-phase oxygen concentrations (0.7–100%, by volume) to provide guidance for field-scale implementation of in situ nitrogen removal processes. Results demonstrate that in situ ammonia–nitrogen is feasible in decomposed aerated solid waste environments at the gas-phase oxygen concentrations and temperatures evaluated and the potential for simultaneous nitrification and denitrification in field-scale bioreactor landfills is significant due to the presence of both aerobic and anoxic areas. Small amounts of oxygen were found sufficient for nitrification/ammonia removal to proceed, although removal rates increase with oxygen concentration. Laboratory results suggest field-scale implementation of in situ nitrogen removal occur in small dedicated treatment zones containing previously degraded waste (later in the life of a bioreactor landfill). Model simulations indicate removal of ammonia–nitrogen to low levels can occur with relatively short aeration depths (depth estimates ranged from 1.6 to 7.2 m below the point of leachate injection). Field-scale verification of these depth estimates is required prior to routine acceptance.

Last updated on 09/13/2022