posted on 2018-02-21, 09:28authored byIain R. Moyles, Andrew C. Fowler
Nitrification at the site of a contaminant ammonium plume from a former coal carbonisation plant can be modelled with three competing bacterial populations of Nitrosomonas, Nitrobacter, and Brocadia anammoxidans. Oscillations of chemical species at the site can be explained by a reduced model of ammonium competition between Nitrosomonas and B. anammoxidans which effectively acts as an activator-inhibitor system. Stable oscillations occur in conditions of low nutrient (ammonium) supply and this causes a spatial travelling wave in a borehole profile when diffusion is introduced.
Funding
THIS EFFORT OFFERS A UNIQUE OPPORTUNITY FOR HIGH SCHOOL STUDENTS TO COLLABORATE WITH UNIVERSITY STUDENTS AND ENGINEERING MENTORS TO SOLVE AUTHENTIC NASA-INSPIRED, DESIGN-BASED ENGINEERING PROBLEMS USING HIGHLY ENGAGING, 21ST-CENTURY TECHNOLOGY TOOLS AND S