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Effects of slight variations in nutrient loadings on pore plugging in soil columns
Authors:Jennings  David A.  Petersen  James N.  Skeen  Rodney S.  Hooker  Brian S.  Peyton  Brent M.  Johnstone  Donald L.  Yonge  David R.
Affiliation:1.Chemical Engineering Department, Washington State University, 99164-2710, Pullman, WA
;2.Engineering Technology Center, Battelle Pacific Northwest Laboratory, Richland, WA
;3.Civil and Environmental Engineering Department, Washington State University, Pullman, WA
;
Abstract:The high nutrient concentrations that would exist near the nutrient injection well during the application of cometabolicin situ bioremediation may lead to the development of significant quantities of biomass at this point in the subsurface. This biomass can decrease the porosity of the soil to such an extent that nutrient injection is no longer possible. In this work, experiments were conducted using a porous media biofilm reactor, operated under constant substrate loading conditions, such that the pressure drop across the reactor was allowed to increase to maintain a constant volumetric flow rate through the reactor. Results suggest that biomass production, and hence biofilm thickness, near the injection feed port is highly sensitive to substrate loading. In addition, these variations in biofilm thickness produce dramatic differences in the pressure drop that is attained across the reactor. Use of the Kozeny-Carman equation can be used to predict that once a critical depth has been exceeded, the pressure drop across the bed will increase exponentially within biofilm depth. This result means that pressure is not a reliable indicator of the onset of pore plugging.
Keywords:  KeywordHeading"  >Index Entries In situ bioremediation  biofilm  simulation  soil column  nutrient loading
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