Encapsulated Cell Bioremediation: Evaluation on the Basis of Particle Tracer Tests |
| |
| Authors: | CR Petrich KE Stormo DR Ralston RL Crawford |
| |
| Institution: | Research Scientist, Idaho Water Resources Research Institute, University of Idaho - Boise Center, 800 Park Blvd., Ste. 200, Boise, ID 83712. E-mail:;Research Director, Innovative BioSystems Inc., 122 Sweet Ave., Moscow, ID 82843.;Professor, Department of Geology and Geological Engineering, University of Idaho, Moscow, ID 83844.;Director, Institute for Molecular and Genetic Engineering, Co-Director, Institute for Hazardous Waste Remediation Research, University of Idaho, Moscow, ID 83844. |
| |
| Abstract: | Microencapsulation of degradative organisms enhances microorganism survivability (Stormo and Crawford 1994). The use of encapsulated cell microbeads for in situ biodegradation depends not only on microorganism survival but also on microbead transport characteristics. Two forced-gradient, recirculating-loop tracer experiments were conducted to evaluate the feasibility of encapsulated cell transport and bioremediation on the basis of polystyrene microsphere transport results. The tracer tests were conducted in a shallow, confined, unconsolidated, heterogeneous, sedimentary aquifer using bromide ion and 2 μm, 5 μn, and 15 μm microsphere tracers. Significant differences were observed in the transport of bromide solute and polystyrene microspheres. Microspheres reached peak concentrations in monitoring wells before bromide, which was thought to reflect the influence of aquifer heterogeneity. Greater decreases in microsphere C/Co ratios were observed with distance from the injection wells than in bromide C/Co ratios, which was attributed to particle filtration and/or settling. Several methods might be considered for introducing encapsulated cell microbeads into a subsurface environment, including direct injection into a contaminated aquifer zone, injection through a recirculating ground water flow system, or emplacement in a subsurface microbial curtain in advance of a plume. However, the in situ use of encapsulated cells in an aquifer is probably limited to aquifers containing sufficiently large pore spaces, allowing passage of at least some encapsulated cells. The use of encapsulated cells may also be limited by differences in solute and microbead transport patterns and flowpath clogging by larger encapsulated cell microbeads. |
| |
| Keywords: | |
|
|
