| Abstract: | A novel system for in-situ biological treatment of pentachlorophenol in groundwater is proposed in this work. It is based on the concept of soil immobilization, which has already been shown to be very efficient when applied to bioreactor engineering. For this paper, we used immobilized soil to develop a bioreactor system for an in-situ (in-well) biodegradation of pentachlorophenol (PCP). The process was carried out at 9dGC, a temperature typical for groundwater. The volumetric PCP degradation efficiency in the new system was very high – up to 400 mg/(L.h). The effect of some physicochemical parameters (temperature, substrate concentration) on the biodegradation kinetics was studied. The results obtained show that the application of soil immobilization to the in-situ biodegradation of groundwater contaminated with PCP is very promising. |
