The ability of the carbon dioxide evolution rate (CER) to serve as a control parameter during the acclimation and biodegradation of an aerobic mixed culture was studied. Phenol was used as the sole source of carbon and energy in a sequencing batch reactor system (SBR), coupled to an infrared gas analyser measuring the CO 2 in the exit gas. Activated sludge from a wastewater treatment plant served as inoculum. The evolution of maximal CER during the acclimation process was followed and compared with the microbial activity. A good agreement between substrate removal rate and CER was observed. The CER proved to be representative of the microbial activity. Moreover, it was found that starvation periods had a negative effect on microbial activity (biodegradation rate).
The microbial activity during the aerobic acclimation of activated sludge to phenol was studied. Carbon dioxide evolution rate (CER), measured in a sequencing batch reactor coupled to an infra-red system, was utilized as the activity control parameter. It was found that CER is representative of the microbial metabolism. Moreover, it was observed that starvation periods during acclimation had a negative effect on biodegradation rate.
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