Artificial Intelligent Systems and Machine Learning

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An Automatic System for Waste Water Toxic Phenolic Compounds Biodegradation


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1 CESAM & Department of Biology, Universidade de Aveiro, Aveiro, Portugal
     

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The paper presents the main results obtained from the study of the biodegradation of phenolic industrial wastewaters by a pure culture of immobilized cells of Pseudomonas putida ATCC 17484. The experiments were carried out in batch and continuous mode. The maximum degradation capacity and the influence of the adaptation of the microorganism to the substrate were studied in batch mode. Industrial wastewater with a phenol concentration of 1000 mg/l was degraded when the microorganism was adapted to the toxic chemical. The presence in the wastewater of compounds other than phenol was noted and it was found that Pseudomonas putida was able to degrade these compounds. In continuous mode, a fluidized-bed bioreactor was operated and the influence of the organic loading rate on the removal efficiency of phenol was studied. The bioreactor showed phenol degradation efficiencies higher than 90%, even for a phenol loading rate of 0.5 g phenol/ld (corresponding to 0.54 g TOC/ld).


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  • An Automatic System for Waste Water Toxic Phenolic Compounds Biodegradation

Abstract Views: 171  |  PDF Views: 1

Authors

Z. Lali
CESAM & Department of Biology, Universidade de Aveiro, Aveiro, Portugal
Tung Van Dao
CESAM & Department of Biology, Universidade de Aveiro, Aveiro, Portugal
Hisao Nishijo
CESAM & Department of Biology, Universidade de Aveiro, Aveiro, Portugal

Abstract


The paper presents the main results obtained from the study of the biodegradation of phenolic industrial wastewaters by a pure culture of immobilized cells of Pseudomonas putida ATCC 17484. The experiments were carried out in batch and continuous mode. The maximum degradation capacity and the influence of the adaptation of the microorganism to the substrate were studied in batch mode. Industrial wastewater with a phenol concentration of 1000 mg/l was degraded when the microorganism was adapted to the toxic chemical. The presence in the wastewater of compounds other than phenol was noted and it was found that Pseudomonas putida was able to degrade these compounds. In continuous mode, a fluidized-bed bioreactor was operated and the influence of the organic loading rate on the removal efficiency of phenol was studied. The bioreactor showed phenol degradation efficiencies higher than 90%, even for a phenol loading rate of 0.5 g phenol/ld (corresponding to 0.54 g TOC/ld).