2018
DOI: 10.2166/h2oj.2019.018
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Development of a bioreactor system for the remediation of endosulphan

Abstract: A bioreactor system that consisted of Pseudomonas fluorescens cells immobilised in calcium-alginate beads was utilised to remediate endosulphan contaminated water and soil. A packed bed reactor system was designed for the bio-degradation of endosulphan in artificially spiked water samples (initial concentration of endosulphan: 350 µg/L). Reactor studies with cell-immobilised Ca-alginate beads were conducted after checking their efficiency through batch and column degradation studies. The results showed that th… Show more

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Cited by 4 publications
(1 citation statement)
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“…However, when the bioreactor was subjected to the highest flow rate, the concentration of biomass in the medium increased, probably an effect of fluid that washed the immobilized biomass from the support, such as has been reported for the removal of contaminants using packed-bed biofilm reactors or in a moving-bed biofilm reactor (Yañez-Ocampo et al 2011;Alfonso-Gordillo et al 2016;Azizi et al 2019). This rapid removal of pesticides is mainly due to increased cell concentration in the immobilized support (Jesitha and Harikumar 2019).…”
Section: Removal Of a Pesticide Mixture Using A Continuous Stirred Tamentioning
confidence: 84%
“…However, when the bioreactor was subjected to the highest flow rate, the concentration of biomass in the medium increased, probably an effect of fluid that washed the immobilized biomass from the support, such as has been reported for the removal of contaminants using packed-bed biofilm reactors or in a moving-bed biofilm reactor (Yañez-Ocampo et al 2011;Alfonso-Gordillo et al 2016;Azizi et al 2019). This rapid removal of pesticides is mainly due to increased cell concentration in the immobilized support (Jesitha and Harikumar 2019).…”
Section: Removal Of a Pesticide Mixture Using A Continuous Stirred Tamentioning
confidence: 84%