Запис Детальніше

Spatial sequencing of microbial reduction of chromate and nitrate in membrane bioreactor

eKMAIR

Переглянути архів Інформація
 
 
Поле Співвідношення
 
Creator Konovalova, Victoria
Nigmatullin, Rinat
Dmytrenko, G.
Pobigay, Ganna
Коновалова, Вікторія
Побігай, Ганна
 
Date 2010-06-01T12:32:46Z
2010-06-01T12:32:46Z
2008
 
Identifier Spatial sequencing of microbial reduction of chromate and nitrate in membrane bioreactor / V. Konovalova, R. Nigmatullin, G. Dmytrenko, G. Pobigay // Bioprocess and Biosystems Engineering / Springer Berlin. - 2008. - Vol. 31, no. 6. - P. 647-653.
http://www.ekmair.ukma.kiev.ua/handle/123456789/787
 
Description Sequential reduction of chromate and nitrate, two competitive electron acceptors, has been demonstrated for strains of Pseudomonas genus for both planktonic cells and cells immobilised in agar layers on the surface of synthetic membrane. Denitrification occurs practically after chromate depletion. This order of reduction process is consistent with redox potentials of the respective reactions. In a membrane bioreactor, competitive inhibition results in nitrate transfer through the membrane without transformation. Thus the receiving phase is contaminated with nitrate. To address this problem, a membrane has been used for spatial sequencing of chromate and nitrate reduction. Bacterial cells were immobilised in two layers with each layer placed on opposing sides of the membrane. By this means, chromate reduction is localised into the layer contacting the feed phase while nitrate reduction occurs in the layer facing the receiving phase. As a result, only traces of the pollutants are detected in the receiving phase.
Міжнародний благодійний фонд відродження Києво-Могилянської академії
 
Language en
 
Subject membrane bioreactor
chromate
nitrate
microbial reduction
immobilisation
хімія
chemistry
 
Title Spatial sequencing of microbial reduction of chromate and nitrate in membrane bioreactor
 
Type Article
 
Relation Bioprocess and Biosystems Engineering. - 2008. - Vol. 31, no. 6.