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The most commonly used biological wastewater treatment technologies
still have serious technical-economical and sustainability-related
limitations, due to their high energy requirements, poor effluent
quality, and lack of energy and resource recovery processes. In
this thesis, novel electrochemical membrane bioreactors (EMBRs),
which take advantage of membrane separation and bioelectrochemical
techniques, are developed for wastewater treatment and the
simultaneous recovery of energy and resources. Above all, this
innovative system holds great promise for the efficient wastewater
treatment and energy recovery. It can potentially recover net
energy from wastewater while at the same time harvesting
high-quality effluent. The book also provides a proof-of-concept
study showing that electrochemical control might offer a promising
in-situ means of suppressing membrane fouling. Lastly, by
integrating electrodialysis into EMBRs, phosphate separation and
recovery are achieved. Hence, these new EMBR techniques provide
viable alternatives for sustainable wastewater treatment and
resource recovery.
The most commonly used biological wastewater treatment technologies
still have serious technical-economical and sustainability-related
limitations, due to their high energy requirements, poor effluent
quality, and lack of energy and resource recovery processes. In
this thesis, novel electrochemical membrane bioreactors (EMBRs),
which take advantage of membrane separation and bioelectrochemical
techniques, are developed for wastewater treatment and the
simultaneous recovery of energy and resources. Above all, this
innovative system holds great promise for the efficient wastewater
treatment and energy recovery. It can potentially recover net
energy from wastewater while at the same time harvesting
high-quality effluent. The book also provides a proof-of-concept
study showing that electrochemical control might offer a promising
in-situ means of suppressing membrane fouling. Lastly, by
integrating electrodialysis into EMBRs, phosphate separation and
recovery are achieved. Hence, these new EMBR techniques provide
viable alternatives for sustainable wastewater treatment and
resource recovery.
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