Removal of microcystin from lake water using an internal airlift loop ceramic honeycomb support bioreactor

Removal of microcystin from lake water using an internal airlift loop ceramic honeycomb support bioreactor

Cyanobacterial microcystins (MCs) are becoming a threat to human health around the world. They are resistant to conventional water treatment processes hence it is pertinent to look to biological remediation, using bacterial degradation. This study reports on the use of the bacterium Sphingomonas iso...

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Main Authors: Theerasak Somdee, Anchana Somdee, John Ruck, Margaret Allison, Rachel Page
Format: บทความวารสาร
Language:English
Published: Science Faculty of Chiang Mai University 2019
Online Access:http://it.science.cmu.ac.th/ejournal/dl.php?journal_id=7363
http://cmuir.cmu.ac.th/jspui/handle/6653943832/63796
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Institution: Chiang Mai University
Language: English
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spelling th-cmuir.6653943832-637962019-05-07T09:57:18Z Removal of microcystin from lake water using an internal airlift loop ceramic honeycomb support bioreactor Theerasak Somdee Anchana Somdee John Ruck Margaret Allison Rachel Page Cyanobacterial microcystins (MCs) are becoming a threat to human health around the world. They are resistant to conventional water treatment processes hence it is pertinent to look to biological remediation, using bacterial degradation. This study reports on the use of the bacterium Sphingomonas isolate NV-3 to develop a small scale bioreactor for biodegradation of [Dha7]MC-LR. A coupon biofilm formation assay was used to determine optimal surface for bacterial attachment. The NV3 isolate attached most effectively to ceramic followed by PVC, polystyrene, stainless steel, and finally glass coupons. It was demonstrated that the biomass of the bacterium increased steadily over time from 24 to 72 hours on the ceramic surface. A ceramic surface was therefore chosen as the carrier in the small scale bioreactors. In this study an internal airlift loop ceramic honeycomb support bioreactor (IAL-CHS bioreactor), was used for removing MCs. In the batch experiment, NV-3 degraded [Dha7]MC-LR at an initial concentration of 25 µg/ml at 30oC in 30 hours whereas in the continuous-flow experiment, NV-3 degraded the same concentration of [Dha7]MC-LR in 36 hours with hydraulic retention time (HRT) of 8 hours. 2019-05-07T09:57:18Z 2019-05-07T09:57:18Z 2016 บทความวารสาร 0125-2526 http://it.science.cmu.ac.th/ejournal/dl.php?journal_id=7363 http://cmuir.cmu.ac.th/jspui/handle/6653943832/63796 Eng Science Faculty of Chiang Mai University
institution Chiang Mai University
building Chiang Mai University Library
country Thailand
collection CMU Intellectual Repository
language English
description Cyanobacterial microcystins (MCs) are becoming a threat to human health around the world. They are resistant to conventional water treatment processes hence it is pertinent to look to biological remediation, using bacterial degradation. This study reports on the use of the bacterium Sphingomonas isolate NV-3 to develop a small scale bioreactor for biodegradation of [Dha7]MC-LR. A coupon biofilm formation assay was used to determine optimal surface for bacterial attachment. The NV3 isolate attached most effectively to ceramic followed by PVC, polystyrene, stainless steel, and finally glass coupons. It was demonstrated that the biomass of the bacterium increased steadily over time from 24 to 72 hours on the ceramic surface. A ceramic surface was therefore chosen as the carrier in the small scale bioreactors. In this study an internal airlift loop ceramic honeycomb support bioreactor (IAL-CHS bioreactor), was used for removing MCs. In the batch experiment, NV-3 degraded [Dha7]MC-LR at an initial concentration of 25 µg/ml at 30oC in 30 hours whereas in the continuous-flow experiment, NV-3 degraded the same concentration of [Dha7]MC-LR in 36 hours with hydraulic retention time (HRT) of 8 hours.
format บทความวารสาร
author Theerasak Somdee
Anchana Somdee
John Ruck
Margaret Allison
Rachel Page
spellingShingle Theerasak Somdee
Anchana Somdee
John Ruck
Margaret Allison
Rachel Page
Removal of microcystin from lake water using an internal airlift loop ceramic honeycomb support bioreactor
author_facet Theerasak Somdee
Anchana Somdee
John Ruck
Margaret Allison
Rachel Page
author_sort Theerasak Somdee
title Removal of microcystin from lake water using an internal airlift loop ceramic honeycomb support bioreactor
title_short Removal of microcystin from lake water using an internal airlift loop ceramic honeycomb support bioreactor
title_full Removal of microcystin from lake water using an internal airlift loop ceramic honeycomb support bioreactor
title_fullStr Removal of microcystin from lake water using an internal airlift loop ceramic honeycomb support bioreactor
title_full_unstemmed Removal of microcystin from lake water using an internal airlift loop ceramic honeycomb support bioreactor
title_sort removal of microcystin from lake water using an internal airlift loop ceramic honeycomb support bioreactor
publisher Science Faculty of Chiang Mai University
publishDate 2019
url http://it.science.cmu.ac.th/ejournal/dl.php?journal_id=7363
http://cmuir.cmu.ac.th/jspui/handle/6653943832/63796
_version_ 1681425961928622080

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