The application of nitric oxide to control biofouling of membrane bioreactors
A novel strategy to control membrane bioreactor (MBR) biofouling using the nitric oxide (NO) donor compound PROLI NONOate was examined. When the biofilm was pre-established on membranes at transmembrane pressure (TMP) of 88–90 kPa, backwashing of the membrane module with 80 μM PROLI NONOate for 45 m...
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sg-ntu-dr.10356-1070382022-02-16T16:27:09Z The application of nitric oxide to control biofouling of membrane bioreactors Rice, Scott A. Luo, Jinxue Zhang, Jinsong Barnes, Robert J. Tan, Xiaohui McDougald, Diane Fane, Anthony G. Zhuang, Guoqiang Kjelleberg, Staffan Cohen, Yehuda School of Biological Sciences A*STAR SIMTech Singapore Centre for Environmental Life Sciences Engineering Advanced Environmental Biotechnology Centre (AEBC) DRNTU::Science::Biological sciences::Microbiology::Microbial ecology A novel strategy to control membrane bioreactor (MBR) biofouling using the nitric oxide (NO) donor compound PROLI NONOate was examined. When the biofilm was pre-established on membranes at transmembrane pressure (TMP) of 88–90 kPa, backwashing of the membrane module with 80 μM PROLI NONOate for 45 min once daily for 37 days reduced the fouling resistance (Rf) by 56%. Similarly, a daily, 1 h exposure of the membrane to 80 μM PROLI NONOate from the commencement of MBR operation for 85 days resulted in reduction of the TMP and Rf by 32.3% and 28.2%. The microbial community in the control MBR was observed to change from days 71 to 85, which correlates with the rapid TMP increase. Interestingly, NO-treated biofilms at 85 days had a higher similarity with the control biofilms at 71 days relative to the control biofilms at 85 days, indicating that the NO treatment delayed the development of biofilm bacterial community. Despite this difference, sequence analysis indicated that NO treatment did not result in a significant shift in the dominant fouling species. Confocal microscopy revealed that the biomass of biopolymers and microorganisms in biofilms were all reduced on the PROLI NONOate-treated membranes, where there were reductions of 37.7% for proteins and 66.7% for microbial cells, which correlates with the reduction in TMP. These results suggest that NO treatment could be a promising strategy to control biofouling in MBRs. Published version 2015-03-30T04:59:01Z 2019-12-06T22:23:38Z 2015-03-30T04:59:01Z 2019-12-06T22:23:38Z 2015 2015 Journal Article Luo, J., Zhang, J., Barnes, R. J., Tan, X., McDougald, D., Fane, A. G., et al. (2015). The application of nitric oxide to control biofouling of membrane bioreactors. Microbial biotechnology, 8(3), 549-560. 1751-7915 https://hdl.handle.net/10356/107038 http://hdl.handle.net/10220/25297 10.1111/1751-7915.12261 25752591 en Microbial biotechnology © 2015 The Authors. Microbial Biotechnology published by John Wiley & Sons Ltd and Society for Applied Microbiology. This is an open access article under the terms of the Creative Commons Attribution License, which permits use, distribution and reproduction in any medium, provided the original work is properly cited. 13 p. application/pdf |
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DRNTU::Science::Biological sciences::Microbiology::Microbial ecology Rice, Scott A. Luo, Jinxue Zhang, Jinsong Barnes, Robert J. Tan, Xiaohui McDougald, Diane Fane, Anthony G. Zhuang, Guoqiang Kjelleberg, Staffan Cohen, Yehuda The application of nitric oxide to control biofouling of membrane bioreactors |
| description |
A novel strategy to control membrane bioreactor (MBR) biofouling using the nitric oxide (NO) donor compound PROLI NONOate was examined. When the biofilm was pre-established on membranes at transmembrane pressure (TMP) of 88–90 kPa, backwashing of the membrane module with 80 μM PROLI NONOate for 45 min once daily for 37 days reduced the fouling resistance (Rf) by 56%. Similarly, a daily, 1 h exposure of the membrane to 80 μM PROLI NONOate from the commencement of MBR operation for 85 days resulted in reduction of the TMP and Rf by 32.3% and 28.2%. The microbial community in the control MBR was observed to change from days 71 to 85, which correlates with the rapid TMP increase. Interestingly, NO-treated biofilms at 85 days had a higher similarity with the control biofilms at 71 days relative to the control biofilms at 85 days, indicating that the NO treatment delayed the development of biofilm bacterial community. Despite this difference, sequence analysis indicated that NO treatment did not result in a significant shift in the dominant fouling species. Confocal microscopy revealed that the biomass of biopolymers and microorganisms in biofilms were all reduced on the PROLI NONOate-treated membranes, where there were reductions of 37.7% for proteins and 66.7% for microbial cells, which correlates with the reduction in TMP. These results suggest that NO treatment could be a promising strategy to control biofouling in MBRs. |
| author2 |
School of Biological Sciences |
| author_facet |
School of Biological Sciences Rice, Scott A. Luo, Jinxue Zhang, Jinsong Barnes, Robert J. Tan, Xiaohui McDougald, Diane Fane, Anthony G. Zhuang, Guoqiang Kjelleberg, Staffan Cohen, Yehuda |
| format |
Article |
| author |
Rice, Scott A. Luo, Jinxue Zhang, Jinsong Barnes, Robert J. Tan, Xiaohui McDougald, Diane Fane, Anthony G. Zhuang, Guoqiang Kjelleberg, Staffan Cohen, Yehuda |
| author_sort |
Rice, Scott A. |
| title |
The application of nitric oxide to control biofouling of membrane bioreactors |
| title_short |
The application of nitric oxide to control biofouling of membrane bioreactors |
| title_full |
The application of nitric oxide to control biofouling of membrane bioreactors |
| title_fullStr |
The application of nitric oxide to control biofouling of membrane bioreactors |
| title_full_unstemmed |
The application of nitric oxide to control biofouling of membrane bioreactors |
| title_sort |
application of nitric oxide to control biofouling of membrane bioreactors |
| publishDate |
2015 |
| url |
https://hdl.handle.net/10356/107038 http://hdl.handle.net/10220/25297 |
| _version_ |
1725985764566630400 |