E1.01 Vuono 2014 ReNUWIt Annual Meeting Poster
Abstract/Contents
- Abstract
More than half of the world’s human population is urbanized. The increased demand for water within urban centers, combined with the uncertainties of climate change, drought, and decaying water infrastructure, lead to depletion of local water supplies. Looking for new solutions to address the needs of sustainable development, domestic wastewater is now being seen as an untapped resource harboring energy, fertilizer, and a source of freshwater. Integrating decentralized water treatment systems for reclamation and reuse of wastewater into an existing urban infrastructure is one option for managing water resources more sustainably. The goal of the research is to:
* Understand the mechanisms that promote microbial biodiversity in engineered wastewater treatment bioreactors, both under disturbed and undisturbed operating conditions.
* Investigate the effect of tailored water treatment on system performance.
Description
Type of resource | other |
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Date created | May 2014 |
Creators/Contributors
Author | Vuono, David |
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Author | Holloway, Ryan |
Author | Cath, Tzahi |
Author | Munakata-Marr, Junko |
Author | Drewes, Jörg E. |
Subjects
Subject | Re-inventing the Nation’s Urban Water Infrastructure |
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Subject | ReNUWIt |
Subject | E1.01 |
Subject | Efficient Engineered Systems |
Subject | Distributed Urban Water Systems |
Subject | Golden |
Subject | Colorado |
Subject | Mines Park |
Subject | bacteria |
Subject | biodegradation |
Subject | biodiversity |
Subject | communities |
Subject | dispersion |
Subject | distributed systems |
Subject | ecology |
Subject | energy |
Subject | integrated water resource management |
Subject | membrane bioreactor |
Subject | microbial community |
Subject | phylogenetics |
Subject | recovery |
Subject | removal |
Subject | resources |
Subject | reuse |
Subject | sequencing batch reactor |
Subject | treatment plants |
Subject | wastewater |
Subject | wastewater treatment |
Subject | water reclamation |
Subject | water reuse |
Bibliographic information
Related Publication | Vuono, D. C., Benecke, J., Henkel, J., Navidi, W. C., Cath, T. Y., Munakata-Marr, J., . . . Drewes, J. E. (2015). Disturbance and temporal partitioning of the activated sludge metacommunity. Isme Journal, 9(2), 425-435. http://doi.org/10.1038/ismej.2014.139 |
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Related Publication | Vuono, D. C., Regnery, J., Li, D., Jones, Z. L., Holloway, R. W., & Drewes, J. E. (2016). rRNA Gene Expression of Abundant and Rare Activated-Sludge Microorganisms and Growth Rate Induced Micropollutant Removal. Environmental Science & Technology, 50(12), 6299-6309. http://doi.org/10.1021/acs.est.6b00247 |
Related Publication | Vuono, D. C., Munakata-Marr, J., Spear, J. R., & Drewes, J. E. (2016). Disturbance opens recruitment sites for bacterial colonization in activated sludge. Environmental Microbiology, 18(1), 87-99. http://doi.org/10.1111/1462-2920.12824 |
Location | https://purl.stanford.edu/yq615hn5583 |
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- License
- This work is licensed under an Open Data Commons Attribution License v1.0.
Preferred citation
- Preferred Citation
- Vuono, David and Holloway, Ryan and Cath, Tzahi and Munakata-Marr, Junko and Drewes, Jörg E.. (2014). E1.01 Vuono 2014 ReNUWIt Annual Meeting Poster. Stanford Digital Repository. Available at: https://purl.stanford.edu/yq615hn5583
Collection
Re-inventing the Nation's Urban Water Infrastructure (ReNUWIt)
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- Contact
- tcath@mines.edu
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