E2.11 Kim 2019 ReNUWIt Annual Meeting Poster
Abstract/Contents
- Abstract
- The Staged Anaerobic Fluidized Bed Membrane Bioreactor (SAF-MBR) has been established as a viable secondary treatment technology for domestic wastewater at the pilot-scale. However, with anaerobic technologies, tertiary treatment trains equipped to remove/recover nutrients are needed. The membrane-aerated biofilm reactor (MABR) may be an appropriate tertiary treatment technology for SAF-MBR permeate. Here, a bench-scale MABR was designed and constructed to oxidize ammonium-rich SAF-MBR effluent. Water quality parameters (pH, DO, Temp) will be monitored continuously through an Arduino microcontroller system. It is hypothesized that a biofilm system will better preserve the high-quality effluent obtained after the SAF-MBR than dispersed growth systems. Furthermore, it is hypothesized that control of various parameters such as free ammonia, free nitrous acid, and dissolved oxygen will promote sustained nitrite production over nitrate.
Description
Type of resource | still image, Dataset, text |
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Date created | May 2019 |
Date modified | December 5, 2022 |
Publication date | April 29, 2022 |
Creators/Contributors
Author | Kim, Andew |
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Author | Shin, Chungheon |
Author | Criddle, Craig |
Subjects
Subject | Efficient Engineered Systems |
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Subject | Re-inventing the Nation’s Urban Water Infrastructure |
Subject | ReNUWIt |
Subject | E2.11 |
Subject | Energy and resource recovery |
Subject | California |
Subject | Codiga Resource Recovery Center |
Subject | Silicon Valley Clean Water |
Genre | Image |
Genre | Poster |
Genre | Data |
Genre | Text |
Genre | Posters |
Genre | Data sets |
Genre | Dataset |
Bibliographic information
Access conditions
- Use and reproduction
- User agrees that, where applicable, content will not be used to identify or to otherwise infringe the privacy or confidentiality rights of individuals. Content distributed via the Stanford Digital Repository may be subject to additional license and use restrictions applied by the depositor.
- License
- This work is licensed under an Open Data Commons Attribution License v1.0.
Preferred citation
- Preferred citation
- Kim, A., Shin, C., & Criddle, C.S. (2019). E2.11 Kim 2019 ReNUWIt Annual Meeting Poster. Stanford Digital Repository. Available at: https://purl.stanford.edu/rn364rw6247
Collection
Re-inventing the Nation's Urban Water Infrastructure (ReNUWIt)
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- Contact
- criddle@stanford.edu
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