E2.12 Li 2017 ReNUWIt Annual Meeting Poster
Abstract/Contents
- Abstract
Wastewater treatment plants can be transformed into biorefineries for simultaneous wastewater treatment, energy production, and nutrient recovery.
• The aqueous-rich nature of wastewater and bacterial culture media promote hydrothermal techniques.
• This project couples hydrothermal liquefaction (HTL) and algal cultivation to recover the energy and nutrients in wastewater.
Description
Type of resource | other |
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Date created | May 2017 |
Creators/Contributors
Author | Li, Yalin |
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Author | Leow, Shijie |
Author | Slouka, Sydney |
Author | Henkanatte Gedara, Shanka |
Author | Nirmalakhandan, Nagamany |
Author | Strathmann, Timothy |
Subjects
Subject | Re-inventing the Nation’s Urban Water Infrastructure |
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Subject | ReNUWIt |
Subject | E2.12 |
Subject | Efficient Engineered Systems |
Subject | Energy and resource recovery |
Subject | California |
Subject | algal |
Subject | algal biofuel |
Subject | algal biomass |
Subject | bio oil |
Subject | biocrude oil |
Subject | biofuel production |
Subject | biomass |
Subject | carbon |
Subject | chemistry |
Subject | chlorella pyrenoidosa |
Subject | comprehensive technoeconomic analysis |
Subject | conversion |
Subject | cost |
Subject | cultivation |
Subject | hydrothermal liquefaction |
Subject | hydrothermal liquefaction (htl) |
Subject | life cycle assessment |
Subject | microalgae |
Subject | nannochloropsis sp |
Subject | nitrogen |
Subject | nitrogen removal |
Subject | nutrients |
Subject | oil |
Subject | recovery |
Subject | subcritical water |
Subject | supercritical water |
Subject | techno economic analysis |
Subject | wastewater treatment |
Bibliographic information
Related Publication | Li, Y. L., Leow, S., Fedders, A. C., Sharma, B. K., Guest, J. S., & Strathmann, T. J. (2017). Quantitative multiphase model for hydrothermal liquefaction of algal biomass. Green Chemistry, 19(4), 1163-1174. http://doi.org/10.1039/c6gc03294j |
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Related Publication | Li, Y. L., Tarpeh, W. A., Nelson, K. L., & Strathmann, T. J. (2018). Quantitative Evaluation of an Integrated System for Valorization of Wastewater Algae as Bio-oil, Fuel Gas, and Fertilizer Products. Environmental Science & Technology, 52(21), 12717-12727. http://doi.org/10.1021/acs.est.8b03663 |
Related Publication | Li, Y. L., Leow, S., Dong, T., Nagle, N. J., Knoshaug, E. P., Laurens, L. M. L., . . . Strathmann, T. J. (2019). Demonstration and Evaluation of Hybrid Microalgae Aqueous Conversion Systems for Biofuel Production. Acs Sustainable Chemistry & Engineering, 7(6), 5835-5844. http://doi.org/10.1039/c6gc03294j |
Related Publication | Li, Y. L., Slouka, S. A., Henkanatte-Gedera, S. M., Nirmalakhandan, N., & Strathmann, T. J. (2019). Seasonal treatment and economic evaluation of an algal wastewater system for energy and nutrient recovery. Environmental Science-Water Research & Technology, 5(9), 1545-1557. http://doi.org/10.1039/c9ew00242a |
Related Publication | Li, Y. L., & Strathmann, T. J. (2019). Kinetics and mechanism for hydrothermal conversion of polyhydroxybutyrate (PHB) for wastewater valorization. Green Chemistry, 21(20), 5586-5597. http://doi.org/10.1039/c9gc02507c |
Location | https://purl.stanford.edu/nk124tm2138 |
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- License
- This work is licensed under an Open Data Commons Attribution License v1.0.
Preferred citation
- Preferred Citation
- Li, Y.L., Leow, S., Slouka, S.A., Henkanatte-Gedara, S.M., Nirmalakhandan, N., and Strathmann, T.J. (2017). E2.12 Li 2017 ReNUWIt Annual Meeting Poster. Stanford Digital Repository. Available at: https://purl.stanford.edu/nk124tm2138
Collection
Re-inventing the Nation's Urban Water Infrastructure (ReNUWIt)
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- strthmnn@mines.edu
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