E2.12 Li 2018 ReNUWIt Annual Meeting Poster
Abstract/Contents
- Abstract
Wastewater treatment plants can be transformed into biorefineries for simultaneous wastewater treatment, energy production, and nutrient recovery.
Microalgae can be used for wastewater treatment, and the produced algal biomass can be harvester and used as feedstocks for downstream processes like hydrothermal liquefaction (HTL).
A series of HTL-based aqueous conversion processes suitable for wastewater-derived algal biomass (WW-algae) can be tailored into an intergrated system to realize the complete conversion of WW-algae.
Description
Type of resource | other |
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Date created | Undated |
Creators/Contributors
Author | Li, Yalin |
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Author | Slouka, Sydney |
Author | Henkanatte Gedera, Shanka |
Author | Nirmalakhandan, Nagamany |
Author | Tarpeh, William |
Author | Nelson, Kara |
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/jf821kb0575 |
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Preferred citation
- Preferred Citation
- Li, Y.L., Slouka, S.A., Henkanatte-Gedera, S.M., Nirmalakhandan, N., Tarpeh, W.A., Nelson, K.L., and Strathmann, T.J. (2018). E2.12 Li 2018 ReNUWIt Annual Meeting Poster. Stanford Digital Repository. Available at: https://purl.stanford.edu/jf821kb0575
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Re-inventing the Nation's Urban Water Infrastructure (ReNUWIt)
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