Effects of substrate stress and light intensity on enhanced biological phosphorus removal in a photo-activated sludge system-Reference-Cited by-同舟云学术

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Effects of substrate stress and light intensity on enhanced biological phosphorus removal in a photo-activated sludge system

Published:2021-02 Issue: Volume:189 Page:116606
ISSN:0043-1354
Container-title:Water Research
language:en
Short-container-title:Water Research

Author:

Mohamed A.Y.A.^ORCID,Welles L.,Siggins A.^ORCID,Healy M.G.,Brdjanovic D.,Rada-Ariza A.M.,Lopez-Vazquez C.M.

Funder

Nuffic

Publisher

Elsevier BV

Subject

Pollution,Waste Management and Disposal,Water Science and Technology,Ecological Modelling,Environmental Engineering,Civil and Structural Engineering

Reference48 articles.

1. The oxygenic photogranule process for aeration-free wastewater treatment;Abouhend;Environmental science & technology,2018

2. Stability of algal-bacterial granules in continuous-flow reactors to treat varying strength domestic wastewater;Ahmad;Bioresource technology,2017

3. Influence of hydraulic retention time on indigenous microalgae and activated sludge process;Anbalagan;Water research,2016

4. Continuous photosynthetic abatement of CO2 and volatile organic compounds from exhaust gas coupled to wastewater treatment: evaluation of tubular algal-bacterial photobioreactor;Anbalagan;Journal of CO2 Utilization,2017

5. Standard methods for the examination of water and wastewater,2005

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3. Influence of high acetate concentrations on enhanced biological phosphorus removal;International Journal of Environmental Science and Technology;2024-04-02

4. Optimizing sludge retention time for sustainable photo-enhanced biological phosphorus removal systems: Insights into nutrient fate, microbial community, and bacterial phototolerance;Journal of Environmental Management;2024-02

5. Oxygen affinity and light intensity induced robust phosphorus removal and fragile ammonia removal in a non-aerated bacteria-algae system;Science of The Total Environment;2024-02

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