Cassidy | Optimization of Biological Sulphate Reduction to Treat Inorganic Wastewaters | Buch | 978-1-138-02950-7 | www.sack.de

Buch, Englisch, 178 Seiten, Format (B × H): 170 mm x 244 mm, Gewicht: 318 g

Reihe: IHE Delft PhD Thesis Series

Cassidy

Optimization of Biological Sulphate Reduction to Treat Inorganic Wastewaters

Process Control and Potential Use of Methane as Electron Donor
1. Auflage 2016
ISBN: 978-1-138-02950-7
Verlag: CRC Press

Process Control and Potential Use of Methane as Electron Donor

Buch, Englisch, 178 Seiten, Format (B × H): 170 mm x 244 mm, Gewicht: 318 g

Reihe: IHE Delft PhD Thesis Series

ISBN: 978-1-138-02950-7
Verlag: CRC Press

This work investigated two different approaches to optimize biological sulphate reduction in order to develop a process control strategy to optimize the input of an electron donor and to study how to increase the feasibility of using a cheap carbon source.
Feast/famine regimes, applied to design the control strategy, were shown to induce the accumulation of storage compounds in the sulphate reducing biomass. This study showed that delays in the response time and a high control gain can be considered as the most critical factors affecting a sulphide control strategy in bioreactors. The delays are caused by the induction of different metabolic pathways in the anaerobic sludge, including the accumulation of storage products. On this basis, a mathematical model was developed and validated. This can be used to develop optimal control strategies.
In order to understand the microbial pathways in the anaerobic oxidation of methane coupled to sulphate reduction (AOM-SR), diverse potential electron donors and acceptors were added to in vitro incubations of an AOM-SR enrichment at high pressure. Acetate was formed in the control group, probably resulting from the reduction of CO2. These results support the hypothesis that acetate may serve as an intermediate in the AOM-SR process.

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Autoren/Hrsg.

Cassidy, Joana

Fachgebiete

Weitere Infos & Material

Chapter 1: Introduction. Chapter 2: Automated Biological Sulphate Reduction: A Review on Mathematical Models, Monitoring and Bioprocess Control. Chapter 3: Sulphide Response Analysis for Sulphide Control Using a pS Electrode in Sulphate Reducing Bioreactors. Chapter 4: Bioprocess Control of Sulphate Reduction in an Inverse Fluidized Bed Reactor: Role of Microbial Accumulation and Dynamic Mathematical Modelling. Chapter 5: Effect of Alternative Co-Substrates on the Rate of Anaerobic Oxidation of Methane and Sulphate Reduction. Chapter 6: General Discussion and Recommendations.

Joana Cassidy was born in 1986 in Porto, Portugal. In 2010, she concluded her BSc and MSc in Environmental Engineering at the University of Aveiro, Portugal. After graduation, she was awarded a Leonardo da Vinci scholarship and completed a seven month internship at UNESCO-IHE, The Netherlands. Having an increasing interest in wastewater treatment, innovation and development of new technologies, she started her PhD studies in 2011 on biological sulphate reduction within the Etecos3 doctoral programme. The research was carried out at UNESCO-IHE (The Netherlands), Jiao Tong Shanghai University (China) and the University of Naples (Italy).

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