Improving wastewater treatment plant performance by applying CFD models for design and operation: selected case studies

Improving wastewater treatment plant performance by applying CFD models for design and operation: selected case studies

Hydrodynamic simulation (CFD: computational fluid dynamics) is one of the major tools for planning the reconstruction and operation of the structures in wastewater treatment plants, and its routine use is commonplace because of the cost savings and efficiency gains that can be achieved. This paper p...

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Detalles Bibliográficos
Autor principal: M. Patziger
Formato: article
Lenguaje:EN
Publicado: IWA Publishing 2021
Materias:
aeration
grit chambers
mixing
operation
return sludge control
water resources recovery
Environmental technology. Sanitary engineering
TD1-1066
Acceso en línea:https://doaj.org/article/651460231bb84d27ada4aca1a5eef0e0
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Sumario:Hydrodynamic simulation (CFD: computational fluid dynamics) is one of the major tools for planning the reconstruction and operation of the structures in wastewater treatment plants, and its routine use is commonplace because of the cost savings and efficiency gains that can be achieved. This paper provides examples of how CFD can contribute to substantial improvements in the overall efficiency of wastewater treatment plants.The case studies presented in the paper include rarely investigated issues, such as the operation of aerated grit chambers, performance of primary settling tanks, mixing performance in oxidation ditches and return sludge control. The results show that: (1) air intake rate can be strongly decreased in most of the grit chambers, (2) optimization of the inlet geometry design of primary settling tanks is crucial, especially at high loads caused by storm events, (3) mixer performance design based on current design guidelines is often of an unnecessarily high capacity, (4) sludge recirculation rate should be optimized by CFD investigations based on secondary settling tank performance. HIGHLIGHTS Results of little-investigated processes are shown in the paper.; Air intake rate can be strongly decreased in most of the grit chambers.; Optimizing primary settling tank performance leads to an enhanced removal efficiency, especially at high load (for example, storm events).; Grit chambers, primary settling, mixing and return sludge control should always be optimized by computational flow dynamics (CFD) simulations.;

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