Zima-Kulisiewicz BE, Diez Robles L, Kowalczyk W, Delgado A (2007)
Publication Type: Journal article, Report
Publication year: 2007
Publisher: IWA Publishing
Book Volume: 55
Pages Range: 151-158
Journal Issue: 8-9
URI: http://www.iwaponline.com/wst/05508/wst055080151.htm
DOI: 10.2166/wst.2007.253
Fluid dynamic investigations of multiphase flow (fluid, air, granules) in a sequencing batch reactor (SBR) are presented. SBR can be considered as an attractive technology for cultivation of granular activated sludge (GAS). Granulation is a complicated process and its mechanism is not fully understood yet. Many factors influence the formation and structure of aerobic granular sludge in a bioreactor. Extracellular polymer substances (EPS) and superficial gas velocity (SGV) play a crucial role for granules formation. Additionally, it is supposed that EPS production is stimulated by mechanical forces. It is also assumed that hydrodynamic effects have a major influence on the formation, shape and size of GAS in SBR under aerobic condition. However, the influence of stress on granulation is poorly investigated. Thus, in the present paper, fluid dynamic investigations of multiphase flow in a SBR, particularly effect of normal and shear strain, are reported. In order to analyse multiphase flow in the SBR, optical in-situ techniques with particle image velocimetry (PIV) and particle tracking velocimetry (PTV) are implemented. Obtained results show a characteristic flow pattern in a SBR. It is pointed out that additional effects like particle-wall collisions, inter particle collisions, erosion can also affect significantly granules formation. © IWA Publishing 2007.
APA:
Zima-Kulisiewicz, B.E., Diez Robles, L., Kowalczyk, W., & Delgado, A. (2007). Sequencing batch reactor (SBR) as optimal method for production of granular activated sludge (GAS) - fluid dynamic investigations. Water Science and Technology, 55(8-9), 151-158. https://dx.doi.org/10.2166/wst.2007.253
MLA:
Zima-Kulisiewicz, Bogumila Ewelina, et al. "Sequencing batch reactor (SBR) as optimal method for production of granular activated sludge (GAS) - fluid dynamic investigations." Water Science and Technology 55.8-9 (2007): 151-158.
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