Print Email Facebook Twitter The effect of anaerobic influent contact regime on granulation Title The effect of anaerobic influent contact regime on granulation Author Schouteren, Madelon (TU Delft Applied Sciences) Contributor Pronk, M. (graduation committee) van Loosdrecht, Mark C.M. (mentor) Haaksman, V.A. (graduation committee) Degree granting institution Delft University of Technology Programme Life Science and Technology (LST) Date 2019-10-10 Abstract Nowadays the use of aerobic granular sludge, also known as Nereda™ in municipal wastewater treatment, is applied worldwide. The next innovation in for this technology is the implementation of granular sludge in continuous flow through configuration. However, many challenges will have to be faced before this technology can be applied in full scale wastewater treatment plants. One of these is the formation and behaviour of granular sludge in continuous flow reactors. In this study the start-up and steady state behaviour of two lab-scale bioreactors were compared on growth speed, granule size distribution, influent distribution and density. One of the reactors was run with an up flow feeding through the sludge bed, as performed in Nereda™ plants. The second reactor was run with a pulse feeding, followed by an anaerobic mixing phase. By combining data from image analysis with reactor cycle measurements, batch tests, PHA determination and density measurements, a classification of the granule size distribution and COD distribution over the granules was made. A comparison between the reactors could be made, as both reactors were exposed to the same conditions, except for their anaerobic influent regime. Both reactors were fully granulated at the end of reactor operations. The bed fed reactor had a faster average growth speed of granules due to the higher COD load on the biggest granule fraction. This selected for a higher mass fraction of granules greater than 1mm in diameter in the bed fed reactor. Both reactors seemed to suffer from diffusion limitation, as oxygen limitation was observed in the bedfed reactor, while the pulse fed reactor showed spatial COD limitation. Both reactors experienced some degree of P-limitation. The results from this study can be used to model granulation and granule metabolism of aerobic granular sludge exposed to different anaerobic contact regimes. To reference this document use: http://resolver.tudelft.nl/uuid:d7767997-f597-4319-b041-557b153ecdeb Embargo date 2022-01-01 Part of collection Student theses Document type master thesis Rights © 2019 Madelon Schouteren Files PDF Madelon_Schouteren_Master ... ersion.pdf 2.16 MB Close viewer /islandora/object/uuid:d7767997-f597-4319-b041-557b153ecdeb/datastream/OBJ/view