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Please use this identifier to cite or link to this item: http://hdl.handle.net/1783.1/1508
Title: Wastewater nitrogen and phosphorus removal by free and immobilized microalgal systems
Authors: Lau, Pui-sang
Issue Date: 1995
Abstract: The employment of the unicellular green algae Chlorella was demonstrated as a model system in removing nutrients (N and P) from the primary settled wastewater in free and carrageenan immobilized states. The growth and nutrient removal performance was related to the type of organic-N substrates and affected by the bacterial interactions in the studies using synthetic wastewater. In wastewater, the nutrient removal was shown to be cell density dependent, correlated to the algal . growth and photosynthetic status in terms of chlorophyll content. Physiological acclimation process was proved to be an effective mean in reducing the retention time for treatment process. Carrageenan as an immobilizing matrix or the heating process associated with the gelling process had no adverse effect on the growth (k and μ[supscript max]), chlorophyll status, nutrient uptake and the nitrate reductase activity of C. vulgaris when compared with the free cells. Carrageenan gel beads was shown to be a NH4[supperscript +] shuttle in adsorbing the ion, temporary storing it and released it when ambient conditions was depleted of the ion. Simultaneous N and P removal from primary settled wastewater was found to be promising. Over 95% N and almost complete P were removed for a retention time of 3 days. This was just half of the time required by the free cell systems operated under similar conditions. The carrageenan immobilized algal system persisted for three 3-day cycles in a continuous batchwise operation before cell leakage became serious. Nitrogen removal effkiency dropped from 95% in the first cycle to 65% in the third cycle. The incorporation of a Delay process between the consecutive cycles sustained the N removal efficiency at 90% though the leakage problem was not alleviated. The alternative incorporation of a Rehardening process extended the operation life to four cycles with a sustaining 95% N removal throughout the process. With this understanding and proper reactor design, the upscale of the immobilized algal system is promising. The maximal cell holding capacity of the gel became a practical limitation of the immobilized system with respect to leakage problem. Good growth of the algal cells in the interior of the bead was confirmed by tracing the temporal confocal images and SEMs. Confocal microscopy is a promising diagnostic technique in delineating the spatial distribution of the algal cells in the beads.
Description: Thesis (Ph.D.)--Hong Kong University of Science and Technology, 1995
xxiii, 283 leaves : ill., photos. (some col.) ; 30 cm
HKUST Call Number: Thesis BIOL 1995 Lau
URI: http://hdl.handle.net/1783.1/1508
Appears in Collections:BIOL Doctoral Theses

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