Harvesting of Microalgae from Synthetic Fertilizer Wastewater by Magnetic Particles Through Embedding–Flocculation Strategy

Microalgae bio-treatment of synthetic fertilizer wastewater is particularly attractive due to their photosynthetic capabilities. Microalgae tend to convert solar energy into useful biomass, incorporating with the nutrients that present in wastewater, such as nitrogen and phosphorus. However, harvest...

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Bibliographic Details
Published in:Arabian journal for science and engineering (2011) 2021-07, Vol.46 (7), p.6619-6633
Main Authors: Loo, Gaik Eng, Chng, Lee Muei, Yeap, Swee Pin, Lim, JitKang, Chan, Derek Juinn Chieh, Leong, Sim Siong, Toh, Pey Yi
Format: Article
Language:English
Subjects:
Algae
Biodiesel fuels
Biomass energy production
Chitosan
Embedding
Engineering
Fertilizers
Flocculation
Humanities and Social Sciences
Iron oxides
Lipids
multidisciplinary
Nutrients
Photosynthesis
Research Article-Chemical Engineering
Science
Sedimentation
Sedimentation & deposition
Solar energy conversion
Wastewater treatment
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Summary:Microalgae bio-treatment of synthetic fertilizer wastewater is particularly attractive due to their photosynthetic capabilities. Microalgae tend to convert solar energy into useful biomass, incorporating with the nutrients that present in wastewater, such as nitrogen and phosphorus. However, harvesting of microalgae remains a challenge because of the small size (3–30 μm) of microalgae cells and the repulsion between the negatively charged microalgae cells maintains a stable cell suspension. Magnetic-aided-embedding-flocculation strategy, which is one-step method by mixing microalgae, magnetic particles and flocculant together, is proposed for microalgae harvesting in order to meet cost and time effectiveness. In this study, the optimum cell separation efficiency of Chlorella vulgaris microalgae above 96% at 5 mg/L of chitosan dosage is achieved. With the aid of iron oxide particles, either micro- or nano-size, the sedimentation rate of cell flocs up to 250 cm/h is obtained when 10 mg/L of iron oxide is embedded into the cell flocs. The sedimentation rate with the embedding of iron oxide shows about 2 times faster than that of without magnetic particles. This strategy had proven effective for the polishing of the pretreated synthetic fertilizer wastewater by removing up to 53%, 74% and 70% of ortho-phosphate, nitrate and ammoniacal nitrogen, respectively. In addition, the presence of iron oxide particles and chitosan in microalgae harvesting that showed no adverse effect toward the quantity and quality of extracted lipid. This strategy is proven feasible for fertilizer wastewater treatment and biodiesel production.
ISSN:2193-567X
1319-8025
2191-4281
DOI:10.1007/s13369-020-05317-5