Growth of microalgae Botryococcus sp. in domestic wastewater and application of statistical analysis for the optimization of flocculation using alum and chitosan

Preparative Biochemistry and Biotechnology Pub Date : 2017-01-05 DOI:10.1080/10826068.2016.1244686

P. Gani, Norshuhaila Mohamed Sunar, H. Matias-Peralta, Ab Aziz Abdul Latiff, S. F. Z. Mohamad Fuzi

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引用次数: 20

Abstract

ABSTRACT Microalga biomass has been recognized as a sustainable bio-product to replace terrestrial biomass in biofuel production. The microalga industry has high operating costs, specifically on harvesting and biomass recovery. Therefore, the development of an efficient harvesting method is crucial to the minimization of production cost. A statistical analysis through response surface methodology was used to investigate the optimization of harvesting efficiency using alum and chitosan as a coagulant. Growth rate and biomass productivity were also determined. This research revealed that the harvesting efficiency using alum was 99.3%, with optimum dosage and pH of 177.74 mg L−1 and 8.24, respectively. Chitosan achieved 94.2% biomass recovery at an optimal dosage of 169.95 mg L−1 at pH of 12. Moreover, Botryococcus sp. achieved the maximum growth of 0.7551 µmax d−1, with an average total biomass productivity of 9.81 mg L−1 d−1 in domestic wastewater. Overall, this study shows that both alum and chitosan coagulants have great potential for efficient microalgal biomass recovery. It suggests that domestic wastewater as a potential growth medium for the large-scale production of microalga biomass.

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微藻芽孢球菌在生活废水中的生长及明矾和壳聚糖絮凝优化的统计分析应用

微藻生物质已被认为是一种可持续的生物产品，可以替代陆地生物质用于生物燃料生产。微藻产业的运营成本很高，特别是在收获和生物质回收方面。因此，开发一种高效的采收方法对降低生产成本至关重要。采用响应面法对明矾和壳聚糖作为混凝剂的收获效率进行了优化研究。测定生长速率和生物量生产力。结果表明，明矾在最佳投加量为177.74 mg L−1、最佳pH为8.24时，收获效率为99.3%。壳聚糖的最佳投加量为169.95 mg L−1,pH为12，生物量回收率为94.2%。此外，在生活废水中，Botryococcus p.的最大生长为0.7551µmax d - 1，平均总生物量生产力为9.81 mg L - 1 d - 1。综上所述，本研究表明明矾和壳聚糖混凝剂对微藻生物量的高效回收具有很大的潜力。这表明生活污水是一种潜在的大规模生产微藻生物量的培养基。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Preparative Biochemistry and Biotechnology

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