Harvesting of Chlorella sp. by Co-cultivation with Some Fil-amentous Fungi

R. H. Al-Shammari
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Abstract

Algae are play a major role as straight producers of biofuels, so expansion of a new. harvesting-technology is important to achieve economic feasibility of biofuel production from algae.. Fungal pelletization-assisted.. Microalgal harvesting has Emerged as new research area for decreasing the harvesting cost and energy inputs in the algae-to-biofuel method. The present study tried to opti-mize process circumstances as (substrate inputs, process time and pH). Through choice of a ro-bust fungal strain. Four fungal strains (Aspergillus terreus, Trichoderma sp., Mucor sp. and Rhi-zopus sp.) were screened for their pelletizing efficiency in fresh/supplemented chu-10 with select-ed media nutrient (glucose, nitrogen and phosphorous). Results showed that Aspergillus terreus was the most efficient strain for pelletizing in the nutrient supplemented chu-10 with its neutral pH (7) and acidic pH (5). Stimulatingly, A. terreus was capable to harvest nearly 100 % of the Clorella sp. cells (1×106 spore/ml at optical density (OD) approximately 2.5 initial working algal concentration) within only 24 h. at supplementation of (10 g/l glucose, 2.5 mg/l aNH4NO3 and 0.5 mg/l mK2HPO4) also performed well at lower glucose level (5 g/l) can also results in similar har-vesting but its need relatively higher incubation time. The procedure kinetics in term of harvesting index (H. I) as well as the variation of residual glucose and pH with time was also studied. The mechanism of harvesting process was studied through microscopic, examination. A. terreus strain investigated in this study could emerge as an efficient, sustainable and economically viable tool in microalgae harvesting for biofuel production and time conservation
与一些丝状真菌共培养小球藻的收获
藻类作为生物燃料的直接生产者发挥着重要作用,因此扩大了新的规模。收获技术对于实现藻类生物燃料生产的经济可行性至关重要。真菌pelletization-assisted . .微藻收获是降低藻类转化为生物燃料的成本和能源投入的一个新的研究领域。本研究试图优化工艺环境(底物输入,工艺时间和pH值)。通过选择一种健壮的真菌菌株。筛选了4种真菌菌株(土曲霉、木霉、毛霉和rhizopus sp.)在新鲜/添加了葡萄糖、氮、磷的chu-10培养基中的成球效率。结果表明,在中性pH(7)和酸性pH(5)的培养基中,土曲霉(Aspergillus terreus)的成球效率最高。令人兴奋的是,在添加10 g/l葡萄糖的情况下,土曲霉在24 h内就能收获近100%的小球藻细胞(1×106孢子/ml,光密度(OD)约为2.5初始工作藻浓度)。2.5 mg/l aNH4NO3和0.5 mg/l mK2HPO4在较低葡萄糖水平(5 g/l)下也能取得相似的收获效果,但需要相对较长的培养时间。研究了收获指数(H. I)的过程动力学以及剩余葡萄糖和pH值随时间的变化。通过显微检查研究了采收过程的机理。本研究研究的A. terreus菌株可能成为一种高效、可持续和经济可行的微藻收获工具,用于生物燃料生产和节约时间
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