利用养殖废水开发核核小球藻生物质能源的研究

Jiang Zheng, Bo Wang
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引用次数: 3

摘要

微藻生物质能是最具潜力的可再生能源之一。但过高的成本,特别是材料成本限制了其产业化。养殖废水富含氮磷,是造成周边水体富营养化的主要原因,一直是困扰水产养殖可持续发展的难题。虽然已有许多处理方法在现场得到应用,但昂贵的成本限制了它们的广泛应用。微藻可以利用废水中的氮、磷进行生长,因此利用微藻净化废水并从废水中产生微藻生物质能源是可行的。对三种养殖废水中核核小球藻的生长进行了研究,并对养殖条件进行了优化。研究表明,在半银舌藻培养废水中可以生长念珠核小球藻。在pH5、光照5000 LX、初始接种密度0.01 mg/mL的条件下,微藻生长最佳。在最佳条件下,微藻可在11天内去除废水中75.2%的活性磷、100%的氨氮、84.1%的亚硝酸盐氮和52.8%的硝酸盐氮,表明在养殖废水中培养微藻是一种既能开发微藻生物质能源又能净化废水的良好方法。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Exploitation of Chlorella Pyrenoidosa's Biomass Energy by Aquiculture Wastewater
Biomass energy of microalgea is one of the most potential renewable energy. However, over expensive cost, especially the material cost limited its industrialization. Aquiculture wastewater, which is rich in nitrogen and phosphorus, is a main reason for the eutrophication of the surrounding water and is always a problem for the sustainable development of aquaculture. Although many treatments have been used in the field, the expensive cost limited their wide application. Microalgae can utilize the N and P in the wastewater to grow, so it is feasible to purify the wastewater by the microalgae and produce the biomass energy of microalgae from the wastewater. The present paper studied the growth of Chlorella pyrenoidosa in three aquiculture wastewaters and optimized the cultivating condition. The study showed that Chlorella pyrenoidosa could grow in the wastewater from the culture of Cynoglossus semilaevis. Under the condition of pH5, illumination 5000 LX and original inoculation density 0.01 mg/mL, the microalgae had the best growth. Under the optimal condition, the microalgae could eliminate 75.2% active phosphorus, 100% ammonia nitrogen, 84.1% nitrite nitrogen and 52.8% nitrate nitrogen in the wastewater within 11 days, which suggested that the cultivation of microalgae in aquiculture wastewater is a good method for both the exploitation of microalgae biomass energy and the purification of wastewater.
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