Recycling of Nutrients from Dairy Wastewater by Extremophilic Microalgae with High Ammonia Tolerance

Na Pang; Andre David Bergeron; Xiangyu Gu; Xiao Fu; Tao Dong; Yiqing Yao; Shulin Chen

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Recycling of Nutrients from Dairy Wastewater by Extremophilic Microalgae with High Ammonia Tolerance

机译：Exprodophilic Microalgaae与高氨耐受性的乳制品废水中的营养素回收

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This study explored the possibility of incorporating extremophilic algal cultivation into dairy wastewater treatment by characterizing a unique algal strain. Results showed that extremophilic microalgae Chlorella vulgaris CA1 newly isolated from dairy wastewater tolerated a high level of ammonia nitrogen (2.7 g/L), which was over 20 times the ammonia nitrogen that regular Chlorella sp. could tolerate. The isolate was mixotrophically cultured in dairy effluent treated by anaerobic digestion (AD) for recycling nutrients and polishing the wastewater. The highest biomass content of 13.3 g/L and protein content of 43.4% were achieved in the culture in AD effluent. Up to 96% of the total nitrogen and 79% of the total phosphorus were removed from the dairy AD effluent. The ability of the algae to tolerate a high level of ammonia nitrogen suggests the potential for direct nutrient recycling from dairy wastewater while producing algal biomass and high value bioproducts.

机译：本研究通过表征独特的藻类菌株，探讨了将Exprophilic藻类栽培纳入乳制品废水中的可能性。结果表明，从乳制品废水中新分离的Exprodophilic Microalgae chlarla vulgaris ca1耐受高水平的氨氮（2.7g / L），氨氮常规小球藻的氨氮超过20倍。可以忍受。分离物在通过厌氧消化（AD）处理的乳制品流出物中培养，用于回收营养物并抛光废水。在AD流出物中的培养中，在培养物中获得了13.3g / L和蛋白质含量的最高生物质含量。高达96％的总氮和79％的总磷从乳制品施法中除去。藻类耐养高水平的氨氮的能力表明，在产生藻类生物量和高价值生物产物的同时，从乳制品废水中直接营养回收的可能性。

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来源
《Environmental Science & Technology》 |2020年第23期|15366-15375|共10页
作者
Na Pang; Andre David Bergeron; Xiangyu Gu; Xiao Fu; Tao Dong; Yiqing Yao; Shulin Chen;
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作者单位

Department of Biological Systems Engineering Washington State University Pullman Washington 99164 United States;

Department of Biological Systems Engineering Washington State University Pullman Washington 99164 United States;

Gene and Linda Voiland School of Chemical Engineering and Bioengineering Washington State University Pullman Washington 99164 United States;

Department of Biological Systems Engineering Washington State University Pullman Washington 99164 United States;

Renewable Resources and Enabling Sciences Center National Renewable Energy Laboratory Golden Colorado 80401 United States;

College of Mechanical and Electrical Engineering Northwest A&F University Yangling Shaanxi 712100 China;

Department of Biological Systems Engineering Washington State University Pullman Washington 99164 United States;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);美国《化学文摘》(CA);
原文格式 PDF
正文语种 eng
中图分类
关键词
Chlorella vulgaris CA1; dairy wastewater treatment; mixotrophic culture; ammonia nitrogen tolerance; protein-rich biomass; nutrient removal;

机译：小球藻vulgaris ca1;乳制品污水处理;混纺培养;氨氮耐受性;富含蛋白质的生物质;营养消除;
入库时间 2022-08-18 22:37:04

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Recycling of Nutrients from Dairy Wastewater by Extremophilic Microalgae with High Ammonia Tolerance

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