Effect of Different Influent Conditions on Biomass Production and Nutrient Removal by Aeration Microalgae Membrane Bioreactor (ICFB-MMBR) System for Mariculture Wastewater Treatment

Effect of Different Influent Conditions on Biomass Production and Nutrient Removal by Aeration Microalgae Membrane Bioreactor (ICFB-MMBR) System for Mariculture Wastewater Treatment

The nutrient removal and biomass production of the internal circulating fluidized bed microalgae membrane bioreactor (ICFB-MMBR) was studied under different cultivation modes, influent TOC, influent pH, and influent N/P. <i>Platymonas helgolandica tsingtaoensis</i> was used as the biolog...

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Detalles Bibliográficos
Autores principales: Yi Ding, Shiyuan Wang, Hang Ma, Binyu Ma, Zhansheng Guo, Hong You, Junxue Mei, Xuguang Hou, Zhenlin Liang, Zhipeng Li
Formato: article
Lenguaje:EN
Publicado: MDPI AG 2021
Materias:
microalgae membrane bioreactor
mariculture wastewater
nutrient removal
biomass production
different influent conditions
Chemical technology
TP1-1185
Chemical engineering
TP155-156
Acceso en línea:https://doaj.org/article/b77772c87b5a4ce381c8ba8819179ecf
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Sumario:The nutrient removal and biomass production of the internal circulating fluidized bed microalgae membrane bioreactor (ICFB-MMBR) was studied under different cultivation modes, influent TOC, influent pH, and influent N/P. <i>Platymonas helgolandica tsingtaoensis</i> was used as the biological source. The growth of <i>P. helgolandica tsingtaoensis</i> and the removal efficiency of pollutants in the mixotrophy culture mode were improved compared with other culture modes. With the increased influent TOC, the average growth rate of <i>P. helgolandica tsingtaoensis</i> increased, and ammonia nitrogen and total phosphorus removal rate were improved. The <i>P. helgolandica tsingtaoensis</i> growth rate and nutrient removal efficiencies at the influent pH of 8 were the best among the different influent pH values. As the influent N/P ratio increased from 5 to 20, the <i>P. helgolandica tsingtaoensis</i> growth rate and pollutant removal rate increased gradually. When the influent N/P ratio was higher than 20, the <i>P. helgolandica tsingtaoensis</i> growth rate and pollutant removal rate tended to be stable and did not significantly change with the increase of influent N/P ratio. At the proper influent conditions, the high <i>P. helgolandica tsingtaoensis</i> biomass and nutrient removal efficiency could be obtained in the microalgae membrane bioreactor, which could provide a theoretical basis for the application of the system for wastewater treatment.

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