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Nutrient utilization and oxygen production by Chlorella vulgaris in a hybrid membrane bioreactor and algal membrane photobioreactor system

机译：小球藻生物反应器和藻膜光生物反应器系统中小球藻的营养利用和产氧量

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This work studied oxygen production and nutrient utilization by Chlorella Vulgaris at different organic/inorganic carbon (OC/IC) and ammonium/nitrate (NH4+-N/NO3--N) ratios to design a hybrid aerobic membrane bioreactor (MBR) and membrane photobioreactor (MPBR) system. Specific oxygen production by C. vulgaris was enough to support the MBR if high growth is accomplished. Nearly 100% removal (or utilization) of PO43--P and IC was achieved under all conditions tested. Optimal growth was achieved at mixotrophic carbon conditions (0.353 d-1) and the highest NH4+-N concentration (0.357 d-1), with preferable NH4+-N utilization rather than NO3--N. The results indicate the potential of alternative process designs to treat domestic wastewater by coupling the hybrid MBR - MPBR systems.

机译：该工作研究了小黄紫外线的氧气生产和养分利用不同有机/无机碳（OC / IC）和铵/硝酸铵（NH4 + -N / NO3 - N）比率，以设计杂化的有氧膜生物反应器（MBR）和膜光学侵蚀剂反应器（MPBR）系统。如果完成高增长，C. Ventgaris的特定氧气生产足以支持MBR。在所有调节条件下，在所有条件下实现了PO43 - P和IC的近100％的除去（或利用）。在混纺碳条件（0.353d-1）和最高NH 4 + -N浓度（0.357d-1）中实现了最佳生长，优选的NH4 + -N利用率而不是NO3-N。结果表明替代工艺设计的潜力通过耦合混合MBR系统来治疗家庭废水。

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Yasmeen Najm; Sanghyun Jeong; TorOve Leiknes;
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年度 2017
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1. Nutrient utilization and oxygen production by Chlorella vulgaris in a hybrid membrane bioreactor and algal membrane photobioreactor system [J] . Najm Yasmeen, Jeong Sanghyun, Leiknes TorOve Bioresource Technology: Biomass, Bioenergy, Biowastes, Conversion Technologies, Biotransformations, Production Technologies . 2017,第期

机译：杂交膜生物反应器和藻类膜光学反应器系统中小球藻的营养利用和氧气产生
2. Simultaneous removal of nutrient and sulfonamides from marine aquaculture wastewater by concentrated and attached cultivation of Chlorella vulgaris in an algal biofilm membrane photobioreactor (BF- MPBR) [J] . Yuan-Yuan Peng, Feng Gao, Hong-Li Yang, The Science of the Total Environment . 2020,第Jul10期

机译：在藻类生物膜膜光生物反应器中浓缩和附着栽培中小黄栽培废水从海洋水产养殖废水中取出营养和磺酰胺，（BF-MPBR）
3. High-efficiency nutrients reclamation from landfill leachate by microalgae Chlorella vulgaris in membrane photobioreactor for bio-lipid production [J] . Chang Haixing, Quan Xuejun, Zhong Nianbing, Bioresource Technology: Biomass, Bioenergy, Biowastes, Conversion Technologies, Biotransformations, Production Technologies . 2018,第期

机译：高效营养素从垃圾填埋场渗滤液通过微藻小黄液在膜光学侵蚀剂中的生物脂质生产
4. Utilization of a hybrid membrane system in ethylene production [C] . A.A.Al-Rabiah, K.D.Timmerhaus, R.D.Noble Tenth Annnal Meeting of the North American Membrane Society Man 16-20, 1998 Cleveland Ohio . 1998

机译：混合膜系统在乙烯生产中的应用
5. Cultivation of microalgae Chlorella vulgaris in photobioreactor for biodiesel production. [D] . Debska, Dorota J. 2009

机译：在光生物反应器中培养微藻类小球藻，用于生产生物柴油。
6. A simplistic approach of algal biofuels production from wastewater using a Hybrid Anaerobic Baffled Reactor and Photobioreactor (HABR-PBR) System [O] . Md. Khalekuzzaman, Muhammed Alamgir, Md. Bashirul Islam, 2019

机译：一种使用杂交厌氧膨胀反应器和光生物反应器（HABR-PBR）系统废水的藻类生物燃料生产的简单方法
7. A sequential membrane bioreactor followed by a membrane microalgal reactor for nutrient removal and algal biomass production [O] . Luong N. Nguyen, Minh V. Truong, Anh Q. Nguyen, 2020

机译：序列膜生物反应器，然后是膜微藻反应器用于营养去除和藻类生物量产生

Nutrient utilization and oxygen production by Chlorella vulgaris in a hybrid membrane bioreactor and algal membrane photobioreactor system

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