Enhanced biomass/biofuel production and nutrient removal in an algal biofilm airlift photobioreactor

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• 作者：Qiong Tao^a ; Feng Gao^a ; ^b ; ^{gf_hd@126.com} ; Chun-Yuan Qian^a ; Xiao-Ze Guo^a ; Zhou Zheng^a ; Zhao-Hui Yang^b ; ^c
• 关键词：Microalgal biomass ; Biofuel ; Algal biofilm ; Nutrient uptake ; Photobioreactor
• 刊名：Algal Research
• 出版年：2017
• 出版时间：January 2017
• 年：2017
• 卷：21
• 期：Complete
• 页码：9-15
• 全文大小：576 K
• 卷排序：21

文摘

The production of algal biofuel has received increasing attention in recent years but is still not economically feasible due to a lack of reliable and cost-effective microalgal cultivation systems. In this study, a unique algal biofilm airlift photobioreactor (ABA-PBR) was developed for attached growth of the alga Chlorella vulgaris on a culture medium consisting of treated sewage. When the ABA-PBR is aerated, solid carriers suspended in the reactor are dispersed throughout the reactor via fluid circulation. A portion of the algal cells in the reactor are able to attach to and grow on the carriers. Prior to ABA-PBR experiments, batch adsorption experiments were performed to choose the best solid carrier for the ABA-PBR. The carriers were named C-1, C-2 and C-3 and were made of fiber, plastic and terylene respectively. The highest microalgal adsorption capacity was observed for Carrier C-1, which exhibited a biomass adsorption capacity of 32.9 mg (g carrier)− 1. Carrier C-1 was therefore added to the ABA-PBR for algal cell attachment. Compared to a conventional photobioreactor (C-PBR) without solid carriers, the ABA-PBR achieved a higher volumetric biomass productivity (15.93 mg L− 1 d− 1), and a higher algal lipid productivity (4.09 mg L− 1 d− 1), as the solid carriers in the ABA-PBR facilitate the development of the algal biofilm system in the reactor. An aerial biomass productivity of 0.82 g m− 2 d− 1 was also achieved with the developed algal biofilm in the ABA-PBR. Furthermore, improved nutrient removal rates (1.00 and 0.20 mg L− 1 d− 1 for N and P, respectively) were also achieved in ABA-PBR due to the higher algal biomass productivity of the reactor.