高气密性和高温条件下空气提升式光生物反应器中的户外微藻培养：分批和补料分批策略的影响、光抑制和温度胁迫。

Outdoor microalgae cultivation in airlift photobioreactor at high irradiance and temperature conditions: effect of batch and fed-batch strategies, photoinhibition, and temperature stress.

机构信息

Academy of Scientific and Innovative Research (AcSIR), Ghaziabad, 201002, India.

Environmental Biotechnology and Genomics Division, CSIR-National Environmental Engineering Research Institute (NEERI), Nagpur, 440020, India.

出版信息

Bioprocess Biosyst Eng. 2019 Feb;42(2):331-344. doi: 10.1007/s00449-018-2037-6. Epub 2018 Nov 16.

DOI:10.1007/s00449-018-2037-6

PMID:30446818

Abstract

The microalgae Scenedesmus abundans cultivated in five identical airlift photobioreactors (PBRs) in batch and fed-batch modes at the outdoor tropical condition. The microalgae strain S. abundans was found to tolerate high temperature (35-45 °C) and high light intensity (770-1690 µmol m s). The highest biomass productivities were 152.5-162.5 mg L day for fed-batch strategy. The biomass productivity was drastically reduced due to photoinhibition effect at a culture temperature of > 45 °C. The lipid compositions showed fatty acids mainly in the form of saturated and monounsaturated fatty acids (> 80%) in all PBRs with Cetane number more than 51. The fed-batch strategies efficiently produced higher biomass and lipid productivities at harsh outdoor conditions. Furthermore, the microalgae also accumulated omega-3 fatty acid (C18:3) up to 14% (w/w) of total fatty acid at given outdoor condition.

摘要

在户外热带条件下，五种相同的气升式光生物反应器（PBR）中以分批和补料分批模式培养的微藻 Scenedesmus abundans。发现微藻 S. abundans 菌株能够耐受高温（35-45°C）和高光强（770-1690 μmol m s）。补料分批策略的最高生物量生产力为 152.5-162.5 mg L day。由于培养温度>45°C 时的光抑制效应，生物量生产力急剧下降。在所有 PBR 中，脂质组成均以饱和和单不饱和脂肪酸（>80%）为主，十六烷值均高于 51。在恶劣的户外条件下，补料分批策略有效地提高了生物量和脂质的生产力。此外，在给定的户外条件下，微藻还积累了高达 14%（w/w）的总脂肪酸的ω-3 脂肪酸（C18:3）。

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高气密性和高温条件下空气提升式光生物反应器中的户外微藻培养：分批和补料分批策略的影响、光抑制和温度胁迫。

Outdoor microalgae cultivation in airlift photobioreactor at high irradiance and temperature conditions: effect of batch and fed-batch strategies, photoinhibition, and temperature stress.

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