Improved aqueous extraction of microalgal lipid by combined enzymatic and thermal lysis from wet biomass of Nannochloropsis oceanica

Improved aqueous extraction of microalgal lipid by combined enzymatic and thermal lysis from wet biomass of Nannochloropsis oceanica

•Method developed for extracting lipid from wet microalgae with 96.0% moisture content.•Upto 88.3% of total lipids are extracted from wet algae biomass at optimal conditions.•Microalgae cells were completely disrupted by combined thermal and enzymatic lysis.•Excessive extraction of polar lipid was f...

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Veröffentlicht in:Bioresource technology 2016-08, Vol.214, p.138-143
Hauptverfasser: Chen, Lin, Li, Runzhi, Ren, Xiaoli, Liu, Tianzhong
Format: Artikel
Sprache:eng
Schlagworte:
Aqueous extraction
Biofuel
Biofuels
Biomass
Biotechnology - methods
Cell disruption
Cell Wall - chemistry
Chemical Fractionation - methods
Enzymes - chemistry
Enzymes - metabolism
Hexanes - chemistry
Lipids - chemistry
Lipids - isolation & purification
Microalgae
Microalgae - chemistry
Microalgae - metabolism
Nannochloropsis
Solvents - metabolism
Stramenopiles - chemistry
Stramenopiles - metabolism
Water - chemistry
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container_title Bioresource technology
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creator Chen, Lin
Li, Runzhi
Ren, Xiaoli
Liu, Tianzhong
description •Method developed for extracting lipid from wet microalgae with 96.0% moisture content.•Upto 88.3% of total lipids are extracted from wet algae biomass at optimal conditions.•Microalgae cells were completely disrupted by combined thermal and enzymatic lysis.•Excessive extraction of polar lipid was found for wet biomass. High moisture content in wet algal biomass hinders effective performance of current lipid extraction methods. An improved aqueous extraction method combing thermal and enzymatic lysis was proposed and performed in algal slurry of Nannochloropsis oceanica (96.0% moisture) in this study. In general, cell-wall of N. oceanica was disrupted via thermal lysis and enzymatic lysis and lipid extraction was performed using aqueous surfactant solution. At the optimal conditions, high extraction efficiencies for both lipid (88.3%) and protein (62.4%) were obtained, which were significantly higher than those of traditional hexane extraction and other methods for wet algal biomass. Furthermore, an excessive extraction of polar lipid was found for wet biomass compared with dry biomass. The advantage of this method is to efficiently extract lipids from high moisture content algal biomass and avoid using organic solvent, indicating immense potential for commercial microalgae-based biofuel production.
doi_str_mv 10.1016/j.biortech.2016.04.031
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High moisture content in wet algal biomass hinders effective performance of current lipid extraction methods. An improved aqueous extraction method combing thermal and enzymatic lysis was proposed and performed in algal slurry of Nannochloropsis oceanica (96.0% moisture) in this study. In general, cell-wall of N. oceanica was disrupted via thermal lysis and enzymatic lysis and lipid extraction was performed using aqueous surfactant solution. At the optimal conditions, high extraction efficiencies for both lipid (88.3%) and protein (62.4%) were obtained, which were significantly higher than those of traditional hexane extraction and other methods for wet algal biomass. Furthermore, an excessive extraction of polar lipid was found for wet biomass compared with dry biomass. 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High moisture content in wet algal biomass hinders effective performance of current lipid extraction methods. An improved aqueous extraction method combing thermal and enzymatic lysis was proposed and performed in algal slurry of Nannochloropsis oceanica (96.0% moisture) in this study. In general, cell-wall of N. oceanica was disrupted via thermal lysis and enzymatic lysis and lipid extraction was performed using aqueous surfactant solution. At the optimal conditions, high extraction efficiencies for both lipid (88.3%) and protein (62.4%) were obtained, which were significantly higher than those of traditional hexane extraction and other methods for wet algal biomass. Furthermore, an excessive extraction of polar lipid was found for wet biomass compared with dry biomass. 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High moisture content in wet algal biomass hinders effective performance of current lipid extraction methods. An improved aqueous extraction method combing thermal and enzymatic lysis was proposed and performed in algal slurry of Nannochloropsis oceanica (96.0% moisture) in this study. In general, cell-wall of N. oceanica was disrupted via thermal lysis and enzymatic lysis and lipid extraction was performed using aqueous surfactant solution. At the optimal conditions, high extraction efficiencies for both lipid (88.3%) and protein (62.4%) were obtained, which were significantly higher than those of traditional hexane extraction and other methods for wet algal biomass. Furthermore, an excessive extraction of polar lipid was found for wet biomass compared with dry biomass. 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source MEDLINE; Elsevier ScienceDirect Journals
subjects Aqueous extraction
Biofuel
Biofuels
Biomass
Biotechnology - methods
Cell disruption
Cell Wall - chemistry
Chemical Fractionation - methods
Enzymes - chemistry
Enzymes - metabolism
Hexanes - chemistry
Lipids - chemistry
Lipids - isolation & purification
Microalgae
Microalgae - chemistry
Microalgae - metabolism
Nannochloropsis
Solvents - metabolism
Stramenopiles - chemistry
Stramenopiles - metabolism
Water - chemistry
title Improved aqueous extraction of microalgal lipid by combined enzymatic and thermal lysis from wet biomass of Nannochloropsis oceanica
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