Microalgae Recovery from Water for Biofuel Production Using CO<sub>2</sub>-Switchable Crystalline Nanocellulose

Ge, Shijian; Champagne, Pascale; Wang, Haidong; Jessop, Philip G.; Cunningham, Michael F.

doi:10.1021/acs.est.6b00732

Cited by 45 publications

(24 citation statements)

References 43 publications

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“…In a similar cationic modification attempt, Ge et al. added CO 2 ‐switchable 1‐(3‐aminopropyl) imidazole groups to CNC to reuse the CNC‐based flocculant for harvesting microalgae . The modified CNC became acquired cationic surface charges upon CO 2 ‐treatment, allowing them to disperse in the medium.…”

Section: Recent Advances In the Development Of Water Soluble Flocculantsmentioning

confidence: 99%

Water Soluble Polymer Flocculants: Synthesis, Characterization, and Performance Assessment

Vajihinejad

Gumfekar

Bazoubandi

et al. 2018

Macro Materials & Eng

137

108

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Water soluble polymer flocculants are important constituents of solid–liquid separation units for the treatment of a variety of process‐affected effluents. The systematic development of a flocculant relies on a good understanding of flocculation process, polymer synthesis, polymer characterization, and, not the least, flocculation performance assessment as desired for a particular treatment process, all of which are essential to establish meaningful relationships between flocculant microstructure and flocculation efficiency. The aim of this article is to communicate the bigger picture of this research area to the readers. The recent advances in the application of bio/natural, synthetic, and stimuli‐responsive flocculants are reviewed. Then, the basic polymer reaction engineering tools to control the microstructure of flocculants are provided and the techniques for the quantification of flocculant microstructure are concisely discussed. This is followed by a review of the methods used for the characterization of particle‐polymer force measurement, and flocculation/dewatering assessment with attention to the characterization of aggregate structures.

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Section: Recent Advances In the Development Of Water Soluble Flocculantsmentioning

confidence: 99%

Water Soluble Polymer Flocculants: Synthesis, Characterization, and Performance Assessment

Vajihinejad

Gumfekar

Bazoubandi

et al. 2018

Macro Materials & Eng

137

108

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“…Currently, the high costs of the important microalgal harvesting and lipid extraction processes are the primary obstacles impeding on the commercial application of microalgae-derived biofuel production [ 10 – 12 ]. For example, lipid extraction is a high-power-consumption process because lipids are stored in microalgal cells and the cell wall is a thick and rigid layer composed of complex carbohydrates and glycoproteins with high mechanical strength and chemical resistance, posing difficulties for lipid extraction [ 13 ].…”

Section: Introductionmentioning

confidence: 99%

Determination of Microalgal Lipid Content and Fatty Acid for Biofuel Production

Chen

Wang

Qiu

et al. 2018

BioMed Research International

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Biofuels produced from microalgal biomass have received growing worldwide recognition as promising alternatives to conventional petroleum-derived fuels. Among the processes involved, the downstream refinement process for the extraction of lipids from biomass greatly influences the sustainability and efficiency of the entire biofuel system. This review summarizes and compares the current techniques for the extraction and measurement of microalgal lipids, including the gravimetric methods using organic solvents, CO2-based solvents, ionic liquids and switchable solvents, Nile red lipid visualization method, sulfo-phospho-vanillin method, and the thin-layer chromatography method. Each method has its own competitive advantages and disadvantages. For example, the organic solvents-based gravimetric method is mostly used and frequently employed as a reference standard to validate other methods, but it requires large amounts of samples and is time-consuming and expensive to recover solvents also with low selectivity towards desired products. The pretreatment approaches which aimed to disrupt cells and support subsequent lipid extraction through bead beating, microwave, ultrasonication, chemical methods, and enzymatic disruption are also introduced. Moreover, the principles and procedures for the production and quantification of fatty acids are finally described in detail, involving the preparation of fatty acid methyl esters and their quantification and composition analysis by gas chromatography.

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“…Ge et al (2016) 106 explored the sustainability and the most efficient approach to harvest microalgae using CNC. A modification was made on the CNC by introducing a 1-(3-aminopropyl)imidazole (APIm) structure as a reversible coagulant for harvesting the microalgae.…”

Section: Reviewmentioning

confidence: 99%

Emerging development of nanocellulose as an antimicrobial material: an overview

et al. 2021

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Microalgae Recovery from Water for Biofuel Production Using CO₂-Switchable Crystalline Nanocellulose

Cited by 45 publications

References 43 publications

Water Soluble Polymer Flocculants: Synthesis, Characterization, and Performance Assessment

Water Soluble Polymer Flocculants: Synthesis, Characterization, and Performance Assessment

Determination of Microalgal Lipid Content and Fatty Acid for Biofuel Production

Emerging development of nanocellulose as an antimicrobial material: an overview

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Microalgae Recovery from Water for Biofuel Production Using CO2-Switchable Crystalline Nanocellulose

Cited by 45 publications

References 43 publications

Water Soluble Polymer Flocculants: Synthesis, Characterization, and Performance Assessment

Water Soluble Polymer Flocculants: Synthesis, Characterization, and Performance Assessment

Determination of Microalgal Lipid Content and Fatty Acid for Biofuel Production

Emerging development of nanocellulose as an antimicrobial material: an overview

Contact Info

Product

Resources

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Microalgae Recovery from Water for Biofuel Production Using CO₂-Switchable Crystalline Nanocellulose