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Algae-Based Biomaterials for Sustainable Development PDF  Biomass, Biofuels, and Biochemicals: Algae-Based Biomaterials for Sustainable Development, Biomedical, Environmental Remediation and Sustainability Assessment, a new release in the Biomass, Biofuels, and Biochemicals series, covers algae-based biomaterials—the green and renewable material that can be produced from various micro- and macro-algae species and utilized for several applications, including biomedical healthcare and environmental remediation. The book provides assessments of the current development of algae-based biomaterials, delivering information on diverse feedstocks and technologies for biomaterial production with a perspective surrounding sustainable development. In addition, circular bioeconomy aspects are included, giving researchers a comprehensive, sustainable development view. This valuable addition to the series delivers a much-needed reference for today’s applications in biomedical and environmental remediation.

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Contents of the Textbook

• Title Page
• Copyright
• Table of Contents
• Contributors
• Preface
• Chapter 1 Metabolism of microalgae and metabolic engineering for biomaterial applications
• 1.1 Introduction
• 1.2 Microalgae metabolic engineering
• 1.3 Microalgal metabolism in the production of biomolecules
• 1.4 Bioproducts obtained by microalgae
• 1.5 Challenges
• 1.6 Conclusions and perspectives
• Acknowledgments
• References
• Chapter 2 Microalgae oil-based drug delivery systems: Fabrication and applications
• 2.1 Introduction
• 2.2 Microalgae oil-based vesicles/carriers
• 2.3 Microalgae oil-based nanoemulsions
• 2.4 Conclusions and perspectives
• Acknowledgments
• References
• Chapter 3 Algae-based alginate biomaterial: Production and applications
• 3.1 Introduction
• 3.2 Synthesis of alginate-based biomaterials
• 3.3 Alginate-based biomaterials for environmental applications
• 3.4 Alginate-based biomaterials for agricultural applications
• 3.5 Alginate-based biomaterials for biomedical applications
• 3.6 Conclusions and perspectives
• References
• Chapter 4 Seaweed carrageenans: Productions and applications
• 4.1 Introduction
• 4.2 Carrageenan
• 4.3 Technologies for carrageenan production
• 4.4 Environmental benefit of carrageenan productions
• 4.5 Conclusions and perspectives
• References
• Chapter 5 Algae-based agarose biomaterials: Production and applications
• 5.1 Introduction
• 5.2 Production of agarose and its applications
• 5.3 Modified agarose-based biomaterials and their applications
• 5.4 Conclusions and perspectives
• References
• Chapter 6 Bioprocessing for production and applications of bioplastics from algae
• 6.1 Introduction
• 6.2 Polyhydroxyalkanoates (PHAs)
• 6.3 Edible films and additives
• 6.4 Macroalgae as a potential source of bioplastics
• 6.5 Production of microalgal biomass-derived bioplastic and blending with polymers
• 6.6 Production technologies in algae-derived bio-based polymers and composites
• 6.7 Conclusions and perspectives
• References
• Chapter 7 Microalgal applications in biomedicine and healthcare
• 7.1 Introduction
• 7.2 Microalgal bioactive metabolites
• 7.3 Production and biorefinery of microalgal bioactives
• 7.4 Microalgae as a source of biomaterials
• 7.5 Conclusions and perspectives
• References
• Chapter 8 Algal-based biomaterials for environmental remediation of heavy metals
• 8.1 Introduction
• 8.2 Biomass-based biomaterials
• 8.3 Polysaccharides-based materials
• 8.4 Mechanisms for biosorption of metals
• 8.5 Conclusions and perspectives
• Acknowledgment
• References
• Chapter 9 Algae-based biomaterials in 3D printing for applications in medical, environmental remediation, and commercial products
• 9.1 Introduction
• 9.2 Extraction of algae for biomaterials production and 3D printing
• 9.3 Medical applications
• 9.4 Environmental applications
• 9.5 Commercial products
• 9.6 Conclusions and perspectives
• References
• Chapter 10 Microalgae-based biomaterials for bioremediation of greenhouse gases
• 10.1 Introduction
• 10.2 Potential applications of microalgae as biomaterials
• 10.3 Effects of multifactors on capture of carbon dioxide with algae-based biomaterial
• 10.4 Effects of microalgae production on microalgal biomaterials
• 10.5 Effects of microalgae processing on biomaterials
• 10.6 Conclusions and perspectives
• Acknowledgments
• References
• Chapter 11 Circular bioeconomy for resource recovery from wastewaters using algae-based technologies
• 11.1 Introduction
• 11.2 Circular bioeconomy perspective for resource recovery using microalgae
• 11.3 Recovering nutrients from wastewaters using microalgae-based technologies
• 11.4 Challenges in the algae-based processes for recovering nutrients toward bioeconomy framework
• 11.5 Challenges for future research
• 11.6 Conclusions and perspectives
• Acknowledgment
• References
• Chapter 12 Sustainability assessment of algae-based biomaterials
• 12.1 Introduction
• 12.2 Algae-based biomaterials and their applications
• 12.3 Sustainability assessment of algae-based biomaterials
• 12.4 Conclusions and perspectives
• References
• Chapter 13 Algae-based biomaterials for biomedicines
• 13.1 Introduction
• 13.2 Natural biomaterials
• 13.3 Types of natural biomaterials
• 13.5 Seaweed-based biomaterials
• 13.6 Ulvan-based biomaterials
• 13.7 Conclusions and perspectives
• References
• Chapter 14 Microalgae-based biomaterials for environmental remediation and functional use
• 14.1 Introduction
• 14.2 Microalgae-based biomaterials for wastewater treatment
• 14.3 Algal-based biomaterials for soil remediation
• 14.4 Bioplastics
• 14.5 Electrode materials
• 14.6 Process schemes for making microalgae-derived biomaterials
• 14.7 Conclusions and perspectives
• References
• Chapter 15 Case studies of algae-based biomaterials for environmental remediation
• 15.1 Introduction
• 15.2 Wastewater remediation using algae-based biomaterials
• 15.3 CO2 sequestration using algae-based materials
• 15.4 Challenges to actual applications
• 15.5 Conclusions and perspectives
• References
• Index

The Writers

Prof. Ngo is currently a Professor of Environmental Engineering and serving as Deputy Director of Centre for Technology in Water and Wastewater, Co-Director of Joint Research Centre for Protective Infrastructure Technology and Environmental Green Bioprocess, School of Civil and Environmental Engineering, Faculty of Engineering and Information Technology, University of Technology Sydney. He has been duly elected as Fellow of International Water Association (FIWA) and Fellow and Lead Researcher of the International Bioprocessing Association (FIBA and LRIBA) while serving as IBA Council Member. Prof. Ngo is internationally well-known for his activities in the areas of advanced biological waste treatment technologies (e.g. membrane bioreactor, specific attached and/or suspended growth bioreactors, anaerobic digesters, wetland and bio-sorption) and membrane technologies. His expertise and practical experience also covers the areas of alternative resources, management and impacts assessment, and solid waste management. Currently, he is very active to work on the development of specific green bioprocessing technologies: resource recovery, water-waste- bioenergy nexus and greenhouse gas emission control.

Proportions of Algae-Based Biomaterials for Sustainable Development PDF

• No. of pages: 340
• Language: English
• Copyright: © Elsevier 2022
• Published: May 20, 2022
• Imprint: Elsevier
• Paperback International Standard Book Number: 9780323961424
• eBook International Standard Book Number: 9780323961431

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