Algae Biotechnology: Decarbonization, Resource Recovery, and Bioproducts
Editat de Muhammad Aamer Mehmood, Sana Malik, Peter J. Ralph, Archishman Bose, Micheal J. Betenbaughen Limba Engleză Paperback – 12 noi 2025
It emphasizes resource recovery, recycling, and carbon-neutral approaches, aligning with the UN's Sustainable Development Goals related to carbon capture, clean energy, and sustainable production. By providing up-to-date information on advancements in algae cultivation technologies, the book aims to educate readers on the role of microalgae in achieving energy sustainability and addressing global environmental challenges.
- Provides comprehensive updates on carbon capture using microalgae and photosynthetic resource recovery followed by discussions on the biotransformation of algae biomass to energy and bioproducts
- Highlights non-traditional and novel opportunities for algae-based carbon capture and bioprocessing as an emerging feedstock for the bioindustry
- Edited and written by renowned and experienced researchers from different countries, ensuring the quality of the publication and inclusion of diversity of scientific ideas and readership
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Specificații
ISBN-13: 9780443340635
ISBN-10: 0443340633
Pagini: 464
Dimensiuni: 191 x 235 mm
Greutate: 0.45 kg
Editura: ELSEVIER SCIENCE
ISBN-10: 0443340633
Pagini: 464
Dimensiuni: 191 x 235 mm
Greutate: 0.45 kg
Editura: ELSEVIER SCIENCE
Cuprins
Section I: Algae for decarbonization
1. Algae-based carbon capture; potential, challenges, opportunities
2. Integration of algae carbon capture with major carbon emission systems
3. Carbonomics of large-scale algae cultivation for industrial and environmental applications
Section II: Algae-based resource recovery
4: Algae-based resource recovery; potential, challenges, opportunities
5. Large-scale algae-based recycling of urban wastewater
6. Large-scale algae-based recycling of heavily contaminated wastewater
7. Integration of algae-based resource recovery with wastewater treatment systems
Section III: Bioprocessing of algal biomass to clean energy and bioproducts
8. Biotransformation of wastewater-grown algae biomass to biogas
9. Biotransformation of wastewater-grown algae biomass to liquid fuels
10. Transformation of wastewater-grown algal biomass to industrial biopolymers
11. Employing wastewater-grown biomass to reclaim the nutritional value of damaged soils
12. Algae biomass as a feedstock for biological transformation to value-added products
Section-IV: Emerging trends in Algae biotechnology
13. Algal phenomics to develop elite algae strains to meet industrial robustness
14: Algae biotechnology for global space exploration program and terraforming the planets
15. Algae-driven Industry 4.0
16. Algae-biotechnology and sustainability development goals; policy-making and global cooperation programs
17. Large-scale algae cultivation; economic, environmental, and legal aspects
1. Algae-based carbon capture; potential, challenges, opportunities
2. Integration of algae carbon capture with major carbon emission systems
3. Carbonomics of large-scale algae cultivation for industrial and environmental applications
Section II: Algae-based resource recovery
4: Algae-based resource recovery; potential, challenges, opportunities
5. Large-scale algae-based recycling of urban wastewater
6. Large-scale algae-based recycling of heavily contaminated wastewater
7. Integration of algae-based resource recovery with wastewater treatment systems
Section III: Bioprocessing of algal biomass to clean energy and bioproducts
8. Biotransformation of wastewater-grown algae biomass to biogas
9. Biotransformation of wastewater-grown algae biomass to liquid fuels
10. Transformation of wastewater-grown algal biomass to industrial biopolymers
11. Employing wastewater-grown biomass to reclaim the nutritional value of damaged soils
12. Algae biomass as a feedstock for biological transformation to value-added products
Section-IV: Emerging trends in Algae biotechnology
13. Algal phenomics to develop elite algae strains to meet industrial robustness
14: Algae biotechnology for global space exploration program and terraforming the planets
15. Algae-driven Industry 4.0
16. Algae-biotechnology and sustainability development goals; policy-making and global cooperation programs
17. Large-scale algae cultivation; economic, environmental, and legal aspects