Sustainable Production of Microalgae Biomass as a Biodiesel Feedstock: Woodhead Series in Bioenergy
Editat de Bestami Özkaya, Mehmood Ali, Asad Ali Zaidi, Muhammad Nihal Naseeren Limba Engleză Paperback – mai 2025
- Covers cultivation techniques, strain selection, harvesting and extraction methods, lipid profiling, and conversion processes
- Explains integration with renewable energy, including solar, wind, biomass gasification, and geothermal
- Addresses energy balance, environmental sustainability, life cycle, and techno-economic analysis
- Provides insight with regard to future opportunities and research directions in microalgae and biodiesel
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Specificații
ISBN-13: 9780443292699
ISBN-10: 0443292698
Pagini: 600
Dimensiuni: 152 x 229 mm
Editura: ELSEVIER SCIENCE
Seria Woodhead Series in Bioenergy
ISBN-10: 0443292698
Pagini: 600
Dimensiuni: 152 x 229 mm
Editura: ELSEVIER SCIENCE
Seria Woodhead Series in Bioenergy
Cuprins
Section 1: Introduction
1. Importance and benefits of biodiesel as a renewable fuel
2. Different feedstock options for biodiesel production and their selection
3. Biodiesel production processes (Transesterification, Microemulsion Technology, Supercritical Fluid Technology, etc.)
4. Microalgae biodiesel - an alternative fuel for diesel engines
5. Recent advances in plant-based biodiesel integrated with microalgal biodiesel production
6. Microalgal cultivation systems for wastewater treatment and carbon sequestration
7. Microalgae capture of CO2 as a mitigating source to reduce climate change and global warming
Section 2: Renewable Energy Integration
8. Energy demand for cultivating microalgae with both traditional and renewable energy sources in wastewater
9. Solar de-watering of microalgae biomass for biodiesel production
10. Solar photovoltaics for powering microalgae cultivation systems (power generation, heat generation, light optimization for photobioreactors)
11. Wind energy integration in microalgae cultivation for biodiesel production
12. Biomass gasification for microalgae cultivation and energy generation
13. Geothermal power generation for sustainable microalgae biomass-based biodiesel
14. Harvesting and dewatering techniques for microalgae biomass
15. Case studies on microalgae biofuels production using renewable energy
Section 3: Sustainability and Impacts
16. Techno-economic analysis of microalgal biodiesel produced by conventional and renewable energy sources
17. Sustainability and impacts of different renewable energy-based systems on microalgal biodiesel production
18. Life Cycle assessment (LCA) of microalgal biodiesel production
19. Sustainable microalgae cultivation using wastewater or saline water in marginal land
Section 4: Future Perspectives and Research Directions
20. Automation and monitoring systems for improved microalgae productivity for biodiesel
21. Genetic engineering and biotechnological approaches for enhanced biodiesel yield
22. Integration of other renewable energy resources in microalgae cultivation and biodiesel production
23. Emerging technologies and innovations in microalgae cultivation and biodiesel synthesis
24. Future prospects of producing microalgae-based biodiesel from renewable sources
25. Global perspective of biofuel production from microalgae
26. Prospects and challenges of microalgae biorefinery
1. Importance and benefits of biodiesel as a renewable fuel
2. Different feedstock options for biodiesel production and their selection
3. Biodiesel production processes (Transesterification, Microemulsion Technology, Supercritical Fluid Technology, etc.)
4. Microalgae biodiesel - an alternative fuel for diesel engines
5. Recent advances in plant-based biodiesel integrated with microalgal biodiesel production
6. Microalgal cultivation systems for wastewater treatment and carbon sequestration
7. Microalgae capture of CO2 as a mitigating source to reduce climate change and global warming
Section 2: Renewable Energy Integration
8. Energy demand for cultivating microalgae with both traditional and renewable energy sources in wastewater
9. Solar de-watering of microalgae biomass for biodiesel production
10. Solar photovoltaics for powering microalgae cultivation systems (power generation, heat generation, light optimization for photobioreactors)
11. Wind energy integration in microalgae cultivation for biodiesel production
12. Biomass gasification for microalgae cultivation and energy generation
13. Geothermal power generation for sustainable microalgae biomass-based biodiesel
14. Harvesting and dewatering techniques for microalgae biomass
15. Case studies on microalgae biofuels production using renewable energy
Section 3: Sustainability and Impacts
16. Techno-economic analysis of microalgal biodiesel produced by conventional and renewable energy sources
17. Sustainability and impacts of different renewable energy-based systems on microalgal biodiesel production
18. Life Cycle assessment (LCA) of microalgal biodiesel production
19. Sustainable microalgae cultivation using wastewater or saline water in marginal land
Section 4: Future Perspectives and Research Directions
20. Automation and monitoring systems for improved microalgae productivity for biodiesel
21. Genetic engineering and biotechnological approaches for enhanced biodiesel yield
22. Integration of other renewable energy resources in microalgae cultivation and biodiesel production
23. Emerging technologies and innovations in microalgae cultivation and biodiesel synthesis
24. Future prospects of producing microalgae-based biodiesel from renewable sources
25. Global perspective of biofuel production from microalgae
26. Prospects and challenges of microalgae biorefinery