Advances in Sustainable Applications of Microalgae
portes grátis
Advances in Sustainable Applications of Microalgae
Pires, Jose Carlos Magalhaes; Esteves, Ana Filipa Cruz; Campos Salgado, Eva Margarida de Azevedo
Elsevier - Health Sciences Division
10/2024
450
Mole
9780443221279
15 a 20 dias
Descrição não disponível.
Part I. Introduction
1. Microalgae: a vision for sustainability
2. State-of-the-art: microalgae production systems and microalgae applications
Part II. Gaseous stream treatment
3. Carbon dioxide uptake into biomass for carbon neutrality of processes
4. Biogas purification and calorific value enhancement
5. Boosting wastewater-cultivated microalgae metabolism via nanoparticle addition
Part III. Water treatment
6. Microalgal growth in urban wastewater: biomass production with nutrient removal
7. Microalgal role in sustainable business models for the textile industry
8. Heavy metals and other chemicals removal by microalgae
9. Microalgae in sewage treatment: tackling emerging contaminants and challenges
10. Nutrients recovery from wastewater by microalgae
Part IV. Sustainable agriculture
11. Microalgae as biobased fertilizers for sustainable agriculture
12. Microalgae as biobased pesticides for sustainable agriculture
13. Microalgae: green cell biofactories in food and feed supply chains
Part V. Energetic sustainability
14. Liquid biofuels from microalgae: production challenges
15. Biomass conversion technologies for a circular carbon economy
Part VI. Industrial case studies
16. Bioenergy and water recovery based on microalgae
17. Integration of anaerobic digestion and microalgal cultivation for efficient biofuel production from wastewater
18. Efficient separation of microalgal biomass from wastewater effluent
19. From lab to outdoors: microalgal process perspective for a step to reality
1. Microalgae: a vision for sustainability
2. State-of-the-art: microalgae production systems and microalgae applications
Part II. Gaseous stream treatment
3. Carbon dioxide uptake into biomass for carbon neutrality of processes
4. Biogas purification and calorific value enhancement
5. Boosting wastewater-cultivated microalgae metabolism via nanoparticle addition
Part III. Water treatment
6. Microalgal growth in urban wastewater: biomass production with nutrient removal
7. Microalgal role in sustainable business models for the textile industry
8. Heavy metals and other chemicals removal by microalgae
9. Microalgae in sewage treatment: tackling emerging contaminants and challenges
10. Nutrients recovery from wastewater by microalgae
Part IV. Sustainable agriculture
11. Microalgae as biobased fertilizers for sustainable agriculture
12. Microalgae as biobased pesticides for sustainable agriculture
13. Microalgae: green cell biofactories in food and feed supply chains
Part V. Energetic sustainability
14. Liquid biofuels from microalgae: production challenges
15. Biomass conversion technologies for a circular carbon economy
Part VI. Industrial case studies
16. Bioenergy and water recovery based on microalgae
17. Integration of anaerobic digestion and microalgal cultivation for efficient biofuel production from wastewater
18. Efficient separation of microalgal biomass from wastewater effluent
19. From lab to outdoors: microalgal process perspective for a step to reality
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
Algae; Algology; Anaerobic digestion; Antifungal biopesticides; Beyond sustainability; Bioactive compounds; Biobased fertilizers; Biodegradation; Biodiversity; Bioenergy; Biofuel; Biogas contaminants; Biogas upgrading; Biological treatment; Biological waste treatment; Biomass; Biomass production; Biomass valorization; Biomolecules; Bioprocess; Biorefinery; Bioresources; Biosorption; CO2 biofixation; Carbon dioxide uptake; Carbon neutrality; Circular economy; Climate change; Conversion technology; Cultivation factors; Decanter centrifuge; Development goals; Dissolved air flotation; Dissolved air flotation (DAF); Downstream process; Emerging concern contaminants; Energy balance; Energy recovery; Energy resource; Energy sustainability; Food safety; Food/feed production; High rate algae ponds (HRAP); Hydrolysis; Investment decision; Land availability; Lignocellulosic biomass; Mesophilic; Methane; Microalgae; Microalgae biorefinery; Microalgae harvesting; Microalgae metabolism; Microalgae-bacteria systems; Microalgal applications; Microalgal biomass; Microalgal compounds; Microalgal fertilizer; Microalgal production; Nanomaterials; Nanoparticle; Natural compounds; Natural resources; Natural sources; Net zero; Nutrient removal; Nutrients recovery; Open pond system; Organic farming; Pesticides; Photobioreactor; Photobioreactors; Photobiorefinery; Photocatalysis; Photolysis; Phytoremediation; Pigments; Policies; Precise agriculture; Production systems; Psychrophilic; Renewable energy; Renewable sources; Scale-up; Separation; Separator centrifuge; Spirulina platensis; Sustainability; Sustainable agriculture; Sustainable development; Sustainable political implications; Sustainable sources; Textile effluent; Thermophilic; Upstream process; Urban effluents; Wastewater; Wastewater bioremediation; Wastewater treatment
Part I. Introduction
1. Microalgae: a vision for sustainability
2. State-of-the-art: microalgae production systems and microalgae applications
Part II. Gaseous stream treatment
3. Carbon dioxide uptake into biomass for carbon neutrality of processes
4. Biogas purification and calorific value enhancement
5. Boosting wastewater-cultivated microalgae metabolism via nanoparticle addition
Part III. Water treatment
6. Microalgal growth in urban wastewater: biomass production with nutrient removal
7. Microalgal role in sustainable business models for the textile industry
8. Heavy metals and other chemicals removal by microalgae
9. Microalgae in sewage treatment: tackling emerging contaminants and challenges
10. Nutrients recovery from wastewater by microalgae
Part IV. Sustainable agriculture
11. Microalgae as biobased fertilizers for sustainable agriculture
12. Microalgae as biobased pesticides for sustainable agriculture
13. Microalgae: green cell biofactories in food and feed supply chains
Part V. Energetic sustainability
14. Liquid biofuels from microalgae: production challenges
15. Biomass conversion technologies for a circular carbon economy
Part VI. Industrial case studies
16. Bioenergy and water recovery based on microalgae
17. Integration of anaerobic digestion and microalgal cultivation for efficient biofuel production from wastewater
18. Efficient separation of microalgal biomass from wastewater effluent
19. From lab to outdoors: microalgal process perspective for a step to reality
1. Microalgae: a vision for sustainability
2. State-of-the-art: microalgae production systems and microalgae applications
Part II. Gaseous stream treatment
3. Carbon dioxide uptake into biomass for carbon neutrality of processes
4. Biogas purification and calorific value enhancement
5. Boosting wastewater-cultivated microalgae metabolism via nanoparticle addition
Part III. Water treatment
6. Microalgal growth in urban wastewater: biomass production with nutrient removal
7. Microalgal role in sustainable business models for the textile industry
8. Heavy metals and other chemicals removal by microalgae
9. Microalgae in sewage treatment: tackling emerging contaminants and challenges
10. Nutrients recovery from wastewater by microalgae
Part IV. Sustainable agriculture
11. Microalgae as biobased fertilizers for sustainable agriculture
12. Microalgae as biobased pesticides for sustainable agriculture
13. Microalgae: green cell biofactories in food and feed supply chains
Part V. Energetic sustainability
14. Liquid biofuels from microalgae: production challenges
15. Biomass conversion technologies for a circular carbon economy
Part VI. Industrial case studies
16. Bioenergy and water recovery based on microalgae
17. Integration of anaerobic digestion and microalgal cultivation for efficient biofuel production from wastewater
18. Efficient separation of microalgal biomass from wastewater effluent
19. From lab to outdoors: microalgal process perspective for a step to reality
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
Algae; Algology; Anaerobic digestion; Antifungal biopesticides; Beyond sustainability; Bioactive compounds; Biobased fertilizers; Biodegradation; Biodiversity; Bioenergy; Biofuel; Biogas contaminants; Biogas upgrading; Biological treatment; Biological waste treatment; Biomass; Biomass production; Biomass valorization; Biomolecules; Bioprocess; Biorefinery; Bioresources; Biosorption; CO2 biofixation; Carbon dioxide uptake; Carbon neutrality; Circular economy; Climate change; Conversion technology; Cultivation factors; Decanter centrifuge; Development goals; Dissolved air flotation; Dissolved air flotation (DAF); Downstream process; Emerging concern contaminants; Energy balance; Energy recovery; Energy resource; Energy sustainability; Food safety; Food/feed production; High rate algae ponds (HRAP); Hydrolysis; Investment decision; Land availability; Lignocellulosic biomass; Mesophilic; Methane; Microalgae; Microalgae biorefinery; Microalgae harvesting; Microalgae metabolism; Microalgae-bacteria systems; Microalgal applications; Microalgal biomass; Microalgal compounds; Microalgal fertilizer; Microalgal production; Nanomaterials; Nanoparticle; Natural compounds; Natural resources; Natural sources; Net zero; Nutrient removal; Nutrients recovery; Open pond system; Organic farming; Pesticides; Photobioreactor; Photobioreactors; Photobiorefinery; Photocatalysis; Photolysis; Phytoremediation; Pigments; Policies; Precise agriculture; Production systems; Psychrophilic; Renewable energy; Renewable sources; Scale-up; Separation; Separator centrifuge; Spirulina platensis; Sustainability; Sustainable agriculture; Sustainable development; Sustainable political implications; Sustainable sources; Textile effluent; Thermophilic; Upstream process; Urban effluents; Wastewater; Wastewater bioremediation; Wastewater treatment
