Algal Bioreactors
portes grátis
Algal Bioreactors
Vol 1: Science, Engineering and Technology of upstream processes
Costa Depra, Mariany; Queiroz Zepka, Leila; Jacob-Lopes, Eduardo
Elsevier - Health Sciences Division
11/2024
940
Mole
9780443140587
Pré-lançamento - envio 15 a 20 dias após a sua edição
Descrição não disponível.
Part I - Fundamentals of algae bioreactors
1. Introduction to algal bioreactors: The biotechnology core
2. Algae strains in bioreactors: the adaptability of commercial and emerging species for renewable resource production
3. Principles of interactions between physiology and bioreactor design
4. Global market of algae bioproducts from bioreactor systems
5. Intellectual property and innovation trends applied to algae bioreactors
Part II - Science and engineering of algae bioreactors
6. Predictive models of algae growth in bioreactors
7. Optimal growth and culture conditions for algae in bioreactors
8. Hydrodynamic performance of algae bioreactors
9. Transfer phenomena in algae bioreactors
10. Photosynthetic reactions in algae photobioreactors
11. Contamination control in algae bioreactors
12. Processes control approaches applied to bioreactor models
13. Physical and biokinetic processes of carbon biosequestration in algae bioreactors
14. Biochemicals reactions in algae bioreactors
15. The influence of low carbon to nitrogen (C/N ratio) on phycoremediation
16. Ultrasound in algal bioreactors: A Process intensification strategy for renewable resources production
17. Microwave application in algal bioreactors: A Process intensification strategy for renewable resources production
18. Computational analysis of algae bioreactors performance for renewable resources production
19. Internet of Things (IoT) use for remote monitoring of algae bioreactors for renewable resources production
20. Scale-up of algae bioreactors for renewable resources production
21. Installations of algae bioreactors: design and operational issues in commercial plants
22. Techno-economic aspects and operational costs of algae bioreactors for renewable resources production
Part III - Trends in algal bioreactors design for renewable resource production
23. Industrial fermenters for renewable resource production
24. Air-lift photobioreactors for renewable resource production
25. Tubular photobioreactors for renewable resource production
26. Flat-plate photobioreactors for renewable resource production
27. Column photobioreactors for renewable resource production
28. Bubble column photobioreactors for renewable resource production
29. Hybrid photobioreactors for renewable resource production
30. Plastic bags photobioreactors for renewable resource production
31. Annular photobioreactors for renewable resource production
32. Membrane photobioreactors for renewable resource production
33. Packed Bed Bioreactors for renewable resource production
34. Fluidized Bed Reactors for renewable resource production
35. Exergy analysis of algae bioreactors for renewable resources production
36. Design of clean-in-place systems in algal bioreactors for renewable resources production
Part IV - Bioprocesses, bioenergy, and bioproducts obtained from algae bioreactors
37. Enhancing anaerobic digestion processes in algae bioreactors for renewable products production
38. Biohydrogen production in algae bioreactors
39. Biodiesel production in algae bioreactors
40. Bioethanol production in algae bioreactors
41. Biomethane production in algae bioreactors
42. Bio-jet fuel production in algal bioreactors
43. Bioelectricity from microalgae-microbial fuel cell in bioreactors
44. Biofertilizers production in algal bioreactors
45. Biomass production in algae bioreactors
46. Proteins and amino acids production in algae bioreactors
47. Lipids, sterols, and fatty acids production in algae bioreactors
48. Pigments production in algae bioreactors
49. Bioreactors as core production of specific algal for food supplements
50. Biomedical applications of algal-based products
Part V - Environmental issues for algae bioreactors
51. Industrial wastewater in algae bioreactors
52. Algae bioreactors as strategies for heavy metal phycoremediation
53. Environmental assessment of algae bioreactors for renewable resources production
54. Carbon neutral in renewable resources from algae bioreactors: Is this possible?
1. Introduction to algal bioreactors: The biotechnology core
2. Algae strains in bioreactors: the adaptability of commercial and emerging species for renewable resource production
3. Principles of interactions between physiology and bioreactor design
4. Global market of algae bioproducts from bioreactor systems
5. Intellectual property and innovation trends applied to algae bioreactors
Part II - Science and engineering of algae bioreactors
6. Predictive models of algae growth in bioreactors
7. Optimal growth and culture conditions for algae in bioreactors
8. Hydrodynamic performance of algae bioreactors
9. Transfer phenomena in algae bioreactors
10. Photosynthetic reactions in algae photobioreactors
11. Contamination control in algae bioreactors
12. Processes control approaches applied to bioreactor models
13. Physical and biokinetic processes of carbon biosequestration in algae bioreactors
14. Biochemicals reactions in algae bioreactors
15. The influence of low carbon to nitrogen (C/N ratio) on phycoremediation
16. Ultrasound in algal bioreactors: A Process intensification strategy for renewable resources production
17. Microwave application in algal bioreactors: A Process intensification strategy for renewable resources production
18. Computational analysis of algae bioreactors performance for renewable resources production
19. Internet of Things (IoT) use for remote monitoring of algae bioreactors for renewable resources production
20. Scale-up of algae bioreactors for renewable resources production
21. Installations of algae bioreactors: design and operational issues in commercial plants
22. Techno-economic aspects and operational costs of algae bioreactors for renewable resources production
Part III - Trends in algal bioreactors design for renewable resource production
23. Industrial fermenters for renewable resource production
24. Air-lift photobioreactors for renewable resource production
25. Tubular photobioreactors for renewable resource production
26. Flat-plate photobioreactors for renewable resource production
27. Column photobioreactors for renewable resource production
28. Bubble column photobioreactors for renewable resource production
29. Hybrid photobioreactors for renewable resource production
30. Plastic bags photobioreactors for renewable resource production
31. Annular photobioreactors for renewable resource production
32. Membrane photobioreactors for renewable resource production
33. Packed Bed Bioreactors for renewable resource production
34. Fluidized Bed Reactors for renewable resource production
35. Exergy analysis of algae bioreactors for renewable resources production
36. Design of clean-in-place systems in algal bioreactors for renewable resources production
Part IV - Bioprocesses, bioenergy, and bioproducts obtained from algae bioreactors
37. Enhancing anaerobic digestion processes in algae bioreactors for renewable products production
38. Biohydrogen production in algae bioreactors
39. Biodiesel production in algae bioreactors
40. Bioethanol production in algae bioreactors
41. Biomethane production in algae bioreactors
42. Bio-jet fuel production in algal bioreactors
43. Bioelectricity from microalgae-microbial fuel cell in bioreactors
44. Biofertilizers production in algal bioreactors
45. Biomass production in algae bioreactors
46. Proteins and amino acids production in algae bioreactors
47. Lipids, sterols, and fatty acids production in algae bioreactors
48. Pigments production in algae bioreactors
49. Bioreactors as core production of specific algal for food supplements
50. Biomedical applications of algal-based products
Part V - Environmental issues for algae bioreactors
51. Industrial wastewater in algae bioreactors
52. Algae bioreactors as strategies for heavy metal phycoremediation
53. Environmental assessment of algae bioreactors for renewable resources production
54. Carbon neutral in renewable resources from algae bioreactors: Is this possible?
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
?-carotene; Airlift system; Airlift; Algae bioreactors; Algae growth; Algae stress;Biomass productivity;Carbon source;Cultivation;Growth regime;Microalgae;Photobioreactor; Algae; Algae-based products; Algal biomass; Algal bioreactors; Algal biorefinery; Algal biotechnology; Algal photosynthesis; Algal reactors; Algal-derived products; Aquatic biomass; Artificial light; Astaxanthin; Batch and/or continuous methods; Bio absorption; Bioactive compounds; Bioactive peptides; Bio-based products; Biodiesel production; Bioethanol; Biofertilizers; Bio-fuel; Biofuels; Biohydrogen; Biological carbon capture and utilization; Biological contamination; Biomedical; Biomethane; Bioprocessing; Bioreactor engineering; Bioreactor; Bioreactors; Biorefinery; Biostimulants; Biotechnology; Bubble column PBRs; Bubble velocity; Buckingham's-theorem; C/N ratio; Carbon footprint; Carbon offset; Carbonation; Cell flocculation; Cell wall; Challenges; Chlorella; Chlorophyll; Circular economy; CO2 biofixation; Column photobioreactor; Commercial plants; Commercial-scale; Computational fluid dynamics; Configurations; Contamination control; Contamination detection; Cost analysis; Cultivation system; Cultivation systems; Cultivation; Culture systems; Cyanobacteria; Design and analysis; Design considerations; Design; Dimensionless number; Dimensionless numbers; Downstream; Efficiency; Emerging pollutants; Environment; Environmental performance; Environmental renew; Essential amino acids; Exergy analysis; Exergy efficiency; Extraction; Fatty acid; Fermentation; Film; Filtration; Flashing light; Flat panel; Flexible; Food ingredients; Food security; Food supplement; Fouling; Fourier's law; Gas flow rate; Gas holdup; Genetic engineering; Growth kinetic parameters; Growth limiting factors; Harvesting; Heat and mass transfer; Heat transfer; Heat; Heavy metal uptake; Heavy metals; Heterotrophic mode; Hybrid bioreactor; Hydrodynamic performance; Hydrodynamics; Hydrogen algal reactor; Immobilized-suspended biomass; Impeller selection; Innovation management; Innovations; In-situ product recovery; Internet of things; Light conditions; Light guides; Light reception; Light transport; Light-emitting diodes; Lipids; Liquid velocity; Luminescent solar concentrators; Machine learning; Mass integration; Mass production; Mass transfer coefficient; Mass transport; Mathematical modeling; Microalgae bulk growth; Microalgae cultivation; Microalgae for bioremediating; Microalgae market; Microalgae metabolism; Microalgae; Microalgal bioreactor; Mixing; Modeling algal growth; Natural pigments; Nutraceuticals; Open bioreactor; Open ponds; Operating modes; Operation conditions; Operation; Operational challenges; Optimization; Outdoor culture; Photobioreactor; Photobioreactors; Photobiorreactors; Photosynthesis; Photosynthetic efficiency; Photosynthetic microorganism; Phototrophic microorganisms; Photovoltaics; Phycocyanin; Polyethylene; Polymer; Polypropylene; Predictive mathematical models; Pre-treatments; Process integration; Process intensification; Processes; ptxD; Raceway photobioreactors; Reactor design; Regulation; Reliability; Removal mechanism; Renewable fuel; Renewable resources; Review; Salinity; Scalability; Scale-up; Scaling up; Scaling-up parameters; Simulation; Smart city; Smart industry; Soil conditioners; Solar filters; Solar tracker; Spirulina; Steam; Sterol; Stirred tank; Stress; Sustainability; Sustainable development; Sustainable production; Sustainable; Taylor-Couette reactor; Techno-functional properties; Technology; Thermodynamics; Thin-film reactors; Tubular PBRs; Tubular photobioreactors; Tubular; Turbulence modeling; Upstream process; Upstream; Wastewater treatment; Yield
Part I - Fundamentals of algae bioreactors
1. Introduction to algal bioreactors: The biotechnology core
2. Algae strains in bioreactors: the adaptability of commercial and emerging species for renewable resource production
3. Principles of interactions between physiology and bioreactor design
4. Global market of algae bioproducts from bioreactor systems
5. Intellectual property and innovation trends applied to algae bioreactors
Part II - Science and engineering of algae bioreactors
6. Predictive models of algae growth in bioreactors
7. Optimal growth and culture conditions for algae in bioreactors
8. Hydrodynamic performance of algae bioreactors
9. Transfer phenomena in algae bioreactors
10. Photosynthetic reactions in algae photobioreactors
11. Contamination control in algae bioreactors
12. Processes control approaches applied to bioreactor models
13. Physical and biokinetic processes of carbon biosequestration in algae bioreactors
14. Biochemicals reactions in algae bioreactors
15. The influence of low carbon to nitrogen (C/N ratio) on phycoremediation
16. Ultrasound in algal bioreactors: A Process intensification strategy for renewable resources production
17. Microwave application in algal bioreactors: A Process intensification strategy for renewable resources production
18. Computational analysis of algae bioreactors performance for renewable resources production
19. Internet of Things (IoT) use for remote monitoring of algae bioreactors for renewable resources production
20. Scale-up of algae bioreactors for renewable resources production
21. Installations of algae bioreactors: design and operational issues in commercial plants
22. Techno-economic aspects and operational costs of algae bioreactors for renewable resources production
Part III - Trends in algal bioreactors design for renewable resource production
23. Industrial fermenters for renewable resource production
24. Air-lift photobioreactors for renewable resource production
25. Tubular photobioreactors for renewable resource production
26. Flat-plate photobioreactors for renewable resource production
27. Column photobioreactors for renewable resource production
28. Bubble column photobioreactors for renewable resource production
29. Hybrid photobioreactors for renewable resource production
30. Plastic bags photobioreactors for renewable resource production
31. Annular photobioreactors for renewable resource production
32. Membrane photobioreactors for renewable resource production
33. Packed Bed Bioreactors for renewable resource production
34. Fluidized Bed Reactors for renewable resource production
35. Exergy analysis of algae bioreactors for renewable resources production
36. Design of clean-in-place systems in algal bioreactors for renewable resources production
Part IV - Bioprocesses, bioenergy, and bioproducts obtained from algae bioreactors
37. Enhancing anaerobic digestion processes in algae bioreactors for renewable products production
38. Biohydrogen production in algae bioreactors
39. Biodiesel production in algae bioreactors
40. Bioethanol production in algae bioreactors
41. Biomethane production in algae bioreactors
42. Bio-jet fuel production in algal bioreactors
43. Bioelectricity from microalgae-microbial fuel cell in bioreactors
44. Biofertilizers production in algal bioreactors
45. Biomass production in algae bioreactors
46. Proteins and amino acids production in algae bioreactors
47. Lipids, sterols, and fatty acids production in algae bioreactors
48. Pigments production in algae bioreactors
49. Bioreactors as core production of specific algal for food supplements
50. Biomedical applications of algal-based products
Part V - Environmental issues for algae bioreactors
51. Industrial wastewater in algae bioreactors
52. Algae bioreactors as strategies for heavy metal phycoremediation
53. Environmental assessment of algae bioreactors for renewable resources production
54. Carbon neutral in renewable resources from algae bioreactors: Is this possible?
1. Introduction to algal bioreactors: The biotechnology core
2. Algae strains in bioreactors: the adaptability of commercial and emerging species for renewable resource production
3. Principles of interactions between physiology and bioreactor design
4. Global market of algae bioproducts from bioreactor systems
5. Intellectual property and innovation trends applied to algae bioreactors
Part II - Science and engineering of algae bioreactors
6. Predictive models of algae growth in bioreactors
7. Optimal growth and culture conditions for algae in bioreactors
8. Hydrodynamic performance of algae bioreactors
9. Transfer phenomena in algae bioreactors
10. Photosynthetic reactions in algae photobioreactors
11. Contamination control in algae bioreactors
12. Processes control approaches applied to bioreactor models
13. Physical and biokinetic processes of carbon biosequestration in algae bioreactors
14. Biochemicals reactions in algae bioreactors
15. The influence of low carbon to nitrogen (C/N ratio) on phycoremediation
16. Ultrasound in algal bioreactors: A Process intensification strategy for renewable resources production
17. Microwave application in algal bioreactors: A Process intensification strategy for renewable resources production
18. Computational analysis of algae bioreactors performance for renewable resources production
19. Internet of Things (IoT) use for remote monitoring of algae bioreactors for renewable resources production
20. Scale-up of algae bioreactors for renewable resources production
21. Installations of algae bioreactors: design and operational issues in commercial plants
22. Techno-economic aspects and operational costs of algae bioreactors for renewable resources production
Part III - Trends in algal bioreactors design for renewable resource production
23. Industrial fermenters for renewable resource production
24. Air-lift photobioreactors for renewable resource production
25. Tubular photobioreactors for renewable resource production
26. Flat-plate photobioreactors for renewable resource production
27. Column photobioreactors for renewable resource production
28. Bubble column photobioreactors for renewable resource production
29. Hybrid photobioreactors for renewable resource production
30. Plastic bags photobioreactors for renewable resource production
31. Annular photobioreactors for renewable resource production
32. Membrane photobioreactors for renewable resource production
33. Packed Bed Bioreactors for renewable resource production
34. Fluidized Bed Reactors for renewable resource production
35. Exergy analysis of algae bioreactors for renewable resources production
36. Design of clean-in-place systems in algal bioreactors for renewable resources production
Part IV - Bioprocesses, bioenergy, and bioproducts obtained from algae bioreactors
37. Enhancing anaerobic digestion processes in algae bioreactors for renewable products production
38. Biohydrogen production in algae bioreactors
39. Biodiesel production in algae bioreactors
40. Bioethanol production in algae bioreactors
41. Biomethane production in algae bioreactors
42. Bio-jet fuel production in algal bioreactors
43. Bioelectricity from microalgae-microbial fuel cell in bioreactors
44. Biofertilizers production in algal bioreactors
45. Biomass production in algae bioreactors
46. Proteins and amino acids production in algae bioreactors
47. Lipids, sterols, and fatty acids production in algae bioreactors
48. Pigments production in algae bioreactors
49. Bioreactors as core production of specific algal for food supplements
50. Biomedical applications of algal-based products
Part V - Environmental issues for algae bioreactors
51. Industrial wastewater in algae bioreactors
52. Algae bioreactors as strategies for heavy metal phycoremediation
53. Environmental assessment of algae bioreactors for renewable resources production
54. Carbon neutral in renewable resources from algae bioreactors: Is this possible?
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
?-carotene; Airlift system; Airlift; Algae bioreactors; Algae growth; Algae stress;Biomass productivity;Carbon source;Cultivation;Growth regime;Microalgae;Photobioreactor; Algae; Algae-based products; Algal biomass; Algal bioreactors; Algal biorefinery; Algal biotechnology; Algal photosynthesis; Algal reactors; Algal-derived products; Aquatic biomass; Artificial light; Astaxanthin; Batch and/or continuous methods; Bio absorption; Bioactive compounds; Bioactive peptides; Bio-based products; Biodiesel production; Bioethanol; Biofertilizers; Bio-fuel; Biofuels; Biohydrogen; Biological carbon capture and utilization; Biological contamination; Biomedical; Biomethane; Bioprocessing; Bioreactor engineering; Bioreactor; Bioreactors; Biorefinery; Biostimulants; Biotechnology; Bubble column PBRs; Bubble velocity; Buckingham's-theorem; C/N ratio; Carbon footprint; Carbon offset; Carbonation; Cell flocculation; Cell wall; Challenges; Chlorella; Chlorophyll; Circular economy; CO2 biofixation; Column photobioreactor; Commercial plants; Commercial-scale; Computational fluid dynamics; Configurations; Contamination control; Contamination detection; Cost analysis; Cultivation system; Cultivation systems; Cultivation; Culture systems; Cyanobacteria; Design and analysis; Design considerations; Design; Dimensionless number; Dimensionless numbers; Downstream; Efficiency; Emerging pollutants; Environment; Environmental performance; Environmental renew; Essential amino acids; Exergy analysis; Exergy efficiency; Extraction; Fatty acid; Fermentation; Film; Filtration; Flashing light; Flat panel; Flexible; Food ingredients; Food security; Food supplement; Fouling; Fourier's law; Gas flow rate; Gas holdup; Genetic engineering; Growth kinetic parameters; Growth limiting factors; Harvesting; Heat and mass transfer; Heat transfer; Heat; Heavy metal uptake; Heavy metals; Heterotrophic mode; Hybrid bioreactor; Hydrodynamic performance; Hydrodynamics; Hydrogen algal reactor; Immobilized-suspended biomass; Impeller selection; Innovation management; Innovations; In-situ product recovery; Internet of things; Light conditions; Light guides; Light reception; Light transport; Light-emitting diodes; Lipids; Liquid velocity; Luminescent solar concentrators; Machine learning; Mass integration; Mass production; Mass transfer coefficient; Mass transport; Mathematical modeling; Microalgae bulk growth; Microalgae cultivation; Microalgae for bioremediating; Microalgae market; Microalgae metabolism; Microalgae; Microalgal bioreactor; Mixing; Modeling algal growth; Natural pigments; Nutraceuticals; Open bioreactor; Open ponds; Operating modes; Operation conditions; Operation; Operational challenges; Optimization; Outdoor culture; Photobioreactor; Photobioreactors; Photobiorreactors; Photosynthesis; Photosynthetic efficiency; Photosynthetic microorganism; Phototrophic microorganisms; Photovoltaics; Phycocyanin; Polyethylene; Polymer; Polypropylene; Predictive mathematical models; Pre-treatments; Process integration; Process intensification; Processes; ptxD; Raceway photobioreactors; Reactor design; Regulation; Reliability; Removal mechanism; Renewable fuel; Renewable resources; Review; Salinity; Scalability; Scale-up; Scaling up; Scaling-up parameters; Simulation; Smart city; Smart industry; Soil conditioners; Solar filters; Solar tracker; Spirulina; Steam; Sterol; Stirred tank; Stress; Sustainability; Sustainable development; Sustainable production; Sustainable; Taylor-Couette reactor; Techno-functional properties; Technology; Thermodynamics; Thin-film reactors; Tubular PBRs; Tubular photobioreactors; Tubular; Turbulence modeling; Upstream process; Upstream; Wastewater treatment; Yield
