Home Chapter 21 Process integration and process intensification approaches as enhancers of industrial sustainability in microalgaebased systems
Chapter
Licensed
Unlicensed Requires Authentication

Chapter 21 Process integration and process intensification approaches as enhancers of industrial sustainability in microalgaebased systems

  • Mariany Costa Deprá , Leila Queiroz Zepka and Eduardo Jacob-Lopes
Become an author with De Gruyter Brill
How to publish with us
Microalgae-Based Systems
This chapter is in the book Microalgae-Based Systems

Abstract

Nowadays, planning and designing a more viable industrial process is one of the fundamental challenges in cleaner production progress. Microalgae-based systems have emerged in the scientific field as they are cleaner sources of bioenergy, offering bioproducts with several advantages over conventional cultures. However, criticisms attributed to these processes center on their technological practicality, and economic and environmental feasibility. In this way, processes integration and intensification strategies were implemented in the microalgae context to offer a technological leap and to advance the development of cleaner and more sustainable processes. In the light of this development, we review the theory and practice applied to the integration and intensification processes associated with microalgae-based systems in this chapter. Besides, this work presents an overview of the status of process integration and intensification and their positive relationships with sustainability aspects. To support these assumptions, recent studies have been gathered and presented, which correlated with the engineering strategies and reductions in environmental burdens.

Abstract

Nowadays, planning and designing a more viable industrial process is one of the fundamental challenges in cleaner production progress. Microalgae-based systems have emerged in the scientific field as they are cleaner sources of bioenergy, offering bioproducts with several advantages over conventional cultures. However, criticisms attributed to these processes center on their technological practicality, and economic and environmental feasibility. In this way, processes integration and intensification strategies were implemented in the microalgae context to offer a technological leap and to advance the development of cleaner and more sustainable processes. In the light of this development, we review the theory and practice applied to the integration and intensification processes associated with microalgae-based systems in this chapter. Besides, this work presents an overview of the status of process integration and intensification and their positive relationships with sustainability aspects. To support these assumptions, recent studies have been gathered and presented, which correlated with the engineering strategies and reductions in environmental burdens.

Chapters in this book

  1. Frontmatter I
  2. Contents V
  3. Contributing authors IX
  4. Part I: Fundamentals
  5. Chapter 1 A timeline on microalgal biotechnology 1
  6. Chapter 2 Scope of the microalgae market: a demand and supply perspective 19
  7. Chapter 3 Challenges and opportunities for microalgae biotechnology development 41
  8. Chapter 4 Major bottlenecks in industrial microalgaebased facilities 55
  9. Chapter 5 Multimethod and multiproduct microalgae biorefineries: industrial scale feasibility: eutectic solvents as a novel extraction system for microalgae biorefinery 67
  10. Chapter 6 What is next in microalgae research 81
  11. Chapter 7 Microalgae supply chains 107
  12. Part II: Process integration applied to microalgae-based systems
  13. Chapter 8 Energy and heat integration applied to microalgae-based systems 133
  14. Chapter 9 Mass integration applied to microalgaebased systems 147
  15. Chapter 10 Water integration applied to microalgaebased systems 165
  16. Chapter 11 Process integration opportunities applied to microalgae biomass production 183
  17. Part III: Process intensification applied to microalgae-based processes
  18. Chapter 12 Process intensification applied to bioreactor design 213
  19. Chapter 13 Process intensification approaches applied to the downstream processing of microalgae production 241
  20. Part IV: Process integration and process intensification strategies applied to microalgae-based products
  21. Chapter 14 Process integration opportunities applied to microalgae biomass production 271
  22. Chapter 15 Process integration opportunities applied to microalgae specialty chemicals production 299
  23. Chapter 16 Process intensification opportunities applied to the production of microalgae specialty chemicals 325
  24. Chapter 17 Process integration opportunities applied to microalgae biofuels production 349
  25. Chapter 18 Process intensification opportunities in the production of microalgal biofuels 377
  26. Chapter 19 Process integration approaches applied to carbon dioxide capture and use from microalgae 409
  27. Chapter 20 Algae-based bioelectrochemical systems 425
  28. Chapter 21 Process integration and process intensification approaches as enhancers of industrial sustainability in microalgaebased systems 441
  29. Chapter 22 Patents related to process integration and process intensification applied to microalgae-based systems 455
  30. Chapter 23 A brief mapping of patents in microalgaebased systems 479
  31. Index 507
https://doi.org/10.1515/9783110781267-021

Chapters in this book

  1. Frontmatter I
  2. Contents V
  3. Contributing authors IX
  4. Part I: Fundamentals
  5. Chapter 1 A timeline on microalgal biotechnology 1
  6. Chapter 2 Scope of the microalgae market: a demand and supply perspective 19
  7. Chapter 3 Challenges and opportunities for microalgae biotechnology development 41
  8. Chapter 4 Major bottlenecks in industrial microalgaebased facilities 55
  9. Chapter 5 Multimethod and multiproduct microalgae biorefineries: industrial scale feasibility: eutectic solvents as a novel extraction system for microalgae biorefinery 67
  10. Chapter 6 What is next in microalgae research 81
  11. Chapter 7 Microalgae supply chains 107
  12. Part II: Process integration applied to microalgae-based systems
  13. Chapter 8 Energy and heat integration applied to microalgae-based systems 133
  14. Chapter 9 Mass integration applied to microalgaebased systems 147
  15. Chapter 10 Water integration applied to microalgaebased systems 165
  16. Chapter 11 Process integration opportunities applied to microalgae biomass production 183
  17. Part III: Process intensification applied to microalgae-based processes
  18. Chapter 12 Process intensification applied to bioreactor design 213
  19. Chapter 13 Process intensification approaches applied to the downstream processing of microalgae production 241
  20. Part IV: Process integration and process intensification strategies applied to microalgae-based products
  21. Chapter 14 Process integration opportunities applied to microalgae biomass production 271
  22. Chapter 15 Process integration opportunities applied to microalgae specialty chemicals production 299
  23. Chapter 16 Process intensification opportunities applied to the production of microalgae specialty chemicals 325
  24. Chapter 17 Process integration opportunities applied to microalgae biofuels production 349
  25. Chapter 18 Process intensification opportunities in the production of microalgal biofuels 377
  26. Chapter 19 Process integration approaches applied to carbon dioxide capture and use from microalgae 409
  27. Chapter 20 Algae-based bioelectrochemical systems 425
  28. Chapter 21 Process integration and process intensification approaches as enhancers of industrial sustainability in microalgaebased systems 441
  29. Chapter 22 Patents related to process integration and process intensification applied to microalgae-based systems 455
  30. Chapter 23 A brief mapping of patents in microalgaebased systems 479
  31. Index 507
Sign up now to receive a 20% welcome discount
Institutional Access
How does access work?
Have an idea on how to improve our website?
Please write us.
© 2025 De Gruyter Brill
Downloaded on 16.10.2025 from https://www.degruyterbrill.com/document/doi/10.1515/9783110781267-021/html
Scroll to top button