Advancements in photobioreactor designs for development of microalgal biorefinery toward integrated remediation of industrial wastewater and product recovery.
Journal:
3 Biotech
Published Date:
Jul 28, 2025
Abstract
Microalgae are considered as the most promising self-reliant feedstock and a potential source of value-added products viz. carbohydrates, carotenoids, lipids, proteins, and polymers, for applications in food and nutrition, cosmetics, pharmaceuticals and biofuels. The mandate for sustainable production of various renewable and value-added products has exaggerated microalgae cultivation. However, the commercial applications of microalgae-based value-added products are still limited due to the high production cost. The present study has systematically discussed various photobioreactor archetypes along with physicochemical factors (light, temperature, pH, nutrients, mixing, oxygen and carbon dioxide concentration, gas exchange, salinity) affecting biomass productivity and process integrations. The study has also highlighted the modeling and simulation of bioreactor designs along with applications of artificial intelligence and machine learning in the design and process development. Microalgae-based circular bioeconomy has also been discussed. The study present valuable perspectives for subsequent investigations focused on creating commercially feasible, large-scale microalgae growth systems. Development of sustainable strategies is required for rationalized nutrient recycling and bioproducts recovery in process coupling for elevation in microalgal biomass productivity for commercial applications.
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