A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
Food Industries Wastewater Recycling for Biodiesel Production through Microalgal Remediation
This article is an overview of a biosystem of food-industry wastewater (WW) treatment using microalgae towards circular bioeconomy through biosynthesis of compounds of added-value. Focusing on circular bioeconomy with concern to environmental pollution, the management of water-resource and energy-crisis could be combined; by upgrading conventional WW treatment and simultaneously producing a renewable and sustainable source of energy algal-lipids for biodiesel production. Phyco-remediation of food WW using microalgae has revealed many advantages that can fulfill new demands for the WW treatment. WWs can be valuable resources of micronutrients and organic content (carbon source) for algal cultivation. In this review, prospective routes for the production of value-added compounds (polysaccharides, amino acids, biofuels, and biopigments) along with the bioremediation of food industry WW have been discussed. Furthermore, limitations and issues of phyco-remediation of WW using microalgae have also been reviewed with perspectives for further research and development.
Food Industries Wastewater Recycling for Biodiesel Production through Microalgal Remediation
This article is an overview of a biosystem of food-industry wastewater (WW) treatment using microalgae towards circular bioeconomy through biosynthesis of compounds of added-value. Focusing on circular bioeconomy with concern to environmental pollution, the management of water-resource and energy-crisis could be combined; by upgrading conventional WW treatment and simultaneously producing a renewable and sustainable source of energy algal-lipids for biodiesel production. Phyco-remediation of food WW using microalgae has revealed many advantages that can fulfill new demands for the WW treatment. WWs can be valuable resources of micronutrients and organic content (carbon source) for algal cultivation. In this review, prospective routes for the production of value-added compounds (polysaccharides, amino acids, biofuels, and biopigments) along with the bioremediation of food industry WW have been discussed. Furthermore, limitations and issues of phyco-remediation of WW using microalgae have also been reviewed with perspectives for further research and development.
Food Industries Wastewater Recycling for Biodiesel Production through Microalgal Remediation
Amit (author) / Divakar Dahiya (author) / Uttam K. Ghosh (author) / Poonam S. Nigam (author) / Amit K. Jaiswal (author)
2021
Article (Journal)
Electronic Resource
Unknown
Metadata by DOAJ is licensed under ​CC BY-SA 1.0
| DOAJ | 2018
Marine microalgal culturing in open pond systems for biodiesel production—Critical parameters
| American Institute of Physics | 2016
Sustainable Approaches to Microalgal Pre-Treatment Techniques for Biodiesel Production: A Review
| DOAJ | 2022