Algal-based biofuel generation through flue gas and wastewater utilization: a sustainable prospective approach

Algal-based biofuel generation through flue gas and wastewater utilization: a sustainable prospective approach

Increasing concern towards climate change and water conservation has attracted wide attention of researchers to explore the biological carbon fixation and wastewater treatment by using microalgae. Algal biomass can be harvested in an integrated system provided with carbon dioxide from power plants a...

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Bibliographic Details
Published in:Biomass conversion and biorefinery Vol. 11; no. 4; pp. 1419 - 1442
Main Authors: Kothari, Richa, Ahmad, Shamshad, Pathak, Vinayak V., Pandey, Arya, Kumar, Ashwani, Shankarayan, Raju, Black, Paul N., Tyagi, V. V.
Format: Journal Article
Language:English
Published: Berlin/Heidelberg Springer Berlin Heidelberg 01-08-2021
Springer Nature B.V
Subjects:
Algae
Biodiesel fuels
Biofuels
Biomass
Biotechnology
Carbon dioxide
Cultivation
Energy
Feasibility studies
Fixation
Flue gas
Gas dynamics
Power plants
Renewable and Green Energy
Review Article
Sustainability
Wastewater treatment
Water conservation
Water treatment
Algal-nutrient-wastewater-flue gas dynamics (ANWFD)
Water footprinting
Wastewater
Flue gas
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Summary:Increasing concern towards climate change and water conservation has attracted wide attention of researchers to explore the biological carbon fixation and wastewater treatment by using microalgae. Algal biomass can be harvested in an integrated system provided with carbon dioxide from power plants and wastewater released from industrial and domestic sector. In this way simultaneous potential of microalgae can be utilized for simultaneous fixation of CO 2 and wastewater treatment. This article present a critical review focusing on challenges in algal biomass production technologies and how to achieve algal biofuel production in an integrated system of CO 2 fixation and wastewater treatment by suitable microalgal species. In view of these objectives, this article provides a comprehensive narration about the following: (a) perspectives of carbon uptake by algal biomass; (b) industrial emissions as a CO 2 supplement for algal cultivation; (c) water foot print for algal cultivation; and (d) genomics for improvement of algal biofuel production. This review found that technical feasibility, economic viability, and resource sustainability are the key steps for algal biofuel production that can be achieved through flue gas and wastewater nexus in algal cultivation. It also provides salient features of algae-nutrient-wastewater-flue gas dynamics to measure the influences of flue gas and wastewater on algal biomass productivity.
ISSN:2190-6815
2190-6823
DOI:10.1007/s13399-019-00533-y