Biodiesel Production from Microalgae: Exergy Analysis Using Specific Exergy Costing Approach

Biodiesel Production from Microalgae: Exergy Analysis Using Specific Exergy Costing Approach

Current biodiesel production research has focused on improving its energy performance and identifying and decreasing inefficiencies. To this end, exergy analysis can help develop, assess, and enhance biodiesel production plants. This study presents the exergy assessment of microalgae biodiesel produ...

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Bibliographic Details
Published in:Bioenergy research Vol. 17; no. 1; pp. 598 - 611
Main Authors: Cavalcanti, Eduardo J. C., Barbosa, Diego S., Carvalho, Monica
Format: Journal Article
Language:English
Published: New York Springer US 01-03-2024
Springer Nature B.V
Subjects:
Algae
Aquatic microorganisms
Biodiesel fuels
Biofuels
Biomedical and Life Sciences
Chemical speciation
Cost analysis
Diesel
Distillation
Driers
Efficiency
Energy efficiency
Exergy
Heat exchangers
Life Sciences
Microalgae
Mixers
Plant Breeding/Biotechnology
Plant Ecology
Plant Genetics and Genomics
Plant Sciences
Production costs
Thermodynamics
Transesterification
Wood Science & Technology
microalgae
Bioenergy
Biofuel
SPECO
Exergetic efficiency
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Summary:Current biodiesel production research has focused on improving its energy performance and identifying and decreasing inefficiencies. To this end, exergy analysis can help develop, assess, and enhance biodiesel production plants. This study presents the exergy assessment of microalgae biodiesel production, which includes mixers, a photobioreactor (PBR), centrifuges, pumps, dryers, an extractor, tanks, heat exchangers, reactor, a washer, a distillation column, flash valve, and hydro-cyclone. The first phase is algae cultivation, followed by oil extraction. The third phase is transesterification, where algal oil is separated by methane into biodiesel and glycerin. The fourth phase is biodiesel purification, followed by methanol recovery/glycerin separation. The model of the biodiesel production plant is based on mass, chemical species, energy, and exergy balances. It was verified that 93.4% of the inlet exergy originates from sunlight, with a low exergy efficiency (11.46%) obtained for the PBR. This component presented a very low energy efficiency (2.7%) and the highest destruction of exergy: 2287 GJ is destroyed, corresponding to 99.36%. The highest exergy efficiency was obtained for dryer #3 (99.99%), but other components also presented values over 99%. Finally, this study critically compares the results obtained herein with scientific literature data, highlighting data gaps and inconsistencies. The exergy assessment presented a detailed biodiesel production process from microalgae and can be used to support the improvement of production costs to motivate widespread adoption.
ISSN:1939-1242
1939-1234
1939-1242
DOI:10.1007/s12155-023-10636-0