Gasification of <i>Chlorella vulgaris</i> for Syngas Production and Energy Generation Through Gas Turbine

Gasification of <i>Chlorella vulgaris</i> for Syngas Production and Energy Generation Through Gas Turbine

The increasing need for sustainable energy sources has driven research toward innovative solutions, including biomass gasification for syngas production, with applications in the chemical industry and energy generation. This study explores the application of <i>Chlorella vulgaris</i> in...

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Bibliographic Details
Main Authors: Lucrezia Scopel, Vera Marcantonio
Format: Article
Language:English
Published: MDPI AG 2024-12-01
Series:Energies
Subjects:
biomass conversion
biomass waste
aspen plus
synthesis gas
energy generation
microalgae
Online Access:https://www.mdpi.com/1996-1073/17/23/6085
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Summary:The increasing need for sustainable energy sources has driven research toward innovative solutions, including biomass gasification for syngas production, with applications in the chemical industry and energy generation. This study explores the application of <i>Chlorella vulgaris</i> in the gasification process to produce syngas intended for gas turbine operation. Using Aspen Plus V11 (academic version) simulations, the study evaluates optimal process conditions and syngas yields, focusing on operational parameters such as the S/B ratio and gasifier temperature. Results show that a higher S/B ratio increases H<sub>2</sub> and CO<sub>2</sub> concentrations while reducing CO and CH<sub>4</sub>, with final syngas composition in dry conditions reaching 0.42 CO, 0.52 H<sub>2</sub>, and 0.036 H<sub>2</sub>O. Contaminants like H<sub>2</sub>S and HCl were effectively reduced below critical thresholds, with H<sub>2</sub>S levels under 20 ppm and HCl under 1 ppm to meet GT requirements. The system achieved a cold gas efficiency of 55% and an overall turbine cycle efficiency of 25%, with CO<sub>2</sub> emissions of 0.198 kg per kWh produced. In conclusion, the gasification of <i>C. vulgaris</i> offers a promising and sustainable solution for syngas production and energy generation, with reduced environmental impacts. However, economic feasibility and certain technical challenges will require further advancements to fully realize this technology’s potential.
ISSN:1996-1073

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