Associate Professor at Federal Institute of Espirito Santo, Brazil.
Dr. Flavio Bittencourt is a Mechanical Engineer and researcher specializing in thermochemical engineering for sustainable development. He earned his bachelor’s, master’s, and doctoral degrees from the Federal University of Espírito Santo (UFES), with a strong foundation in combustion science and environmental applications. Currently serving as an Associate Professor at IFES and coordinator of the Marine Energy Laboratory, he focuses on converting marine biomass and organic waste into valuable energy resources. His research bridges environmental sanitation and renewable energy, aligning closely with the United Nations Sustainable Development Goals (SDGs), particularly in clean energy, waste valorization, and environmental protection.
Publication Profile
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Educational Details
- Ph.D. in Mechanical Sciences (2019–2023)
Laboratory of Combustion and Combustible Matter, Federal University of Espírito Santo (UFES), Brazil.
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M.Sc. in Mechanical Sciences (2014–2016)
Laboratory of Combustion and Combustible Matter, UFES, Brazil.
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B.Sc. in Mechanical Engineering (2008–2013)
Federal University of Espírito Santo (UFES), Brazil.
Professional Experience
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Associate Professor, Federal Institute of Science, Technology, and Education of Espírito Santo (IFES), Brazil (2016–present)
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Head of the Marine Energy Laboratory (Since 2016)
Coordinates multidisciplinary research in marine bioenergy and waste-to-energy technologies.
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Involved in undergraduate education, particularly in the Fisheries Engineering program, combining engineering fundamentals with sustainable energy research.
Research Interest
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Thermochemical processes and reactor design
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Chemical reaction engineering
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Waste-to-energy technologies
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Sustainable treatment of organic and marine wastes
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Microplastics characterization and biofuel production from marine biomass
Author Metrics
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Total Citations: 108
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h-index: 7
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i10-index: 5
Top Noted Publication
1. Developing a combustion-driven reactor for waste conversion
Authors: J.V.F. Duque, F.L.F. Bittencourt, M.F. Martins, G. Debenest
Journal: Energy
Volume: 237
Article ID: 121489
Year: 2021
Citations: 20
Highlights: This work presents a novel combustion-driven reactor design for efficient waste-to-energy conversion, integrating thermochemical and fluid dynamics analysis for optimization.
2. Thermodynamic assessment of human feces gasification: an experimental-based approach
Authors: F.L.F. Bittencourt, A.B. Lourenço, E.A. Dalvi, M.F. Martins
Journal: SN Applied Sciences
Volume: 1
Pages: 1–13
Year: 2019
Citations: 20
Highlights: This study provides a comprehensive thermodynamic evaluation of feces gasification using experimental parameters, contributing to sustainable sanitation technologies.
3. Free convection development caused by bed shrinkage in a vacuum-induced smoldering reactor
Authors: F.L.F. Bittencourt, G. Debenest, M.F. Martins
Journal: Chemical Engineering Journal
Volume: 430
Article ID: 132847
Year: 2022
Citations: 16
Highlights: Investigates how bed shrinkage influences natural convection patterns in smoldering reactors, with implications for scaling vacuum-assisted waste processing systems.
4. The proof-of-concept of a novel feces destroyer latrine
Authors: F.L.F. Bittencourt, M.F. Martins, M.T.D. Orlando, E.S. Galvão
Journal: Journal of Environmental Chemical Engineering
Article ID: 106827
Year: 2022
Citations: 16
Highlights: Describes a self-sustaining latrine system utilizing combustion to safely and effectively destroy fecal waste, aimed at improving sanitation in low-resource settings.
5. Relevant aspects of propagating a combustion front in an annular reactor for out-of-bed heat recovery
Authors: J.V.F. Duque, M.F. Martins, F.L.F. Bittencourt, G. Debenest
Journal: Experimental Thermal and Fluid Science
Volume: 133
Article ID: 110575
Year: 2022
Citations: 10
Highlights: Explores the dynamics of combustion front propagation in annular geometries for effective thermal energy harvesting outside the reaction zone.
Conclusion
Dr. Flávio Bittencourt is an excellent candidate for the Best Researcher Award due to his innovative contributions to sustainable energy, waste valorization, and environmental pollution management. His interdisciplinary approach, combined with a growing publication record and significant contributions to environmental sanitation, positions him as a leading researcher in thermochemical engineering and sustainable development. While his citation impact is still evolving, his potential for broader collaboration and dissemination could propel his work to even greater recognition.
Given his academic leadership, innovative research, and commitment to addressing urgent global challenges, Dr. Bittencourt deserves the Best Researcher Award for his continuous dedication to advancing solutions for environmental protection and clean energy.