FLUTE 2025 is an international peer-reviewed academic symposium. It provides a forum for high-quality academic papers in order to promote rapid communication and exchange between researchers, scientists, and engineers in the field of fluid and thermal engineering. It publishes original research articles, review articles, and feature articles.
Theme: Innovations and Future Directions in Renewable Energy Harvesting and Sustainable Thermal Systems
The third Biennial International Symposium on Fluids and Thermal Engineering (FLUTE 2025) will focus on innovations and future directions in renewable energy harvesting and sustainable thermal systems. Under this theme, scientists, engineers, industry, and academics will get the opportunity to highlight the integration of innovative thermal systems and sustainable energy solutions, focusing on new approaches to energy efficiency, low-carbon technologies, and green power generation. The symposium will offer participants the chance to network with global researchers, industry professionals, and academics to discuss the latest developments, share knowledge, and shape the future of clean energy technologies and fluid-thermal engineering.
We are pleased to invite you to submit and present your research and innovation work in FLUTE 2025.
Topics Covered
- Solar, wind, and wave energy systems
- Concentrated solar power (CSP) systems
- Emerging technologies for geothermal and hydroelectric power
- Thermal energy storage systems
- Seasonal thermal energy storage solutions
- Fuel cells and advanced combustion systems
- Biomass and waste-to-energy technologies
- Biofuels, hydrogen, and synthetic fuels
- Life cycle assessment of renewable energy technologies
- Carbon capture, utilization, and storage (CCUS)
- Low-carbon and carbon-neutral energy systems
- Policy and regulatory frameworks for sustainable energy
- Pathways to net-zero energy buildings and systems
- Decarbonizing the industrial and power sectors
- Hybrid renewable energy systems
- Cogeneration and trigeneration systems
- Hydrodynamics of tidal and wave energy systems
- Multiphase flows in thermal and fluid systems
- Computational fluid dynamics (CFD) for energy applications
- Smart grids and demand-side energy management
- Energy storage systems (electrical, mechanical and chemical)
- Role of AI and machine learning in energy optimization
- Decentralized energy systems and microgrids
- Advanced Functional materials for energy harvesting
- Nanomaterials in thermal and fluid systems
- Bioenergy conversion technologies
- Hydrogen production methods
- Desalination and water purification processes
- Solar-driven systems
