Understanding the intersectional, complex challenges that need to be overcome in this endeavor, the ECOS 2025 conference will encompass a broad range of theoretical and practical engineering topics, including:
• Basic and applied thermodynamics, heat and mass transfer, exergybased methods
• Energy conversion technologies for power production, cogeneration, polygeneration, refrigeration and heat upgrading
• Thermodynamics, Heat and Mass transfer
• Computational Thermo-Fluid Dynamics (CFD)
• Exergy-based analysis: Applications and teaching in academia
• Fuel and chemical conversion processes (incl. combustion, gasification, hydrogen and biofuels production and use)
• Refrigeration and heat pumps
• ORC and Supercritical CO2 systems
• Hydrogen Energy (utilization, storage, production)
• Power-to-X
• Renewable energy utilization, integration and energy storage
• Sustainable energy policy and planning
• Environmental impact of energy systems & energy-water nexus
• Digitalization, AI, smart grids, distributed generation
• Life Cycle Analysis, Life Cycle Cost Analysis
• Socioeconomic analysis of Energy systems
• Energy, materials, waste and water: Resources and footprints.
• Energy policy and planning
• Climate Change and Energy conversion
• Carnot Batteries