Welcome to Advances in Thermal-Fluid Sciences
The journal encourages contributions that demonstrate a clear connection to real-world applications, theoretical advancements that lead to better understanding or prediction of phenomena, and the development of new methodologies or technologies in thermal-fluid sciences.
Aims
The journal "Advances in Thermal-Fluid Sciences" aims to be a leading platform for the dissemination of cutting-edge research in the fields of thermal and fluid sciences. It seeks to publish high-quality, innovative research that advances the understanding of thermal energy, heat transfer, fluid mechanics, and their applications across various engineering disciplines. The journal strives to foster interdisciplinary collaboration and exchange among scientists, engineers, and professionals working in academia, industry, and government to address complex challenges in thermal-fluid systems.
Scopes
"Advances in Thermal-Fluid Sciences" welcomes original research articles, review papers, technical notes, and case studies covering but not limited to the following areas:
1•
Thermodynamics and Heat Transfer
Studies on heat and mass transfer, phase change phenomena, thermal management in electronics and machinery, radiative heat transfer, and new insights into thermodynamic processes.
2•
Fluid Mechanics
Innovative research on laminar and turbulent flow, flow control, multiphase flow, bio-fluid mechanics, and advancements in computational fluid dynamics (CFD) methods.
3•
Materials for Thermal-Fluid Applications
Research on materials with enhanced thermal and fluid flow properties for heat exchangers, insulators, thermal interface materials, and coatings.
4•
Environmental and Geophysical Flows
Studies on atmospheric flows, ocean circulation, climate modeling, environmental impact of thermal-fluid systems, and pollution control technologies.
5•
Energy Systems
Research on thermal-fluid aspects of renewable energy systems, including solar, wind, geothermal, and biomass energy conversion, as well as advancements in traditional energy systems such as thermal power plants and internal combustion engines.
6•
Experimental Techniques and Instrumentation
Development of new experimental methods and diagnostics tools for thermal and fluid flow measurements, visualization techniques, and data analysis.
7•
Microscale and Nanoscale Thermal-Fluid Sciences
Advances in microfluidics, nanofluids, heat and mass transfer at micro and nanoscales, and applications in energy systems, electronics cooling, and biomedical devices.
8•
Applied Mathematics and Physics in Thermal-Fluid Sciences
Theoretical and computational models, analytical and numerical methods, and the application of physics principles to solve thermal-fluid problems.