Environmental Fluid Mechanics explores the dynamics of environmental flows, bridging the gap between fundamental fluid mechanics and real-world environmental applications. This interdisciplinary journal covers a wide range of topics, including turbulent mixing, transport processes, and pollutant dispersion in both natural and engineered systems. It examines flows in rivers, lakes, oceans, and the atmosphere, as well as within industrial and agricultural settings, with the use of mathematical modeling and experimental analysis.
Key areas of focus include geomorphology, erosion, fluvial processes, modeling, and optimal control. The journal welcomes contributions that advance our understanding of environmental fluid mechanics through theoretical analysis, numerical simulations, and laboratory or field experiments. Articles are indexed in major scientific databases.
Environmental Fluid Mechanics is essential reading for researchers and practitioners in civil, environmental, and mechanical engineering, as well as oceanography, meteorology, and related disciplines. Consider submitting your original research to advance the field and contribute to a more sustainable future. This journal promotes the application of rigorous fluid mechanics principles to address pressing environmental challenges.