Aims and Scope:

Advances in Fluid Mechanics Research (AFMR) stands as an esteemed open-access journal dedicated to exploring the vast domain of fluid mechanics. With a rigorous peer-review process, AFMR ensures the dissemination of high-quality research, spanning experimental, theoretical, and computational approaches. By embracing a multidisciplinary perspective, the journal elucidates the fundamental principles and practical applications of fluid mechanics in diverse fields, including aerospace, chemical engineering, mechanical engineering, and biomedical engineering.

Original research articles serve as the bedrock of AFMR, offering novel insights and breakthrough discoveries that push the boundaries of fluid mechanics. Researchers, employing state-of-the-art techniques and methodologies, uncover the intricate dynamics of fluids, unraveling complex phenomena and shedding light on the underlying mechanisms that govern their behavior. Through rigorous experimentation, mathematical modeling, and numerical simulations, these contributions expand our understanding of fluid flow, turbulence, boundary layers, multiphase systems, and other fascinating aspects of the field.

In addition to original research, AFMR welcomes comprehensive review articles that critically synthesize existing literature, providing a comprehensive overview of specific topics within fluid mechanics. By distilling and analyzing a vast body of knowledge, these reviews facilitate a deeper understanding of key concepts, highlight emerging trends, and propose avenues for future research. Through their integrative approach, review articles foster collaboration, stimulate discussion, and guide researchers and practitioners in navigating the ever-evolving landscape of fluid mechanics.

Perspective articles, another valuable component of AFMR, offer insightful viewpoints and expert opinions on significant advancements and current challenges in the field. These contributions provide a platform for researchers and thought leaders to share their unique perspectives, propose novel concepts, and explore uncharted territories within fluid mechanics. By encouraging critical thinking and innovation, perspective articles inspire further exploration and serve as catalysts for new avenues of research.

The interdisciplinary nature of fluid mechanics necessitates collaborations across various fields of engineering and scientific disciplines. AFMR acts as a bridge, fostering connections and facilitating knowledge exchange among researchers, engineers, and practitioners from different domains. By promoting cross-pollination of ideas and fostering interdisciplinary collaborations, the journal paves the way for transformative advancements that transcend traditional disciplinary boundaries.

AFMR also plays a pivotal role in advancing practical applications of fluid mechanics. By highlighting the relevance of fluid mechanics principles in industries such as aerospace, chemical engineering, mechanical engineering, and biomedical engineering, the journal contributes to the development of innovative technologies and engineering solutions. Research articles that explore fluid dynamics in specific engineering contexts, such as aerodynamics, heat transfer, mixing, and fluid-structure interactions, enable the translation of scientific discoveries into real-world applications, driving technological progress and societal impact.

In summary, Advances in Fluid Mechanics Research (AFMR) serves as a reputable open-access journal that propels the field of fluid mechanics forward. By publishing original research, review articles, and perspectives, AFMR fosters the exchange of knowledge, encourages interdisciplinary collaborations, and promotes the practical applications of fluid mechanics principles. Through the collective efforts of researchers, engineers, and practitioners, AFMR contributes to the advancement of fundamental understanding, technological innovations, and sustainable solutions in the vast realm of fluid mechanics.

Classification:

1. Aeronautics
2. Turbulence
3. Astrophysics
4. Micro-Fluidics and Nano-Fluidics
5. Chemical and mechanical engineering
6. Hydrology and machinery
7. Meteorology
8. Oceanography
9. Geology
10. Geomorphology
11. Acoustics and combustion
12. Non-Newtonian Flow
13. Non-Newtonian Fluid Mechanics
14. Boundary layer theory
15. Navier-Stokes equations
16. Theoretical Fluid Dynamics
17. Micro-Fluidics And Nano-Fluidics
18. Environmental Fluid Dynamics & Mechanics
19. Wave generations and Tidal Energy
20. Bifurcations and Instabilities in Fluid Mechanics
21. Mixed-flow turbo machinery
22. Volumetric expansion and rotational motion
23. Fluid Stastics
24. Fluid Dynamics
25. Buoyant convection
26. Magneto hydrodynamics
27. Thermal Hydraulics
28. Vortex-dominated flows
29. Heterogeneous porous media
30. Thermodynamics
31. Surface tension and Capillary action