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Advance Research in Sciences
[ ISSN : 2837-5777 ]

Fluid Steady Behaviour

Short-Communication
Volume 3 - Issue 2 | Article DOI : 10.54026/ARS/1031

Tatatsuhiro Yamamoto*

Faculty of Human-Environment Japan

Corresponding Authors

Tatatsuhiro Yamamoto, Faculty of Human-Environment Studies, Kyushu University, 744 Motooka Nishi-ku, Fukuoka City, Fukuoka 819-0395, Japan

Keywords

computational fluid dynamics; convective heat transfer coefficient; coupled simulation

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Received : July 10, 2025
Published : July 22, 2025

Abstract

There are numerous solvers for computational fluid dynamics, and they are widely used in industry. However, some solvers are simplified theoretical systems. Engineering researchers and students sometimes choose these solvers, leading them to rely on results considered accurate and verified rather than on the solvers themselves and their understanding of physical phenomena. While this may make it easier for peer-reviewed papers to be accepted, it also leads to the decline of science and technology. There is something that can be done about it. Therefore, this paper serves as a warning to all researchers, offering hope for the present and future of computational fluid dynamics and providing guidance for basic research.