Fluid flows can be divided into two different types: laminar flows and turbulent flows. Laminar flow occurs when the fluid flows in infinitesimal parallel layers without interruption between them. In laminar flows, the fluid layers slide in parallel, without vortices, vortices or currents normal to the flow itself. This type of flow is also called aerodynamic flow because it is characterized by non-crossing aerodynamic lines. The laminar regime is governed by moment diffusion, while moment convection is less important. In more physical terms, this means that the viscous forces are greater than the inertial forces. Laminar flow and mass transfer of combined heat in plate-fin ducts with various geometries such as sinusoidal, rectangular, triangular and parallel plates are studied by considering the finite conductance of the fins in heat and mass transfer. The conductance parameters of the finished heat and mass fins have decisive effects on the convective heat and the mass transfer in the conduits.
Opinion: Fluid Mechanics: Open Access
Opinion: Fluid Mechanics: Open Access
Research Article: Fluid Mechanics: Open Access
Research Article: Fluid Mechanics: Open Access
Opinion Article: Fluid Mechanics: Open Access
Opinion Article: Fluid Mechanics: Open Access
Editorial: Fluid Mechanics: Open Access
Editorial: Fluid Mechanics: Open Access
Research Article: Fluid Mechanics: Open Access
Research Article: Fluid Mechanics: Open Access
Scientific Tracks Abstracts: Astrophysics & Aerospace Technology
Scientific Tracks Abstracts: Astrophysics & Aerospace Technology
Posters & Accepted Abstracts: Astrophysics & Aerospace Technology
Posters & Accepted Abstracts: Astrophysics & Aerospace Technology
Posters & Accepted Abstracts: Astrophysics & Aerospace Technology
Posters & Accepted Abstracts: Astrophysics & Aerospace Technology
Scientific Tracks Abstracts: Journal of Lasers, Optics & Photonics
Scientific Tracks Abstracts: Journal of Lasers, Optics & Photonics
Scientific Tracks Abstracts: Journal of Lasers, Optics & Photonics
Scientific Tracks Abstracts: Journal of Lasers, Optics & Photonics
Fluid Mechanics: Open Access received 291 citations as per Google Scholar report