scholarly journals Parallel Finite Volume Method Simulation of Three-Dimensional Fluid Flow and Convective Heat Transfer for Viscoplastic Non-Newtonian Fluids

2014 ◽  
Vol 66 (9) ◽  
pp. 990-1019 ◽  
Author(s):  
Diego A. Vasco ◽  
Nelson O. Moraga ◽  
Gundolf Haase
Keyword(s):  
Heat Transfer ◽  
Fluid Flow ◽  
Convective Heat Transfer ◽  
Finite Volume Method ◽  
Finite Volume ◽  
Convective Heat ◽  
Three Dimensional ◽  
Newtonian Fluids ◽  
Volume Method

scholarly journals A Three-Dimensional, Immersed Boundary, Finite Volume Method for the Simulation of Incompressible Heat Transfer Flows around Complex Geometries

2017 ◽  
Vol 2017 ◽  
pp. 1-14 ◽  
Author(s):  
Hassan Badreddine ◽  
Yohei Sato ◽  
Matthias Berger ◽  
Bojan Ničeno
Keyword(s):  
Heat Transfer ◽  
Finite Volume Method ◽  
Finite Volume ◽  
Three Dimensional ◽  
Staggered Grid ◽  
Immersed Boundary ◽  
Convection Flow ◽  
Complex Geometries ◽  
Volume Method ◽  
Benchmark Solutions

The current work focuses on the development and application of a new finite volume immersed boundary method (IBM) to simulate three-dimensional fluid flows and heat transfer around complex geometries. First, the discretization of the governing equations based on the second-order finite volume method on Cartesian, structured, staggered grid is outlined, followed by the description of modifications which have to be applied to the discretized system once a body is immersed into the grid. To validate the new approach, the heat conduction equation with a source term is solved inside a cavity with an immersed body. The approach is then tested for a natural convection flow in a square cavity with and without circular cylinder for different Rayleigh numbers. The results computed with the present approach compare very well with the benchmark solutions. As a next step in the validation procedure, the method is tested for Direct Numerical Simulation (DNS) of a turbulent flow around a surface-mounted matrix of cubes. The results computed with the present method compare very well with Laser Doppler Anemometry (LDA) measurements of the same case, showing that the method can be used for scale-resolving simulations of turbulence as well.

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