In the second edition of this well known textbook, a full chapter on the finite volume method has been added – a technique that combines the benefits of finite differences and finite elements. Specifically, it is applicable to three dimensional unsteady flows in complex geometrie and it uses structured collocated grids, which themselves can be orthogonal or non-orthogonal. Extension of the finite volume technique to compressible fluids, as well as turbulent flows, is possible.
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In the second edition of this textbook, a full chapter on the "finite volume method" a technique that combines the benefits of finite differences and finite elements - has been added. Specifically, it is applicable to three-dimensional unsteady flows in complex geometries. It uses structured collocated grids, the grids themselves can be orthogonal or non-orthogonal. Extension of the finite volume technique to compressible fluids as well as turbulent flows is possible.
K Muralidhar.: Department of Mechanical Engineering Indian Institute of Technology, Kanpur T Sundararajan.: Department of Mechanical Engineering, Indian Institute of Technology, Madras
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