The methods considered in the 7th conference on "Finite Volumes
for Complex Applications" (Berlin, June 2014) have properties which
offer distinct advantages for a number of applications. The second
volume of the proceedings covers reviewed contributions reporting
successful applications in the fields of fluid dynamics,
magnetohydrodynamics, structural analysis, nuclear physics,
semiconductor theory and other topics.
The finite volume method in its various forms is a space
discretization technique for partial differential equations based
on the fundamental physical principle of conservation. Recent
decades have brought significant success in the theoretical
understanding of the method. Many finite volume methods preserve
further qualitative or asymptotic properties, including maximum
principles, dissipativity, monotone decay of free energy, and
asymptotic stability. Due to these properties, finite volume
methods belong to the wider class of compatible discretization
methods, which preserve qualitative properties of continuous
problems at the discrete level. This structural approach to the
discretization of partial differential equations becomes
particularly important for multiphysics and multiscale
applications.
Researchers, PhD and masters level students in numerical
analysis, scientific computing and related fields such as partial
differential equations will find this volume useful, as will
engineers working in numerical modeling and simulations.
General
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