Rainer Helmig Bücher

Focusing on the modeling of multiphase flow and transport in subsurface hydrosystems, this book provides a comprehensive and accessible formulation of fundamental phenomena. It covers mathematical and numerical modeling techniques, emphasizing recent advancements in simulating multiphase processes in porous and heterogeneous media. Additionally, it explores key factors influencing the selection of relevant processes and parameters, along with detailed discussions on mathematical and numerical model concepts.

Understanding the interaction between various processes is a pre-requisite for solving problems in natural and engineering sciences. Many phenomena can not be described by concentrating on them in isolation - therefore multifield models and concepts that include various kinds of field problems and processes are needed. This book summarizes the main scientific results of the Collaborative Research Center on Multifield Problems in Continuum Mechanics (Sonderforschungsbereich Mehrfeldprobleme in der Kontinuumsmechanik, SFB 404) funded by the German Research Foundation (DFG) from 1995-2006. The book is divided into three main sections: A: Volume-Coupled Problems, devoted to fields which are coupled inside the processing domain or volume, B: Boundary-Coupled Problems, here physical fields and processes are coupled via domain boundaries, C: Fundamental Methods, search into the mathematical concepts and backgrounds of multifield and multiscale modeling.

One important precondition for modeling multiphase flow and transport processes in the hydrosystem „subsurface“ is the general formulation of a model. The objective of this book is to present a consistent, easily accessible formulation of the fundamental phenomena and concepts, to give a uniform description of mathematical and numerical modeling, and to show the latest developments in the field of simulation of multiphase processes, especially in porous and heterogeneous media. Some general aspects which affect the selection of the relevant processes and the corresponding parameters as well as the mathematical and numerical model concepts are discussed in detail.