Le jeudi 26 février 2015 à 11h00, en salle Turing/Petri (INRIA-IRISA, campus de Beaulieu, bât.
Le jeudi 26 février 2015 à 11h00
, en salle Turing/Petri (INRIA-IRISA, campus de Beaulieu, bât. 12G
), Rainer H. Helmig propose un séminaire intituléNumerical Models for Evaluating the Competitive Use of the Subsurface: The Influence of Energy Storage and Production in Groundwater
Cette présentation est proposée dans le cadre du Darcy Lecture Series in Groundwater Science
Rainer H. Helmig, Ph.D., is head of the Department of Hydromechanics and Modelling of Hydrosystems at the Institute for Modelling Hydraulic and Environmental Systems, University of Stuttgart, Germany. His research covers fundamental research and applied science in the field of porous-media flow. A major focus is on developing methods for coupling hydrosystem compartments and complex flow and transport processes. This is based on simulation methods and techniques for describing single- and multiphase, multicomponent flow and transport processes in the subsurface, i.e., in porous and fractured-porous media.
Gain insight on how advanced numerical models may be used to analyze and predict the mutual influence of subsur¬face projects and their impact on groundwater reservoirs, and the increasing need to do so, during this presentation.
While historically there have been few issues of concern related to competition between resources, with groundwa¬ter contamination being an exception, the subsurface is being increasingly utilized both as a resource, and as an energy and waste repository. With increasing exploitation, resource conflicts are becoming increasingly common and complex such as the long-range impact of mechanical, chemical, and thermal energy storage on groundwater resources, and the effects surrounding hydraulic fracturing in both geothermal and shale gas production.
In general, subsurface systems include processes of varying complexity occurring in different parts of the domain of interest. These processes mostly take place on different spatial and temporal scales making it extremely challenging to model such systems in an adequate way. During this lecture you will learn about:
# Possible utilization conflicts in subsurface systems and how the groundwater is affected
# Model coupling concepts with a focus on the author’s work in this field; the concepts are divided into temporal and spatial coupling concepts, where the latter are subdivided into multiprocess, multiscale, multidimensional, and multi¬compartment coupling strategies
# Fundamental properties and functions of a compositional multiphase system in a porous medium; basic multiscale and multiphysics concepts will be introduced and conser¬vation laws formulated
# Numerical solution procedures for both decoupled and coupled model formulations; two applications of multi¬physics and multiscale algorithms will be presented and discussed
# Large-scale simulation that shows the general applicability of the modeling concepts of such complicated natural systems, especially the impact on the groundwater of simultaneously using geothermal energy and storing chemical and thermal energy, and how such real large-scale systems provide a good environment for balancing the efficiency potential and possible weaknesses of the approaches discussed.
Contact :Rainer H. Helmig
(University of Stuttgart, Germany)Contact OSUR :Paulina Pia Lopez