Efficiency and sustainability of technology-enhanced learning is increasingly guaranteed by target-group and subject-specific arrangements of learning-conducive elements. Self-learning phases are combined with synchronous or asynchronous online collaboration and cooperation, as well as with face-to-face training sessions. In the "Up2UML" project funded by the Leonardo-da-Vinci initiative, partners from Ireland, Romania, Bulgaria, France and Germany developed an approach for designing and tailoring learning arrangements for the software modelling domain. This paper describes how such a tailoring can be set up, putting a special focus on the design of learning scenarios (IMS Learning Design) in conjunction with the design of learning media (eduDocBook)
Fraunhofer-Platz 1 67663 KaiserslauternFraunhofer IESE is an institute of the Fraunhofer Gesellschaft. The institute transfers innovative software development techniques, methods and tools into industrial practice, assists companies in building software competencies customized to their needs, and helps them to establish a competitive market position.
Deep groundwaters, esp. oil field waters, from different sedimentary basins in Germany were characterized and evaluated with respect to their damage potential in production and injection processes. Geochemical modeling with different computer programs (PHREEQE, PHRQPITZ, SOLMINEQ etc.) was used to evaluate fluid-rock-interactions as well as their damage potential during operation processes. The geochemical program PHREEQE was integrated in an expert system (XPS FROCKI) for the evaluation of operational problems (scaling, fines mobilization, reduced permeabilities) in production or injection wells.
Introduction
In oil and water recovery as well as in geothermal projects fluid production or injection often fails because of interactions between the fluid and the solid phase. These interactions can be due to hydromechanical processes and/or changes in physico-chemical conditions of the fluid (Eh, pH, temperature, ionic strength) and cause a reduction of the permeability of the reservoir rocks or the technical equipment.
Due to mechanical interactions finest particles, the so called fines, can be mobilized and transported until they will be deposited again within a smaller pore space. This kind of filtration can cause a sudden loss of permeability and this is the worse the closer to the borehole it happens.
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