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Also in shallow geothermal systems, the efficiency of Ground Source Heat Pump System GSHPS is strongly affected by the coupled fluid flow and heat transport process both inside and around borehole heat exchangers. The working group "Geothermal Systems Analysis" conducts their research on the system understanding of both shallow and deep geothermal reservoirs.

Computational Modeling of Shallow Geothermal Systems

The research focuses on the quantification of coupled Thermal T , Hydraulic H , Mechanic M and Chemical C processes in the subsurface, which covers all underlying physics of geothermal reservoirs. This research focus is addressed by a strong team of numerical modelers, who work in close cooperation with geophysicists and field engineers. Based on the powerful numerical software OpenGeoSys, this team is capable of establishing, customizing, and calibrating numerical models for various types of geothermal reservoirs.

With the accumulated knowledge, the aim of research is to provide suggestions to engineers.

His research focuses on the numerical modeling of coupled physical processes in fractured and porous media. See staff webpage for further information. Norihiro Watanabe is a postdoctoral researcher in the department of Environmental Informatics. His research interest is developing numerical simulation tools e.

Computational modeling of shallow geothermal systems - CERN Document Server

Shallow geothermal systems are increasingly utilized for heating and cooling of buildings and greenhouses. However, their utilization is inconsistent with the enormous amount of energy available underneath the surface of the earth.

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Projects of this nature are not getting the public support they deserve because of the uncertainties associated with ISBN This book at Amazon print version This book at Amazon electronic version. Back to search.

[PDF] Geochemical Modeling of Groundwater, Vadose and Geothermal Systems (Multiphysics Modeling)

Cheap and efficient application of reliable ground source heat exchangers and pumps - The basic idea of Cheap-GSHPs project is to substantially reduce the total cost of ownership, composed out of investment and operating costs, increase the safety of shallow geothermal systems during installation and operation and increase the awareness of this technologythroughout Europe. Combined Heat, Power and Metal extraction from ultra-deep ore bodies - The strategic objective of CHPM is to develop a novel and potentially disruptive technological solution that can help satisfy the European needs for energy and strategic metals in a single interlinked process.

Testing of stimulating technologies for EGS in deep wells in different geologies, will deliver new innovative solutions and models for wider deployments of EGS reservoirs with sufficient permeability for delivering significant amounts of geothermal power across Europe.

The aim is to expand knowledge and to provide solutions for a more economical, sustainable and environmentally responsible exploitation of underground heat. EGSs allow the enormous untapped potential of geothermal energy to be put to widespread use. Energy oriented Centre of Excellence for computer applications - The EoCoE in computing applications uses the tremendous potential offered by the ever-growing computing infrastructure to foster and accelerate the European transition to a reliable low carbon energy supply using HPC High Performance Computing.

The project has a dedicated task on geothermal energy provision. To both increase public acceptance and to generalise this approach, it will be applied by GECO in four distinct geothermal systems in four different European countries: 1 a high temperature basaltic reservoir in Iceland; 2 a high temperature gneiss reservoir in Italy; 3 a high temperature volcano-clastic reservoir in Turkey; and 4 a low temperature sedimentary reservoir in Germany. The joint effort is based on three pillars: 1.


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Resource assessment at two unconventional geothermal sites.