After completing the module students will be able to:
General:
Identify open issues in the processing and/or interpretation of Earth system data records based on the outcomes of the lab project
and design a development roadmap to address them.
Present analyses, interpretations and conclusions, as well as ethical implications, of the Lab and Fieldwork projects in a clear and
convincing manner, both orally and written.
Energy Transition and Geohazards Lab + Theory
Define and solve a research topic related to the Energy Transition or Geohazards challenge.
Analyse Earth system processes through a combination of data, observations and model outputs (geophysical data, subsurface
data, petrophysical data, and monitoring data).
Extract subsurface characteristics and evaluate the options and limitations of data types for present-day and future societal
challenges in Energy Transition or Geohazards.
Present analyses, interpretations and conclusions, as well as ethical implications, of the Lab project in a clearly written and
convincing manner.
Fieldwork:
Design and execute a fieldwork campaign appropriate for the Earth system processes and/or applications to be studied. [ILO
B,C,H,J]
Describe, identify and measure sedimentary heterogeneities, faults, fractures, folds, and 2D rock property trends at different
scales (10-1 to 103m) and qualitatively predict their architecture and their potential impact on dynamic behaviour.
Link field observations of rock property trends at different sub-seismic scales to geophysical data and include the impact of scale
to model uncertainty.
Extract subsurface characteristics and evaluate the options and limitations of data types for present-day and future societal
challenges in Energy Transition and Geohazards.
Present analyses, interpretations and conclusions of the Fieldlab project in a clearly written and convincing manner.
Contribute to a project as a team player and to the overall project management.
