Difference between revisions of "Content"
m |
m (→Modeling contaminant transport in limestone) |
||
| Line 18: | Line 18: | ||
[[ Modeling objectives | Modeling objectives: how can models help in decision making? ]] | [[ Modeling objectives | Modeling objectives: how can models help in decision making? ]] | ||
| − | [[ Model concepts | | + | [[ Model concepts | Model types for flow and transport in fractured aquifers ]] |
| − | [[ Modeling tools | | + | [[ Modeling tools | Simple modeling tools]] |
[[ Model setup | Setup of an advanced model for fracture flow and transport in a limestone aquifer ]] | [[ Model setup | Setup of an advanced model for fracture flow and transport in a limestone aquifer ]] | ||
Revision as of 08:50, 10 January 2017
Investigation of contaminant transport in fractured limestone aquifers
Authors: Klaus Mosthaf, Mette Martina Broholm, Poul Løgstrup Bjerg, Philip John Binning (DTU Environment )
This is part of a collaboration project between DTU Environment and the Capital Region of Denmark
Introduction and processes in limestone
Physical processes and properties of limestone
Data acquisition and conceptual model development
Data acquisition and field methods
Development of a conceptual model for a limestone site (based on example: Akacievej, Hedehusene)
Modeling contaminant transport in limestone
Modeling objectives: how can models help in decision making?
Model types for flow and transport in fractured aquifers
Setup of an advanced model for fracture flow and transport in a limestone aquifer
Model calibration with field data
Model output: what do we get out of the different models?
Recommendations for modeling fractured limestone aquifers
