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== Wiki: Investigation of contaminant transport in fractured limestone aquifers == | == Wiki: Investigation of contaminant transport in fractured limestone aquifers == | ||
[[Image:RegionH logo.png|right|180px|link=https://www.regionh.dk/]] | [[Image:RegionH logo.png|right|180px|link=https://www.regionh.dk/]] | ||
− | This is a Wiki about the fate of contaminants in fractured limestone aquifers. It is part of a collaboration project between DTU | + | This is a Wiki about the fate of contaminants in fractured limestone aquifers. It is part of a collaboration project between DTU Sustain and the [https://www.regionh.dk/ Capital Region of Denmark].<br /> |
The content is subject to changes and the Wiki is being further extended.<br /> | The content is subject to changes and the Wiki is being further extended.<br /> | ||
− | '' | + | ''Contributors:'' [https://www.dtu.dk/english/service/phonebook/person?id=93506 Klaus Mosthaf] (main author), [https://www.dtu.dk/english/service/phonebook/person?id=14939&cpid=39328 Annika S. Fjordbøge], [https://www.dtu.dk/english/service/phonebook/person?id=77203 Rasmus Thalund-Hansen], [https://www.dtu.dk/english/service/phonebook/person?id=277 Mette M. Broholm], [https://www.dtu.dk/english/service/phonebook/person?id=206 Poul L. Bjerg], [https://www.dtu.dk/english/service/phonebook/person?id=23688 Philip J. Binning] ([https://sustain.dtu.dk/ DTU Sustain] ) |
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[[ Data acquisition | Data acquisition and methods to determine hydraulic parameters ]] <br> | [[ Data acquisition | Data acquisition and methods to determine hydraulic parameters ]] <br> | ||
[[ Transport parameters and contaminant data | Determination of transport parameters and contaminant distribution ]] <br> | [[ Transport parameters and contaminant data | Determination of transport parameters and contaminant distribution ]] <br> | ||
− | [[ Conceptual modeling | | + | [[ Conceptual modeling | Conceptual model development for a contaminated limestone site]] [[ The Akacievej field site |(based on example: Akacievej, Hedehusene) ]] |
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=== Modeling contaminant transport in limestone === | === Modeling contaminant transport in limestone === | ||
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− | [[ Model concepts | Model types for flow and transport in fractured aquifers ]] <br> | + | [[ Model concepts | Model types for flow and transport in fractured aquifers]] <br> |
[[ Modeling tools | Modeling tools and useful helpers]] <br> | [[ Modeling tools | Modeling tools and useful helpers]] <br> | ||
− | [[ Model setup | | + | [[ Model setup | Steps to setup an advanced model for fracture flow and transport in a limestone aquifer]] [[ Example: Akacievej |(example: Akacievej, Hedehusene)]]<br> |
− | [[ Field data and model calibration | Model calibration with field data ]] <br> | + | <!-- [[ Field data and model calibration | Model calibration with field data ]] <br> --> |
− | [[ Model output | | + | [[ Model output | Comparison of model concepts and recommendations for modeling fractured limestone aquifers]] |
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Latest revision as of 11:50, 12 June 2023
Wiki: Investigation of contaminant transport in fractured limestone aquifers
This is a Wiki about the fate of contaminants in fractured limestone aquifers. It is part of a collaboration project between DTU Sustain and the Capital Region of Denmark.
The content is subject to changes and the Wiki is being further extended.
Contributors: Klaus Mosthaf (main author), Annika S. Fjordbøge, Rasmus Thalund-Hansen, Mette M. Broholm, Poul L. Bjerg, Philip J. Binning (DTU Sustain )
Introduction, geology and physical processes
Field methods and conceptual model development
Modeling contaminant transport in limestone
Model types for flow and transport in fractured aquifers
Modeling tools and useful helpers
Steps to setup an advanced model for fracture flow and transport in a limestone aquifer (example: Akacievej, Hedehusene)
Comparison of model concepts and recommendations for modeling fractured limestone aquifers