Model Archive for an Impulse Response Emulator of Groundwater Contaminant Transport Models
June 10, 2024
This archive contains the code and other files to demonstrate the creation and application of an impulse-response emulator for process-based groundwater flow and transport models in MODFLOW/MT3D. This includes creating a synthetic modeling environment in MODFLOW/MT3D, using PEST++ to derive an impulse-response (A) matrix (as described in White et al., 2020), using this A matrix to create a groundwater transport emulator model, and providing a workflow to evaluate the performance of this emulator across a range of flow and transport model parameters.
Citation Information
| Publication Year | 2024 |
|---|---|
| Title | Model Archive for an Impulse Response Emulator of Groundwater Contaminant Transport Models |
| DOI | 10.5066/P13J3TCG |
| Authors | Brent P Heerspink, Howard W Reeves, Michael N Fienen |
| Product Type | Data Release |
| Record Source | USGS Asset Identifier Service (AIS) |
| Rights | This work is marked with CC0 1.0 Universal |
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Evaluation of an impulse-response emulator for groundwater contaminant transport modeling
There is a significant need to develop decision support tools capable of delivering accurate representations of environmental conditions, such as ground and surface water solute concentrations, in a timely and computationally efficient manner. Such tools can be leveraged to assess a large number of potential management strategies for mitigating non-point source pollutants. Here, we assess the effe
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Brent Porter Heerspink, Michael N. Fienen, Howard W. Reeves
Related
Evaluation of an impulse-response emulator for groundwater contaminant transport modeling
There is a significant need to develop decision support tools capable of delivering accurate representations of environmental conditions, such as ground and surface water solute concentrations, in a timely and computationally efficient manner. Such tools can be leveraged to assess a large number of potential management strategies for mitigating non-point source pollutants. Here, we assess the effe
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Brent Porter Heerspink, Michael N. Fienen, Howard W. Reeves