Quantum-Inspired Amplitude-Phase Frameworks for Uncertainty-Centric Groundwater Flow and T — NSF Award to Washington State Univers
Groundwater models are computer models that scientists and engineers use to predict the flow of water in subsurface environments. They can also be used to predict the transport and fate of contaminants in aquifers. The models usually require some knowledge about the subsurface structure and other hydrological parameter
| Award title | Quantum-Inspired Amplitude-Phase Frameworks for Uncertainty-Centric Groundwater Flow and T |
|---|---|
| Award ID | 2603483 |
| Awardee | Washington State University |
| City | PULLMAN |
| State | WA |
| Amount obligated | $352,443 |
| Principal investigator | Nicholas Engdahl |
| Program | EnvE-Environmental Engineering |
| Start date | 09/01/2026 |
| Abstract | Groundwater models are computer models that scientists and engineers use to predict the flow of water in subsurface environments. They can also be used to predict the transport and fate of contaminants in aquifers. The models usually require some knowledge about the subsurface structure and other hydrological parameters. However, this knowledge is often incomplete, leading to predictions that may not be accurate. This project will develop new computer simulation tools that account for uncertaint |
| Source | NSF Awards |
$799/mo
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