GroMoPo Metadata for Kanmantoo Copper Mine FEFLOW model

Authors:

GroMoPo Daniel Kretschmer

Owners:

gromopo_admin

Type:

Resource

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The size of this resource is 1.6 KB

Created:

Feb 08, 2023 at 2:35 p.m.

Last updated:

Feb 08, 2023 at 2:35 p.m.

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Abstract

Numerical groundwater modelling to support mining decisions is often challenging and time consuming. Simulation of open pit mining for model calibration or prediction requires models that include unsaturated flow, large magnitude hydraulic gradients and often require transient simulations with time varying material properties and boundary conditions. This combination of factors typically results in models with long simulation times and/or some level of numerical instability. In modelling practice, long run times and instability can result in reduced effort for predictive uncertainty analysis, and ultimately decrease the value of the decision-support modelling. This study presents an early application of the Iterative Ensemble Smoother (IES) method of calibration-constrained uncertainty analysis to a mining groundwater flow model. The challenges of mining models and uncertainty quantification were addressed using the IES method and facilitated by highly parallelized cloud computing. The project was an open pit mine in South Australia that required predictions of pit water levels and inflow rates to guide the design of a proposed pumped hydro energy storage system. The IES calibration successfully produced 150 model parameter realizations that acceptably reproduced groundwater observations. The flexibility of the IES method allowed for the inclusion of 1493 adjustable parameters and geostatistical realizations of hydraulic conductivity fields to be included in the analysis. Through the geostatistical realizations and IES analysis, alternative conceptual models of fractured rock aquifer orientation and connections could be conditioned to observation data and used for predictive uncertainty analysis. Importantly, the IES method out-performed finite difference methods when model simulations contained small magnitude numerical instabilities.

Subject Keywords

Coverage

Spatial

Coordinate System/Geographic Projection:

WGS 84 EPSG:4326

Coordinate Units:

Decimal degrees

Place/Area Name:

Australia

North Latitude

-35.0523°

East Longitude

139.0570°

South Latitude

-35.1412°

West Longitude

138.9492°

Streets Terrain Satelite

Spatial Extent

Content

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Additional Metadata

Name	Value
DOI	10.3390/w11081649
Depth
Scale	11 - 101 kmÂ²
Layers	13
Purpose	Decision support
GroMoPo_ID	274
IsVerified	True
Model Code	Feflow
Model Link	https://doi.org/10.3390/w11081649
Model Time	2011-2018
Model Year	2019
Model Authors	Hayley, K; Valenza, A; White, E; Hutchison, B; Schumacher, J
Model Country	Australia
Data Available	Report/paper only
Developer Email	khayley@groundwater-solutions.com.au
Dominant Geology	Model focuses on multiple geologic materials
Developer Country	Australia
Publication Title	Application of the Iterative Ensemble Smoother Method and Cloud Computing: A Groundwater Modeling Case Study
Original Developer	No
Additional Information
Integration or Coupling	None of the above
Evaluation or Calibration	Dynamic water levels
Geologic Data Availability	No

How to Cite

GroMoPo, D. Kretschmer (2023). GroMoPo Metadata for Kanmantoo Copper Mine FEFLOW model, HydroShare, http://www.hydroshare.org/resource/c21d3224a2964d4c9b422a0d463ed711

This resource is shared under the Creative Commons Attribution CC BY.

http://creativecommons.org/licenses/by/4.0/

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