Your search keyword '"Fourie, Andy"' showing total 3 results

1. Toward a more sustainable mining future with electrokinetic in situ leaching

Author

Martens, Evelien, Prommer, Henning, Sprocati, Riccardo, Sun, Jing, Dai, Xianwen, Crane, Rich, Jamieson, James, Tong, Pablo Ortega, Rolle, Massimo, Fourie, Andy, Martens, Evelien, Prommer, Henning, Sprocati, Riccardo, Sun, Jing, Dai, Xianwen, Crane, Rich, Jamieson, James, Tong, Pablo Ortega, Rolle, Massimo, and Fourie, Andy

Abstract

Metals are currently almost exclusively extracted from their ore via physical excavation. This energy-intensive process dictates that metal mining remains among the foremost CO2 emitters and mine waste is the single largest waste form by mass. We propose a new approach, electrokinetic in situ leaching (EK-ISL), and demonstrate its applicability for a Cu-bearing sulfidic porphyry ore. In laboratory-scale experiments, Cu recovery was rapid (up to 57 weight % after 94 days) despite low ore hydraulic conductivity (permeability = 6.1 mD; porosity = 10.6%). Multiphysics numerical model simulations confirm the feasibility of EK-ISL at the field scale. This new approach to mining is therefore poised to spearhead a new paradigm of metal recovery from currently inaccessible ore bodies with a markedly reduced environmental footprint.

Published

2021

2. Identification of physical and geochemical controls on the electrokinetic in-situ leaching of gold

Author

Ortega-Tongi, Pablo, Jamieson , James, Sprocati, Riccardo, Sun, Jing, Rolle, Massimo, Fourie, Andy, Prommer, Henning, Ortega-Tongi, Pablo, Jamieson , James, Sprocati, Riccardo, Sun, Jing, Rolle, Massimo, Fourie, Andy, and Prommer, Henning

Published

2020

3. The Effect of Rainfall Patterns on the Mechanisms of Shallow Slope Failure

Author

Suradi, Muhammad, Fourie, Andy, Suradi, Muhammad, and Fourie, Andy

Abstract

This paper examines how rainfall patterns affect the mechanisms of shallow slope failure. Numerical modelling, utilising the commercial software SVFlux and SVSlope, was carried out for a coupled analysis of rainfall-induced slope seepage and instability, with reference to a shallow landslide took place in Jabiru, Northern Territory (NT) Australia in 2007. Rainfall events were varied in terms of pattern in this analysis. The results revealed that slopes are sensitive to rainfall pattern when the rainfall intensity has a high degree of fluctuation at around the same value as that of saturated hydraulic conductivity. Average rainfall intensity at the beginning of a rainfall period plays a primary role in determining the rate of decrease in initial factor of safety (Fi) towards minimum factor of safety (Fmin). The effect of rainfall events on the slope instability is attributed to the amount of rainwater infiltration into slope associated with rainfall pattern. Keywords: Rainfall pattern; Fluctuating intensity, Shallow failure mechanism; Slope failure; Rainwater infiltration.

Published

2014