1476 XXXI International Mineral Processing Congress 2024 Proceedings/Washington, DC/Sep 29–Oct 3
previous metal grains. This could become a new method
for precious metal (gold/silver) deportment of selected low-
grade ores.
ACKNOWLEDGMENTS
The studies were funded by Coeur Mining, Inc.
REFERENCES
Dhawan, N., Safarzadeh, M.S., Miller, J.D., Moats, M.S.,
Rajamani, R.K. and Lin, C.L., 2012. Recent advances
in the application of X-ray computed tomography
in the analysis of heap leaching systems. Minerals
Engineering, 35, pp.75–86.
Ghorbani, Y., Becker, M., Mainza, A., Franzidis, J.P. and
Petersen, J., 2011. Large particle effects in chemical/
biochemical heap leach processes–A review. Minerals
Engineering, 24(11), pp.1172–1184.
Liddell, K.C., 2005. Shrinking core models in hydro-
metallurgy: What students are not being told about
the pseudo-steady approximation. Hydrometallurgy,
79(1‑2), pp.62–68.
Lin, C.L., Miller, J.D. and Garcia, C., 2005. Saturated
flow characteristics in column leaching as described
by LB simulation. Minerals Engineering, 18(10),
pp.1045–1051.
Lin, C.L., Miller, J.D. and Hsieh, C.H., 2012, September.
Particle damage during HPGR breakage as described
by specific surface area distribution of cracks in the
crushed products. In XXVI INTERNATIONAL
MINERAL PROCESSING CONGRESS (IMPC)
(pp. 3397–3410).
Miller, J.D. and Lin, C.L., 2018. X-ray tomography for
mineral processing technology–3D particle character-
ization from mine to mill. Minerals &Metallurgical
Processing, 35, pp.1–12.
Wang, Y., Lin, C.L. and Miller, J.D., 2017. Quantitative
analysis of exposed grain surface area for multiphase
particles using X-ray microtomography. Powder
Technology, 308, pp.368–377.
Figure 10. Size distribution of 256 silver grains in equivalent spherical diameter
previous metal grains. This could become a new method
for precious metal (gold/silver) deportment of selected low-
grade ores.
ACKNOWLEDGMENTS
The studies were funded by Coeur Mining, Inc.
REFERENCES
Dhawan, N., Safarzadeh, M.S., Miller, J.D., Moats, M.S.,
Rajamani, R.K. and Lin, C.L., 2012. Recent advances
in the application of X-ray computed tomography
in the analysis of heap leaching systems. Minerals
Engineering, 35, pp.75–86.
Ghorbani, Y., Becker, M., Mainza, A., Franzidis, J.P. and
Petersen, J., 2011. Large particle effects in chemical/
biochemical heap leach processes–A review. Minerals
Engineering, 24(11), pp.1172–1184.
Liddell, K.C., 2005. Shrinking core models in hydro-
metallurgy: What students are not being told about
the pseudo-steady approximation. Hydrometallurgy,
79(1‑2), pp.62–68.
Lin, C.L., Miller, J.D. and Garcia, C., 2005. Saturated
flow characteristics in column leaching as described
by LB simulation. Minerals Engineering, 18(10),
pp.1045–1051.
Lin, C.L., Miller, J.D. and Hsieh, C.H., 2012, September.
Particle damage during HPGR breakage as described
by specific surface area distribution of cracks in the
crushed products. In XXVI INTERNATIONAL
MINERAL PROCESSING CONGRESS (IMPC)
(pp. 3397–3410).
Miller, J.D. and Lin, C.L., 2018. X-ray tomography for
mineral processing technology–3D particle character-
ization from mine to mill. Minerals &Metallurgical
Processing, 35, pp.1–12.
Wang, Y., Lin, C.L. and Miller, J.D., 2017. Quantitative
analysis of exposed grain surface area for multiphase
particles using X-ray microtomography. Powder
Technology, 308, pp.368–377.
Figure 10. Size distribution of 256 silver grains in equivalent spherical diameter