3542 XXXI International Mineral Processing Congress 2024 Proceedings/Washington, DC/Sep 29–Oct 3
Gray, N.F. 1997. “Environmental Impact and Remediation
of Acid Mine Drainage: A Management Problem.”
Environmental Geology 30 (1–2): 62–71. doi: 10.1007
/s002540050133.
Hajee, I., Harrison, S.T.L, and Kotsiopoulos, A. 2023.
Microbially-Induced Calcite Precipitation in
Heterogeneous Co-disposed Coal Waste Systems.
Extended abstract for Biomining 2023 Conference
Proceedings.
Jaishankar, M., Tseten, T. Anbalagan, N. et al. “Toxicity,
Mechanism and Health Effects of Some Heavy Metals.”
Interdisciplinary Toxicology 7 (2): 60–72. doi: 10.2478
/intox-2014-0009.
Kotsiopoulos, A. and Harrison, S. T. L. 2017. “Application
of Fine Desulfurised Coal Tailings as Neutralising
Barriers in the Prevention of Acid Rock Drainage.”
Hydrometallurgy 168: 159–66. doi: 10.1016/j.hydromet
.2016.10.004.
Kotsiopoulos, A. and Harrison, S.T.L. 2015. “Enhancing
ARD Mitigation by Application of Benign Tailings
to Reduce the Permeability of Waste Rock Dumps.”
Advanced Materials Research 1130: 560–63. doi:
10.4028/www.scientific.net/amr.1130.560.
Kuyucak, N. 2002. “Acid Mine Drainage Prevention and
Control Options.” CIM Bulletin 95 (1060): 96–102.
Maliela, N, D Mjonono, S T L Harrison, and A
Kotsiopoulos. 2020. “Using Post-Leach Analyses To
Inform Improved Co-Disposal Strategies For Long-
Term Acid Rock Drainage Prevention,” no. October:
18–22.
Mjonono, D., Harrison, S.T.L., and Kotsiopoulos, A.
2019. “Supplementing Structural Integrity of Waste
Rock Piles through Improved Packing Protocols to Aid
Acid Rock Drainage Prevention Strategies.” Minerals
Engineering 135 (May): 13–20. doi: 10.1016/j.mineng
.2019.02.029.
Mjonono, Donald. 2019. “Development of Co-Disposal
Methods for Coal Discards and Fine Waste for the
Prevention of Acid Mine Drainage.”
Munyai, R., Ogola, H.J.O., and Modise, D.M. 2021.
“Microbial Community Diversity Dynamics in Acid
Mine Drainage and Acid Mine Drainage-Polluted Soils:
Implication on Mining Water Irrigation Agricultural
Sustainability.” Frontiers in Sustainable Food Systems 5
(September): 1–14. doi: 10.3389/fsufs.2021.701870.
Qureshi, A., Maurice, C., and Öhlander, B. 2021.
“Co-Disposal of Lignite Fly Ash and Coal Mine Waste
Rock for Neutralisation of AMD.” Environmental
Science and Pollution Research 28 (35): 48728–41. doi:
10.1007/s11356-021-13500-w.
Skousen, J., Simmons, J., McDonald, L.M. et al. 2002.
“Acid–Base Accounting to Predict Post‐Mining
Drainage Quality on Surface Mines.” Journal of
Environmental Quality 31 (6): 2034–44. doi: 10.2134
/jeq2002.2034.
Zhang, M. and Wang, H. 2017. “Utilization of Bactericide
Technology for Pollution Control of Acidic Coal
Mine Waste” 129 (Iceesd): 667–70. doi: 10.2991
/iceesd-17.2017.120.
Zhu, T. and Dittrich, M. 2016. “Carbonate Precipitation
through Microbial Activities in Natural Environment,
and Their Potential in Biotechnology: A Review.”
Frontiers in Bioengineering and Biotechnology 4
(January): 1–21. doi: 10.3389/fbioe.2016.00004.
Gray, N.F. 1997. “Environmental Impact and Remediation
of Acid Mine Drainage: A Management Problem.”
Environmental Geology 30 (1–2): 62–71. doi: 10.1007
/s002540050133.
Hajee, I., Harrison, S.T.L, and Kotsiopoulos, A. 2023.
Microbially-Induced Calcite Precipitation in
Heterogeneous Co-disposed Coal Waste Systems.
Extended abstract for Biomining 2023 Conference
Proceedings.
Jaishankar, M., Tseten, T. Anbalagan, N. et al. “Toxicity,
Mechanism and Health Effects of Some Heavy Metals.”
Interdisciplinary Toxicology 7 (2): 60–72. doi: 10.2478
/intox-2014-0009.
Kotsiopoulos, A. and Harrison, S. T. L. 2017. “Application
of Fine Desulfurised Coal Tailings as Neutralising
Barriers in the Prevention of Acid Rock Drainage.”
Hydrometallurgy 168: 159–66. doi: 10.1016/j.hydromet
.2016.10.004.
Kotsiopoulos, A. and Harrison, S.T.L. 2015. “Enhancing
ARD Mitigation by Application of Benign Tailings
to Reduce the Permeability of Waste Rock Dumps.”
Advanced Materials Research 1130: 560–63. doi:
10.4028/www.scientific.net/amr.1130.560.
Kuyucak, N. 2002. “Acid Mine Drainage Prevention and
Control Options.” CIM Bulletin 95 (1060): 96–102.
Maliela, N, D Mjonono, S T L Harrison, and A
Kotsiopoulos. 2020. “Using Post-Leach Analyses To
Inform Improved Co-Disposal Strategies For Long-
Term Acid Rock Drainage Prevention,” no. October:
18–22.
Mjonono, D., Harrison, S.T.L., and Kotsiopoulos, A.
2019. “Supplementing Structural Integrity of Waste
Rock Piles through Improved Packing Protocols to Aid
Acid Rock Drainage Prevention Strategies.” Minerals
Engineering 135 (May): 13–20. doi: 10.1016/j.mineng
.2019.02.029.
Mjonono, Donald. 2019. “Development of Co-Disposal
Methods for Coal Discards and Fine Waste for the
Prevention of Acid Mine Drainage.”
Munyai, R., Ogola, H.J.O., and Modise, D.M. 2021.
“Microbial Community Diversity Dynamics in Acid
Mine Drainage and Acid Mine Drainage-Polluted Soils:
Implication on Mining Water Irrigation Agricultural
Sustainability.” Frontiers in Sustainable Food Systems 5
(September): 1–14. doi: 10.3389/fsufs.2021.701870.
Qureshi, A., Maurice, C., and Öhlander, B. 2021.
“Co-Disposal of Lignite Fly Ash and Coal Mine Waste
Rock for Neutralisation of AMD.” Environmental
Science and Pollution Research 28 (35): 48728–41. doi:
10.1007/s11356-021-13500-w.
Skousen, J., Simmons, J., McDonald, L.M. et al. 2002.
“Acid–Base Accounting to Predict Post‐Mining
Drainage Quality on Surface Mines.” Journal of
Environmental Quality 31 (6): 2034–44. doi: 10.2134
/jeq2002.2034.
Zhang, M. and Wang, H. 2017. “Utilization of Bactericide
Technology for Pollution Control of Acidic Coal
Mine Waste” 129 (Iceesd): 667–70. doi: 10.2991
/iceesd-17.2017.120.
Zhu, T. and Dittrich, M. 2016. “Carbonate Precipitation
through Microbial Activities in Natural Environment,
and Their Potential in Biotechnology: A Review.”
Frontiers in Bioengineering and Biotechnology 4
(January): 1–21. doi: 10.3389/fbioe.2016.00004.