XXXI International Mineral Processing Congress 2024 Proceedings/Washington, DC/Sep 29–Oct 3 601
Ballantyne, G.R., Powell, M.S., Radziszewski, P. (2016),
Extension of the comminution energy curves and
application to stirred milling performance, CMP con-
ference proceedings, 308–316.
Boretti, A., Rosa, L. (2019), Reassessing the projections
of the World Water Development Report, NPJ Clean
Water, 15, 6 pages.
Bouchard, J., LeBlanc, G., Levesque, M., Radziszewski, P.,
George-Filteau, D. (2019), Breaking down energy con-
sumption in industrial grinding mills, CIM Journal,
10/4.
CEEC (2023), CEEC Energy Curve Program, Coalition
for Eco-Efficient Comminution, accessed January 1,
2024, https://www.ceecthefuture.org/projects
ETB (2023), Evaporation from a water surface, The
Engineering ToolBox, accessed June 22, 2023, https://
www.engineeringtoolbox.com/evaporation-water
-surface-d_690.html
Feistel, R., Hellmuth, O. (2023), Thermodynamics of evap-
oration from the ocean surface, MDPI Atmosphere, 32
pages.
Frederick, R.L., Samper, S. (2010), Heat transfer increase
with thin fins in three dimensional enclosures,
Advanced Comp. Methods and Experiments in Heat
Transfer XI, WIT Transactions on Engg Sciences, 68,
157–165.
Gunson, A.J., Klein, B., Veiga, M., Dunbar, S. (2012),
Reducing mine water requirements, J. Cleaner
Production, 21, 71–82.
Headrick, J.B. (1967), The thermodynamics of evaporation
with emphasis on lake evaporation rates, MSc thesis,
Texas Technological College, 188 pages.
Jensen (2010), Estimating evaporation from water surfaces,
CSU/ARS Evapotranspiration Workshop, 27 pages.
Mokhtari, M, Gerdroodbary, B., Yeganeh, R., Falleh, K.
(2017), Numerical study of mixed convection heat
transfer of various fin arrangement in a horizontal
channel, Eng. Sc. &Tech, 20, 1106–1114.
R, S., Ghanate, S., Ahmed, S., Patki, S. (2021), Enhancing
heat transfer of fins by providing slots, Int’l Research J
of Engg and Tech., 8, 8, 8 pages.
Radziszewski, P. (2004), Decreasing corrosive wear by min-
imizing the use of ground water in grinding -a discus-
sion paper, for AMIRA/JKMRC P9N project.
Radziszewski, P. (2013), Energy recovery potential in com-
minution processes, Minerals Engineering, 46–47,
83–88.
Radziszewski (2023a) Valuing acid generating tailings,
Proceeding 62nd COM2023, 989–999.
Radziszewski (2023b) Potential impact of electrochemical
tailings processing on the worldwide value of Cu and
Au production, Procemin-Geomet 2023, 11 pages.
Radziszewski, P., Hewitt, D. (2015), Exploring the effect of
energy recovery potential on comminution efficiency:
the Glencore Raglan Mine case, SAG, Vancouver.
Radziszewski, P., Blum, D. (2023), Exploring the economic
potential of an electrochemcial alternative to managing
acid mine tailings, Minerals Engineering, 191, 107968.
Rosario, P., Hall, R. (2010), A structured approach to the
evaluation of the energy requirements of a HPGR and
SAG mill circuits in hard ore applications, J Southern
African Institute of Mining &Metallurgy, 110,
117–123.
Saqr, K.M., Musa, M.N. (2009), Numerical study of the
heat transfer augmentation in pipes with internal dis-
continuous longitudinal fins, Int’l J Mechanical &
Material Engineering, 4, 1, 62–69.
Swart, C. (2020), A technical and economic comparison
of wet milling vs dry milling (VRM), MSc thesis,
University of the Witwatersrand, South Africa, 152
pages.
Swart, C., Gaylard, J.M., Bwalya, M.M. (2022), A tech-
nical and economic comparison of ball mill limestone
comminution with a vertical roller mill, Min. Proc. &
Extractive Metallurgy Review, 43, 3, 275–282.
Waples, D., Waples, J., 2004. A review and evaluation of
specific heat capacities of rocks, minerals, and sub-
surface fluids. Part 1: minerals and nonporous rocks,
Natural Resources Research 13 (2), 97–122.
Ballantyne, G.R., Powell, M.S., Radziszewski, P. (2016),
Extension of the comminution energy curves and
application to stirred milling performance, CMP con-
ference proceedings, 308–316.
Boretti, A., Rosa, L. (2019), Reassessing the projections
of the World Water Development Report, NPJ Clean
Water, 15, 6 pages.
Bouchard, J., LeBlanc, G., Levesque, M., Radziszewski, P.,
George-Filteau, D. (2019), Breaking down energy con-
sumption in industrial grinding mills, CIM Journal,
10/4.
CEEC (2023), CEEC Energy Curve Program, Coalition
for Eco-Efficient Comminution, accessed January 1,
2024, https://www.ceecthefuture.org/projects
ETB (2023), Evaporation from a water surface, The
Engineering ToolBox, accessed June 22, 2023, https://
www.engineeringtoolbox.com/evaporation-water
-surface-d_690.html
Feistel, R., Hellmuth, O. (2023), Thermodynamics of evap-
oration from the ocean surface, MDPI Atmosphere, 32
pages.
Frederick, R.L., Samper, S. (2010), Heat transfer increase
with thin fins in three dimensional enclosures,
Advanced Comp. Methods and Experiments in Heat
Transfer XI, WIT Transactions on Engg Sciences, 68,
157–165.
Gunson, A.J., Klein, B., Veiga, M., Dunbar, S. (2012),
Reducing mine water requirements, J. Cleaner
Production, 21, 71–82.
Headrick, J.B. (1967), The thermodynamics of evaporation
with emphasis on lake evaporation rates, MSc thesis,
Texas Technological College, 188 pages.
Jensen (2010), Estimating evaporation from water surfaces,
CSU/ARS Evapotranspiration Workshop, 27 pages.
Mokhtari, M, Gerdroodbary, B., Yeganeh, R., Falleh, K.
(2017), Numerical study of mixed convection heat
transfer of various fin arrangement in a horizontal
channel, Eng. Sc. &Tech, 20, 1106–1114.
R, S., Ghanate, S., Ahmed, S., Patki, S. (2021), Enhancing
heat transfer of fins by providing slots, Int’l Research J
of Engg and Tech., 8, 8, 8 pages.
Radziszewski, P. (2004), Decreasing corrosive wear by min-
imizing the use of ground water in grinding -a discus-
sion paper, for AMIRA/JKMRC P9N project.
Radziszewski, P. (2013), Energy recovery potential in com-
minution processes, Minerals Engineering, 46–47,
83–88.
Radziszewski (2023a) Valuing acid generating tailings,
Proceeding 62nd COM2023, 989–999.
Radziszewski (2023b) Potential impact of electrochemical
tailings processing on the worldwide value of Cu and
Au production, Procemin-Geomet 2023, 11 pages.
Radziszewski, P., Hewitt, D. (2015), Exploring the effect of
energy recovery potential on comminution efficiency:
the Glencore Raglan Mine case, SAG, Vancouver.
Radziszewski, P., Blum, D. (2023), Exploring the economic
potential of an electrochemcial alternative to managing
acid mine tailings, Minerals Engineering, 191, 107968.
Rosario, P., Hall, R. (2010), A structured approach to the
evaluation of the energy requirements of a HPGR and
SAG mill circuits in hard ore applications, J Southern
African Institute of Mining &Metallurgy, 110,
117–123.
Saqr, K.M., Musa, M.N. (2009), Numerical study of the
heat transfer augmentation in pipes with internal dis-
continuous longitudinal fins, Int’l J Mechanical &
Material Engineering, 4, 1, 62–69.
Swart, C. (2020), A technical and economic comparison
of wet milling vs dry milling (VRM), MSc thesis,
University of the Witwatersrand, South Africa, 152
pages.
Swart, C., Gaylard, J.M., Bwalya, M.M. (2022), A tech-
nical and economic comparison of ball mill limestone
comminution with a vertical roller mill, Min. Proc. &
Extractive Metallurgy Review, 43, 3, 275–282.
Waples, D., Waples, J., 2004. A review and evaluation of
specific heat capacities of rocks, minerals, and sub-
surface fluids. Part 1: minerals and nonporous rocks,
Natural Resources Research 13 (2), 97–122.