XXXI International Mineral Processing Congress 2024 Proceedings/Washington, DC/Sep 29–Oct 3 2803
Amini, E., Bradshaw D.J., and Xie, W. 2017. Influence of
flotation cell hydrodynamics on the flotation kinetics
and scale up, Part 2: introducing turbulence param-
eters to improve predictions. Minerals Engineering,
100:31–39.
Amini, E. and Xie, W. 2020. Development of scale-up
enabling technique using constant temperature ane-
mometry for turbulence measurement in flotation
cells. Minerals Engineering, 159: 106632.
Bakker, C.W., Meyer, C.J. and Deglon, D.A. 2009.
Numerical modelling of non-Newtonian slurry in
a mechanical flotation cell. Minerals Engineering,
22(11):944–950.
Baldi, S., Hann, D. and Yianneskis, M. 2002. On the mea-
surement of turbulence energy dissipation in stirred
vessels with PIV techniques. Proc. 11th International
Symposium on Applied Laser Techniques in Fluid
Mechanic. Lisbon.
Brady, M.R., Telionis, D.P., Vlachos, P.P. and Yoon, R.-H.
2006. Evaluation of multiphase flotation models in grid
turbulence via Particle Image Velocimetry. International
Journal of Mineral Processing, 80(2–4):133–143.
Chiti, F., Bakalis, S., Bujalski, W., Barigou, M., Eaglesham,
A. and Nienow, A.W. 2011. Using positron emis-
sion particle tracking (PEPT) to study the turbulent
flow in a baffled vessel agitated by a Rushton turbine:
Improving data treatment and validation. Chemical
Engineering Research and Design, 89(10):1947–1960.
Cole K., Buffler A., Cilliers J.J., Govender I., Heng J.Y.Y.,
Liu C., Parker D.J., Shah U.V., van Heerden M., and
Fan X. 2014. A surface coating method to modify
tracers for positron emission particle tracking (PEPT)
measurements of froth flotation, Powder Technology,
263:26–30.
Cole K., Brito-Parada P.R., Hadler K., Mesa D., Neethling
S.J., Norori-McCormac A.M., Cilliers J.J., 2022.
Characterisation of solid hydrodynamics in a three-
phase stirred tank reactor with positron emission
particle tracking (PEPT), Chemical Engineering
Journal,Volume 433, Part 3,133819.
Cole K., Mesa D., van Heerden M., and Brito-Parada
P.R. 2023. Effect of Retrofit Design Modifications
on the Macroturbulence of a Three-Phase Flotation
Tank-Flow Characterization Using Positron Emission
Particle Tracking (PEPT). Ind Eng Chem Res.
62(19):7580–7591.
Darabi H., Koleini S.M.J., Deglon D., Rezai B., Abdollahy
M. 2017. Particle Image Velocimetry Study of the
Turbulence Characteristics in an Aerated Flotation
Cell. Ind. Eng. Chem. Res. 56:13919–13928.
Dickin, F. and Wang, M. 1996. Electrical resistance tomog-
raphy for process applications. Meas. Sci. Technol.,
7:247–260.
Dines, K.A. and Lytle, R.J. 1979. Computerized geophysi-
cal tomography. Proceedings IEEE, 67(7):1065–1073.
Eames, I. and Flor, J.B. 2011. New developments in under-
standing interfacial processes in turbulent flows. Phil.
Trans. R. Soc., A(369):702–705.
Evans, G.M., Doroodchi, E., Lane, G.L., Koh, P.T.L. and
Schwarz, M.P. 2008. Mixing and gas dispersion in
mineral flotation cells. Chemical Engineering Research
and Design, 86(12):1350–1362.
Fallenius, K. 1987. Turbulence in flotation cells. International
Journal of Mineral Processing, 21(1–2):1–23.
Fentiman, N.J., Hill, N.S., Lee, K.C., Paul, G.R. and
Yianneskis, M. 1998. A novel profiled blade impeller
for homogenization of miscible liquids in stirred ves-
sels. Transactions of the Institution of Chemical Engineers,
76(Part A):835–842.
Guida, A., Fan, X., Parker, D.J., Nienow, A.W. and
Barigou, M. 2009. Positron emission particle track-
ing in a mechanically agitated solid–liquid suspension
of coarse particles. Chemical Engineering Research and
Design, 87(4):421–429.
Hultmark, M., Ashok, A. and Smits, A.J. 2011. A new cri-
terion for end-conduction effects in hot-wire anemom-
etry. Meas. Sci. Technol., 22(055401).
Kasagi, N. and Matsunaga, A. 1995. Three-dimensional
particle-tracking velocimetry measurement of turbu-
lence statistics and energy budget in a backward-facing
step flow. International Journal of Heat and Fluid Flow,
16(6):477–485.
Keating, M.P. 1988. Geometric physical and visual optics.
Published by Elsevier Health Sciences.
Kolmgorov, A.N., 1941. The local structure of turbulence
in incompressible viscous fluid for very large Reynolds
numbers. First published in Russian inDokl. Akad.
Nauk SSSR (1941) 30(4). This translation by V. Levin,
reprinted here with emendations by the editors of this
volume. Proc. R. Soc. Lond. A (1991)434: 9–13.
Kuang J, Feng Y, Yang W, Witt P, Schwarz P, and Qiu T.
2015. CFD modelling and PIV validation of flow field
in a flotation cell. Elev Int Conf CFD Miner Process
Ind 2015:1–6.
Kysela, B., Konfršt, J. and Chara, Z. 2013. LDA
measurements and turbulence spectral analy-
sis in an agitated vessel. EPJ Web of Conferences, 45,
01055-p.01051-p.01056.
Amini, E., Bradshaw D.J., and Xie, W. 2017. Influence of
flotation cell hydrodynamics on the flotation kinetics
and scale up, Part 2: introducing turbulence param-
eters to improve predictions. Minerals Engineering,
100:31–39.
Amini, E. and Xie, W. 2020. Development of scale-up
enabling technique using constant temperature ane-
mometry for turbulence measurement in flotation
cells. Minerals Engineering, 159: 106632.
Bakker, C.W., Meyer, C.J. and Deglon, D.A. 2009.
Numerical modelling of non-Newtonian slurry in
a mechanical flotation cell. Minerals Engineering,
22(11):944–950.
Baldi, S., Hann, D. and Yianneskis, M. 2002. On the mea-
surement of turbulence energy dissipation in stirred
vessels with PIV techniques. Proc. 11th International
Symposium on Applied Laser Techniques in Fluid
Mechanic. Lisbon.
Brady, M.R., Telionis, D.P., Vlachos, P.P. and Yoon, R.-H.
2006. Evaluation of multiphase flotation models in grid
turbulence via Particle Image Velocimetry. International
Journal of Mineral Processing, 80(2–4):133–143.
Chiti, F., Bakalis, S., Bujalski, W., Barigou, M., Eaglesham,
A. and Nienow, A.W. 2011. Using positron emis-
sion particle tracking (PEPT) to study the turbulent
flow in a baffled vessel agitated by a Rushton turbine:
Improving data treatment and validation. Chemical
Engineering Research and Design, 89(10):1947–1960.
Cole K., Buffler A., Cilliers J.J., Govender I., Heng J.Y.Y.,
Liu C., Parker D.J., Shah U.V., van Heerden M., and
Fan X. 2014. A surface coating method to modify
tracers for positron emission particle tracking (PEPT)
measurements of froth flotation, Powder Technology,
263:26–30.
Cole K., Brito-Parada P.R., Hadler K., Mesa D., Neethling
S.J., Norori-McCormac A.M., Cilliers J.J., 2022.
Characterisation of solid hydrodynamics in a three-
phase stirred tank reactor with positron emission
particle tracking (PEPT), Chemical Engineering
Journal,Volume 433, Part 3,133819.
Cole K., Mesa D., van Heerden M., and Brito-Parada
P.R. 2023. Effect of Retrofit Design Modifications
on the Macroturbulence of a Three-Phase Flotation
Tank-Flow Characterization Using Positron Emission
Particle Tracking (PEPT). Ind Eng Chem Res.
62(19):7580–7591.
Darabi H., Koleini S.M.J., Deglon D., Rezai B., Abdollahy
M. 2017. Particle Image Velocimetry Study of the
Turbulence Characteristics in an Aerated Flotation
Cell. Ind. Eng. Chem. Res. 56:13919–13928.
Dickin, F. and Wang, M. 1996. Electrical resistance tomog-
raphy for process applications. Meas. Sci. Technol.,
7:247–260.
Dines, K.A. and Lytle, R.J. 1979. Computerized geophysi-
cal tomography. Proceedings IEEE, 67(7):1065–1073.
Eames, I. and Flor, J.B. 2011. New developments in under-
standing interfacial processes in turbulent flows. Phil.
Trans. R. Soc., A(369):702–705.
Evans, G.M., Doroodchi, E., Lane, G.L., Koh, P.T.L. and
Schwarz, M.P. 2008. Mixing and gas dispersion in
mineral flotation cells. Chemical Engineering Research
and Design, 86(12):1350–1362.
Fallenius, K. 1987. Turbulence in flotation cells. International
Journal of Mineral Processing, 21(1–2):1–23.
Fentiman, N.J., Hill, N.S., Lee, K.C., Paul, G.R. and
Yianneskis, M. 1998. A novel profiled blade impeller
for homogenization of miscible liquids in stirred ves-
sels. Transactions of the Institution of Chemical Engineers,
76(Part A):835–842.
Guida, A., Fan, X., Parker, D.J., Nienow, A.W. and
Barigou, M. 2009. Positron emission particle track-
ing in a mechanically agitated solid–liquid suspension
of coarse particles. Chemical Engineering Research and
Design, 87(4):421–429.
Hultmark, M., Ashok, A. and Smits, A.J. 2011. A new cri-
terion for end-conduction effects in hot-wire anemom-
etry. Meas. Sci. Technol., 22(055401).
Kasagi, N. and Matsunaga, A. 1995. Three-dimensional
particle-tracking velocimetry measurement of turbu-
lence statistics and energy budget in a backward-facing
step flow. International Journal of Heat and Fluid Flow,
16(6):477–485.
Keating, M.P. 1988. Geometric physical and visual optics.
Published by Elsevier Health Sciences.
Kolmgorov, A.N., 1941. The local structure of turbulence
in incompressible viscous fluid for very large Reynolds
numbers. First published in Russian inDokl. Akad.
Nauk SSSR (1941) 30(4). This translation by V. Levin,
reprinted here with emendations by the editors of this
volume. Proc. R. Soc. Lond. A (1991)434: 9–13.
Kuang J, Feng Y, Yang W, Witt P, Schwarz P, and Qiu T.
2015. CFD modelling and PIV validation of flow field
in a flotation cell. Elev Int Conf CFD Miner Process
Ind 2015:1–6.
Kysela, B., Konfršt, J. and Chara, Z. 2013. LDA
measurements and turbulence spectral analy-
sis in an agitated vessel. EPJ Web of Conferences, 45,
01055-p.01051-p.01056.