2804 XXXI International Mineral Processing Congress 2024 Proceedings/Washington, DC/Sep 29–Oct 3
La Porta, A., Voth, G.A., Crawford, A.M., Alexander, J. and
Bodenschatz, E. 2001. Fluid particle accelerations in
fully developed turbulence. Nature, 409: 1017–1019.
Lytle, R.J. and Dines, K.A. 1980. Iterative ray tracing
between boreholes for underground image reconstruc-
tion. IEEE Transactions on Geoscience and Remote sens-
ing, 18:234–240.
Maldonado, M., Desbiens, A., and del Villar, R. 2008.
An update on the estimation of the froth depth using
conductivity measurements. Minerals Engineering,
21(12–14):856–860.
Meng, J., Xie, W., Brennan, M., Runge, K. and Bradshaw,
D. 2014a. Measuring turbulence in a flotation cell
using the piezoelectric sensor. Minerals Engineering,
66-68:84–93.
Meng, J., Xie, W., Brennan, M., Tabosa, E., Runge, K. and
Bradshaw, D. 2014b. New techniques for measuring
turbulence in flotation cells, Proc. XXVII International
Mineral Processing Congress Santiago Chile. 70–81.
Meng, J., Xie, W., Runge, K.and Bradshaw, D. 2015a.
Measuring Turbulence in a Flotation Cell using
Electrical Resistance Tomography. Meas. Sci. Technol.,
26(11):1–12.
Meng, J., Xie, W., Tabosa, E., Runge, K. and Bradshaw,
D. 2015b. Turbulence modelling for flotation cells based
on piezoelectric sensor measurement data, Proc. 7th
International Flotation Conference. Cape Town, SA.
Meng, J., Tabosa, E., Xie, W., Runge, K., Bradshaw, D. and
Manlapig, E. 2016. A review of turbulence measure-
ment techniques for flotation. Minerals Engineering,
95:79–95.
Mesa, D., E., K.C., van Heerden, M.R., and Brito-
Parada, P.R., 2021. Hydrodynamic characterisation
of flotation impeller designs using Positron Emission
Particle Tracking (PEPT). Separation and Purification
Technology 276:119316.
Morud, K.E. and Hjertager, B.H. 1996. LDA measure-
ments and CFD modelling of gas-liquid flow in a stirred
vessel. Chemical Engineering Science, 51(2):233–249.
Nguyen, A.V. and Schulze, H.J. 2004. Colloidal science of
flotation. In M. Dekker (Ed.), (p. 840). New York.
Pianko-Oprych, P., Nienow, A.W.and Barigou, M. 2009.
Positron emission particle tracking (PEPT) compared
to particle image velocimetry (PIV) for studying the
flow generated by a pitched-blade turbine in single
phase and multi-phase systems. Chemical Engineering
Science, 64(23):4955–4968.
Schmitt, F.G. 2017. A century of fluid mechanics: 1870–
1970 /Turbulence from 1870 to 1920: The birth of
a noun and of a concept, Comptes Rendus Mecanique,
345: 620–626.
Schubert, H. 1999. On the turbulence-controlled micro-
processes in flotation machines. International Journal
of Mineral Processing, 56(1–4):257–276.
Tabosa, E., Runge, K., Holtham, P., 2012. Development
and application of a technique for evaluating turbulence
in a flotation cell. Proc. XXVI International Mineral
Processing Congress (IMPC2012), New Delhi, India
(2012), pp. 5377–5390.
Tiitinen, J., Vaarno, J. and Grönstrand, S. 2003.
Numberical modeling of an outokumpu flotation
device. Third International Conference on CFD in the
Minerals and Process Industries, CSIRO, Melbourne,
Australia. 167–170.
Xie, W., Meng, J. and Nguyen, A.V. 2016. Experimental
quantification of turbulence and its applications in
the study of multiphase flotation pulps. International
Journal of Mineral Processing, 156: 87–98.
Xie, W., and Li, X. 2019. The applications of electrical resis-
tance tomography for multiphase flows in mineral pro-
cessing. In IMPC 2018—29th International Mineral
Processing Congress (pp. 1392–1401). Canadian
Institute of Mining, Metallurgy, and Petroleum.
(2019).
Xie, W., 2021. Development of Turbulence Measurement
Technique for Multiphase Flows in Flotation Cells
Using Electrical Resistance Tomography. In 10th Inter
national Flotation Conference.
Xie, W. 2022. Development of Turbulence Measurement
Technique Using Electrical Resistance Tomography
for Multiphase Flows. In AIChE Annual Meeting,
Phoenix, Arizona, USA.
Xu, M., Finch, J.A. and Huls, B.J. 1992. Measurement
of radial gas holdup profiles in a flotation col-
umn. International Journal of Mineral Processing,
36(3–4):229–244.
La Porta, A., Voth, G.A., Crawford, A.M., Alexander, J. and
Bodenschatz, E. 2001. Fluid particle accelerations in
fully developed turbulence. Nature, 409: 1017–1019.
Lytle, R.J. and Dines, K.A. 1980. Iterative ray tracing
between boreholes for underground image reconstruc-
tion. IEEE Transactions on Geoscience and Remote sens-
ing, 18:234–240.
Maldonado, M., Desbiens, A., and del Villar, R. 2008.
An update on the estimation of the froth depth using
conductivity measurements. Minerals Engineering,
21(12–14):856–860.
Meng, J., Xie, W., Brennan, M., Runge, K. and Bradshaw,
D. 2014a. Measuring turbulence in a flotation cell
using the piezoelectric sensor. Minerals Engineering,
66-68:84–93.
Meng, J., Xie, W., Brennan, M., Tabosa, E., Runge, K. and
Bradshaw, D. 2014b. New techniques for measuring
turbulence in flotation cells, Proc. XXVII International
Mineral Processing Congress Santiago Chile. 70–81.
Meng, J., Xie, W., Runge, K.and Bradshaw, D. 2015a.
Measuring Turbulence in a Flotation Cell using
Electrical Resistance Tomography. Meas. Sci. Technol.,
26(11):1–12.
Meng, J., Xie, W., Tabosa, E., Runge, K. and Bradshaw,
D. 2015b. Turbulence modelling for flotation cells based
on piezoelectric sensor measurement data, Proc. 7th
International Flotation Conference. Cape Town, SA.
Meng, J., Tabosa, E., Xie, W., Runge, K., Bradshaw, D. and
Manlapig, E. 2016. A review of turbulence measure-
ment techniques for flotation. Minerals Engineering,
95:79–95.
Mesa, D., E., K.C., van Heerden, M.R., and Brito-
Parada, P.R., 2021. Hydrodynamic characterisation
of flotation impeller designs using Positron Emission
Particle Tracking (PEPT). Separation and Purification
Technology 276:119316.
Morud, K.E. and Hjertager, B.H. 1996. LDA measure-
ments and CFD modelling of gas-liquid flow in a stirred
vessel. Chemical Engineering Science, 51(2):233–249.
Nguyen, A.V. and Schulze, H.J. 2004. Colloidal science of
flotation. In M. Dekker (Ed.), (p. 840). New York.
Pianko-Oprych, P., Nienow, A.W.and Barigou, M. 2009.
Positron emission particle tracking (PEPT) compared
to particle image velocimetry (PIV) for studying the
flow generated by a pitched-blade turbine in single
phase and multi-phase systems. Chemical Engineering
Science, 64(23):4955–4968.
Schmitt, F.G. 2017. A century of fluid mechanics: 1870–
1970 /Turbulence from 1870 to 1920: The birth of
a noun and of a concept, Comptes Rendus Mecanique,
345: 620–626.
Schubert, H. 1999. On the turbulence-controlled micro-
processes in flotation machines. International Journal
of Mineral Processing, 56(1–4):257–276.
Tabosa, E., Runge, K., Holtham, P., 2012. Development
and application of a technique for evaluating turbulence
in a flotation cell. Proc. XXVI International Mineral
Processing Congress (IMPC2012), New Delhi, India
(2012), pp. 5377–5390.
Tiitinen, J., Vaarno, J. and Grönstrand, S. 2003.
Numberical modeling of an outokumpu flotation
device. Third International Conference on CFD in the
Minerals and Process Industries, CSIRO, Melbourne,
Australia. 167–170.
Xie, W., Meng, J. and Nguyen, A.V. 2016. Experimental
quantification of turbulence and its applications in
the study of multiphase flotation pulps. International
Journal of Mineral Processing, 156: 87–98.
Xie, W., and Li, X. 2019. The applications of electrical resis-
tance tomography for multiphase flows in mineral pro-
cessing. In IMPC 2018—29th International Mineral
Processing Congress (pp. 1392–1401). Canadian
Institute of Mining, Metallurgy, and Petroleum.
(2019).
Xie, W., 2021. Development of Turbulence Measurement
Technique for Multiphase Flows in Flotation Cells
Using Electrical Resistance Tomography. In 10th Inter
national Flotation Conference.
Xie, W. 2022. Development of Turbulence Measurement
Technique Using Electrical Resistance Tomography
for Multiphase Flows. In AIChE Annual Meeting,
Phoenix, Arizona, USA.
Xu, M., Finch, J.A. and Huls, B.J. 1992. Measurement
of radial gas holdup profiles in a flotation col-
umn. International Journal of Mineral Processing,
36(3–4):229–244.