XXXI International Mineral Processing Congress 2024 Proceedings/Washington, DC/Sep 29–Oct 3 1107
and technological practice show that this is a complex pro-
cess and maintaining very stable conditions of beneficiation
process is not easy. Therefore, the relationships presented in
the paper should be verified during further investigations.
ACKNOWLEDGMENTS
The article is an effect of realization of project 101091885 „A
Holistic Digital Mine 4.0 Ecosystem,” (acronym mine.io),
financed through European Health and Digital Executive
Agency within the frames of HORIZON Innovation Actions,
action: HORIZON-CL4-2022-RESILIENCE-01-06.
REFERENCES
Bowman, E., Soga, K., Drummond, W. 2001. Particle
shape characterization using Fourier descriptor analy-
sis. Geotechnique. 51:545–554.
Sukumaran, B., Ashmawy, A. 2001. Quantitative char-
acterization of discrete particles. Geotechnique. 55:
619–627.
Abbireddy, C.O.R., Clayton, C.R.I. 2009. A review of
modern particle sizing methods. Proc. Inst. Civ. Eng.
Geotech. Eng. 162:193–201.
Cavarretta, I. 2009. The Influence of Particle Characteristics
on the Engineering Behaviour of Granular Materials.
Ph.D. Thesis. Imperial College London, London, UK.
Zeiss, C. 2007. Digital Imaging—Topography. Available
online: https://www.nanowerk.com/news/newsid
=8397.php.
Fonseca, J. 2011. The Evolution of Morphology and Fabric of
a Sand during Shearing. Ph.D. Thesis. Imperial College
London, London, UK.
Schmitt, M., Halisch, M., Müller, C., Fernandes, C.P.
2016. Classification and quantification of pore shapes
in sandstone reservoir rocks with 3-D X-ray micro-
computed tomography. Solid Earth. 7:285–300.
Konieczny A., Pawlos, W., Jach, M., Pępkowski, R.,
Krzemińska, M., Foszcz D. 2011. Application of visu-
alization system for controlling operating parameters
of flotation machines in KGHM Polska Miedź S. A.
Division of Concentrators (in Polish). Górnictwo i
Geologia. 6(2):61–71.
Sztaba, K., Lenczowski, S. 1993. Unconventional
Multidimensional Evaluation of Granulated Material.
Proceedings of the MCGM’93 -The Third International
Conference on Measurement and Control of Granular
Materials. Shenyang, P.R. China. 70–75.
Lenczowski, S., Galas J., Kordek, J. 1993. Unconventional
Optical Methods of Controlling the Beneficiation
Processes of Minerals. Proceedings of MCGM’93 -The
Third International Conference on Measurement and
Control of Granular Materials. Shenyang, P.R. China.
97–101.
Kordek, J., Lenczowski, S. 1989. Methods of Optical
Control of Processing As Exemplified by the
Diffractometric Analysis of Flotation Froth Images of
Copper Ores. Scientific Journals of AGH. 1262: 146.
Galas, J., Daszkiewicz, M., Sawicki, A., Godwod K.,
Szawdyn, J. 1994. Construction of Image Recognition
Process on the Base of Optical Fourier Diffractometry.
Opt. Eng. 33(4):1106–1113.
Galas, J. 1994. Image processing and recognition using
diffractive and digital techniques. Proceedings SPIE,
Diffractometry and Scatterometry. 19–35.
Galas, J., Lenczowski, S., Daszkiewicz, M. 1994.
Applications of hybrid optical methods in mineral
processing control systems. Proceedings SPIE 2249,
Automated 3D and 2D Vision. 439–446.
Lenczowski, S., Galas, J. 1995. Optical Analysis of Metal
Content in the Column Complex Ore Flotation Froth.
Proceedings of the XIX International Mineral Processing
Congress, San Francisco, USA. 257–260.
Lenczowski, S., Galas, J. 1998. Froth Image Analysis in a
Flotation Control System. In Frothing in Flotation II,
Recent Advances in Coal Processing. Woodburn, E.T.,
Gordon and Breach Science Publisher: Amsterdam,
The Netherlands. 2:275–308.
and technological practice show that this is a complex pro-
cess and maintaining very stable conditions of beneficiation
process is not easy. Therefore, the relationships presented in
the paper should be verified during further investigations.
ACKNOWLEDGMENTS
The article is an effect of realization of project 101091885 „A
Holistic Digital Mine 4.0 Ecosystem,” (acronym mine.io),
financed through European Health and Digital Executive
Agency within the frames of HORIZON Innovation Actions,
action: HORIZON-CL4-2022-RESILIENCE-01-06.
REFERENCES
Bowman, E., Soga, K., Drummond, W. 2001. Particle
shape characterization using Fourier descriptor analy-
sis. Geotechnique. 51:545–554.
Sukumaran, B., Ashmawy, A. 2001. Quantitative char-
acterization of discrete particles. Geotechnique. 55:
619–627.
Abbireddy, C.O.R., Clayton, C.R.I. 2009. A review of
modern particle sizing methods. Proc. Inst. Civ. Eng.
Geotech. Eng. 162:193–201.
Cavarretta, I. 2009. The Influence of Particle Characteristics
on the Engineering Behaviour of Granular Materials.
Ph.D. Thesis. Imperial College London, London, UK.
Zeiss, C. 2007. Digital Imaging—Topography. Available
online: https://www.nanowerk.com/news/newsid
=8397.php.
Fonseca, J. 2011. The Evolution of Morphology and Fabric of
a Sand during Shearing. Ph.D. Thesis. Imperial College
London, London, UK.
Schmitt, M., Halisch, M., Müller, C., Fernandes, C.P.
2016. Classification and quantification of pore shapes
in sandstone reservoir rocks with 3-D X-ray micro-
computed tomography. Solid Earth. 7:285–300.
Konieczny A., Pawlos, W., Jach, M., Pępkowski, R.,
Krzemińska, M., Foszcz D. 2011. Application of visu-
alization system for controlling operating parameters
of flotation machines in KGHM Polska Miedź S. A.
Division of Concentrators (in Polish). Górnictwo i
Geologia. 6(2):61–71.
Sztaba, K., Lenczowski, S. 1993. Unconventional
Multidimensional Evaluation of Granulated Material.
Proceedings of the MCGM’93 -The Third International
Conference on Measurement and Control of Granular
Materials. Shenyang, P.R. China. 70–75.
Lenczowski, S., Galas J., Kordek, J. 1993. Unconventional
Optical Methods of Controlling the Beneficiation
Processes of Minerals. Proceedings of MCGM’93 -The
Third International Conference on Measurement and
Control of Granular Materials. Shenyang, P.R. China.
97–101.
Kordek, J., Lenczowski, S. 1989. Methods of Optical
Control of Processing As Exemplified by the
Diffractometric Analysis of Flotation Froth Images of
Copper Ores. Scientific Journals of AGH. 1262: 146.
Galas, J., Daszkiewicz, M., Sawicki, A., Godwod K.,
Szawdyn, J. 1994. Construction of Image Recognition
Process on the Base of Optical Fourier Diffractometry.
Opt. Eng. 33(4):1106–1113.
Galas, J. 1994. Image processing and recognition using
diffractive and digital techniques. Proceedings SPIE,
Diffractometry and Scatterometry. 19–35.
Galas, J., Lenczowski, S., Daszkiewicz, M. 1994.
Applications of hybrid optical methods in mineral
processing control systems. Proceedings SPIE 2249,
Automated 3D and 2D Vision. 439–446.
Lenczowski, S., Galas, J. 1995. Optical Analysis of Metal
Content in the Column Complex Ore Flotation Froth.
Proceedings of the XIX International Mineral Processing
Congress, San Francisco, USA. 257–260.
Lenczowski, S., Galas, J. 1998. Froth Image Analysis in a
Flotation Control System. In Frothing in Flotation II,
Recent Advances in Coal Processing. Woodburn, E.T.,
Gordon and Breach Science Publisher: Amsterdam,
The Netherlands. 2:275–308.