246 XXXI International Mineral Processing Congress 2024 Proceedings/Washington, DC/Sep 29–Oct 3
Bru, K., Sousa, R., Leite, M.M., Broadbent, C., Stuart,
G., Pashkevich, D., Martin, M., Kern, M. and Parvaz,
D.B., Pilot-scale investigation of two Electric Pulse
Fragmentation (EPF) approaches for the mineral pro-
cessing of a low-grade cassiterite schist ore. Minerals
Engineering, 2020b, 150, 106270. doi:10.1016
/j.mineng.2020.106270.
Bru, K., Touzé, S., Auger, P., Dobrusky, S., Tierrie, J.
and Parvaz, D.B., Investigation of lab and pilot scale
electric-pulse fragmentation systems for the recy-
cling of ultra-high performance fibre-reinforced con-
crete. Minerals Engineering, 2018, 128, 187–194.
doi:10.1016/j.mineng.2018.08.040.
Cyrus, C., Toulouse-based I-ROX takes €12 million for pulsed
power that matches a nuclear reactor’s output in a mil-
lionth of a second, 2023 https://tech.eu/2022/11/22
/toulouse-based-i-rox-takes-eur12-million-for-pulsed
-power-that-matches-a-nuclear-reactors-output-in-a
-millionth-of-a-second/.
Gebr. Jehmlich GmbH, Betriebsanleitung: Universal Mühle
REKORD 224, 2015.
Höffl, K., Zerkleinerungs- und Klassiermaschinen mit
37 Tabellen, 2nd edn., ca. 1994, Schlütersche
Verlagsanstalt, Hannover.
Lay, D., Shi, F. and Antonio, C., Evaluation of a novel
electrode design for high voltage pulse ore pre-con-
centration. Minerals Engineering, 2023, 201, 108239.
doi:10.1016/j.mineng.2023.108239.
Lieberwirth, H.e.a., „Einrichtung zur Beanspruchung von
Partikeln mittels Elektroimpulsen," B02C 19/18, 2018.
Martino, R., Iseli, C., Gaydardzhiev, S., Streicher-Porte,
M. and Weh, A., Electro dynamic fragmentation of
printed wiring boards as a preparation tool for their
recycling. Minerals Engineering, 2017, 107, 20–26.
doi:10.1016/j.mineng.2017.01.009.
Pestalozzi, S.F., Selektive Elektrodynamische Fragmentierung
:Zerkleinerungsmechanismen und Einsatzmöglichkeiten
zur Rückgewinnung von Wertstoffen, 2020, Universität
Stuttgart.
Popov, O., Beitrag zur mathematisch-petrographischen
Gefügecharakterisierung für die Beurteilung der
Festgesteine hinsichtlich ihrer Aufbereitung und ihrer
Produkteigenschaften. Dissertation, 13.07.07, Freiberg.
Popov, O., Transformation of plaglioclase feldspar. written,
Freiberg, 2022.
Shi, F., Zuo, W. and Manlapig, E., Characterisation of
pre-weakening effect on ores by high voltage electri-
cal pulses based on single-particle tests. Minerals
Engineering, 2013, 50–51, 69–76. doi:10.1016
/j.mineng.2013.06.017.
Further investigations are to be conducted with the sys-
tem. Future work includes research and testing programs
with Li-bearing ores as well as concrete.
ACKNOWLEDGMENTS
The authors kindly acknowledge the financial support from
the German Federal Ministry for Research and Education
(BMBF FKaZ:033161) as well as the German Federal
Environment Foundation (DBU AZ: 35693) for the reali-
sation of this research.
REFERENCES
Anders, E., Haubrich, F., Lieberwirth, H., Lienert,
A., Mezzetti, M., Weyrauch, S. and Will, F.,
Elektroimpulszerkleinerung in großtechnischen
Zerkleinerungsmaschinen zur Aufbereitung komplexer
Erze (ELIZE). r4- wirtschaftsstrategische Rohstoffe,
Berichte des Instituts für Aufbereitungsmaschinen 14,
2020, Technische Universität Bergakademie Freiberg,
Freiberg.
Andres, U., Parameters of Disintegration of Rock by
Electrical Pulses. Powder Technology, 1989 (58),
265–269.
Andres, U., Electrical Disintegration of Rock. Mineral
Processing and Extractive Metallurgy Review, 1995, 14
(2), 87–110. doi:10.1080/08827509508914118.
Andres, U. and Timoshkin, I., Energy consumption at
electrical disintegration of brittle solids. In 1998
IEEE 6th International Conference on Conduction
and Breakdown in Solid Dielectrics. ICSD’98. 1998
IEEE 6th International Conference on Conduction
and Breakdown in Solid Dielectrics, Vasteras,
Sweden. 22–25 June 1998. IEEE, Piscataway, 1998,
pp. 452–455.
Bru, K., Beaulieu, M., Sousa, R., Leite, M.M., Botleho de
Sousa, A., Kol, E., Rosenkranz, J. and Parvaz, D.B.,
Comparative laboratory study of conventional and
Electric Pulse Fragmentation (EPF) technologies on
the performances of the comminution and concen-
tration steps for the beneficiation of a scheelite skarn
ore. Minerals Engineering, 2020a, 150, 106302.
doi:10.1016/j.mineng.2020.106302.
Bru, K., Menard, Y., Touzé, S., Le Moign, A., Poirier, J.E.,
Ruffié, G., Bonnaudin, F. and Weid, F.V.D., Innovative
process routes for a high-quality concrete recycling in
the aggregates and cement industries.
Bru, K., Sousa, R., Leite, M.M., Broadbent, C., Stuart,
G., Pashkevich, D., Martin, M., Kern, M. and Parvaz,
D.B., Pilot-scale investigation of two Electric Pulse
Fragmentation (EPF) approaches for the mineral pro-
cessing of a low-grade cassiterite schist ore. Minerals
Engineering, 2020b, 150, 106270. doi:10.1016
/j.mineng.2020.106270.
Bru, K., Touzé, S., Auger, P., Dobrusky, S., Tierrie, J.
and Parvaz, D.B., Investigation of lab and pilot scale
electric-pulse fragmentation systems for the recy-
cling of ultra-high performance fibre-reinforced con-
crete. Minerals Engineering, 2018, 128, 187–194.
doi:10.1016/j.mineng.2018.08.040.
Cyrus, C., Toulouse-based I-ROX takes €12 million for pulsed
power that matches a nuclear reactor’s output in a mil-
lionth of a second, 2023 https://tech.eu/2022/11/22
/toulouse-based-i-rox-takes-eur12-million-for-pulsed
-power-that-matches-a-nuclear-reactors-output-in-a
-millionth-of-a-second/.
Gebr. Jehmlich GmbH, Betriebsanleitung: Universal Mühle
REKORD 224, 2015.
Höffl, K., Zerkleinerungs- und Klassiermaschinen mit
37 Tabellen, 2nd edn., ca. 1994, Schlütersche
Verlagsanstalt, Hannover.
Lay, D., Shi, F. and Antonio, C., Evaluation of a novel
electrode design for high voltage pulse ore pre-con-
centration. Minerals Engineering, 2023, 201, 108239.
doi:10.1016/j.mineng.2023.108239.
Lieberwirth, H.e.a., „Einrichtung zur Beanspruchung von
Partikeln mittels Elektroimpulsen," B02C 19/18, 2018.
Martino, R., Iseli, C., Gaydardzhiev, S., Streicher-Porte,
M. and Weh, A., Electro dynamic fragmentation of
printed wiring boards as a preparation tool for their
recycling. Minerals Engineering, 2017, 107, 20–26.
doi:10.1016/j.mineng.2017.01.009.
Pestalozzi, S.F., Selektive Elektrodynamische Fragmentierung
:Zerkleinerungsmechanismen und Einsatzmöglichkeiten
zur Rückgewinnung von Wertstoffen, 2020, Universität
Stuttgart.
Popov, O., Beitrag zur mathematisch-petrographischen
Gefügecharakterisierung für die Beurteilung der
Festgesteine hinsichtlich ihrer Aufbereitung und ihrer
Produkteigenschaften. Dissertation, 13.07.07, Freiberg.
Popov, O., Transformation of plaglioclase feldspar. written,
Freiberg, 2022.
Shi, F., Zuo, W. and Manlapig, E., Characterisation of
pre-weakening effect on ores by high voltage electri-
cal pulses based on single-particle tests. Minerals
Engineering, 2013, 50–51, 69–76. doi:10.1016
/j.mineng.2013.06.017.
Further investigations are to be conducted with the sys-
tem. Future work includes research and testing programs
with Li-bearing ores as well as concrete.
ACKNOWLEDGMENTS
The authors kindly acknowledge the financial support from
the German Federal Ministry for Research and Education
(BMBF FKaZ:033161) as well as the German Federal
Environment Foundation (DBU AZ: 35693) for the reali-
sation of this research.
REFERENCES
Anders, E., Haubrich, F., Lieberwirth, H., Lienert,
A., Mezzetti, M., Weyrauch, S. and Will, F.,
Elektroimpulszerkleinerung in großtechnischen
Zerkleinerungsmaschinen zur Aufbereitung komplexer
Erze (ELIZE). r4- wirtschaftsstrategische Rohstoffe,
Berichte des Instituts für Aufbereitungsmaschinen 14,
2020, Technische Universität Bergakademie Freiberg,
Freiberg.
Andres, U., Parameters of Disintegration of Rock by
Electrical Pulses. Powder Technology, 1989 (58),
265–269.
Andres, U., Electrical Disintegration of Rock. Mineral
Processing and Extractive Metallurgy Review, 1995, 14
(2), 87–110. doi:10.1080/08827509508914118.
Andres, U. and Timoshkin, I., Energy consumption at
electrical disintegration of brittle solids. In 1998
IEEE 6th International Conference on Conduction
and Breakdown in Solid Dielectrics. ICSD’98. 1998
IEEE 6th International Conference on Conduction
and Breakdown in Solid Dielectrics, Vasteras,
Sweden. 22–25 June 1998. IEEE, Piscataway, 1998,
pp. 452–455.
Bru, K., Beaulieu, M., Sousa, R., Leite, M.M., Botleho de
Sousa, A., Kol, E., Rosenkranz, J. and Parvaz, D.B.,
Comparative laboratory study of conventional and
Electric Pulse Fragmentation (EPF) technologies on
the performances of the comminution and concen-
tration steps for the beneficiation of a scheelite skarn
ore. Minerals Engineering, 2020a, 150, 106302.
doi:10.1016/j.mineng.2020.106302.
Bru, K., Menard, Y., Touzé, S., Le Moign, A., Poirier, J.E.,
Ruffié, G., Bonnaudin, F. and Weid, F.V.D., Innovative
process routes for a high-quality concrete recycling in
the aggregates and cement industries.