23
[19] Deloitte Australia. Energy management in mining.
Deloitte Australia. https://www.deloitte.com/au/
en/Industries/mining-metals/perspectives/energy
-management-mining.html (accessed 2024-09-13).
[20] Radchenko, D. Bondarenko, A. Mining Engineering
System as an Energy Asset in Industry 4.0. E3S Web
Conf. 2018, 58, 01009. https://doi.org/10.1051
/e3sconf/20185801009.
[21] Nesimi, E. Mine Electrification and Future
Directions, 2020. https://www.adelaide.edu.au/iser
/system/files/media/documents/2020-07/Mine%20
Electrification%20and%20Future%20Directions
.pdf (accessed 2024-09-23).
[22] Delevigngne, L. Glazener, W. Grégoir, L. Henderson,
K. Climate risk and decarbonization: What every min-
ing CEO needs to know. McKinsey Sustainability.
https://www.mckinsey.com/capabilities/sustainability
/our-insights/climate-risk-and-decarbonization
-what-every-mining-ceo-needs-to-know (accessed
2024-07-10).
[23] ABB. eMineTM makes the all-electric mine possible.
https://www.miningmagazine.com/partners/partner
-content/1421849/building-electric-association-abb
(accessed 2024-08-28).
[24] Zharan, K. Bongaerts, J. C. Decision-Making on
the Integration of Renewable Energy in the Mining
Industry: A Case Studies Analysis, a Cost Analysis and
a SWOT Analysis. J. Sustain. Min. 2017, 16 (4), 162–
170. https://doi.org/10.1016/j.jsm.2017.11.004.
[25] Strezoski, L. Distributed Energy Resource
Management Systems— DERMS :State of the
Art and How to Move Forward. WIREs Energy
Environ. 2023, 12 (1), e460. https://doi.org/10.1002
/wene.460.
[26] Albertini, A. R. Yabe, V. T. Di Santo, S. G.
Distributed Energy Resources Management Systems
(DERMS). In Smart Grids—Renewable Energy, Power
Electronics, Signal Processing and Communication
Systems Applications Sguarezi Filho, A. J., Jacomini,
R. V., Capovilla, C. E., Casella, I. R. S., Eds. Green
Energy and Technology Springer International
Publishing: Cham, 2024 pp 143–172. https://doi
.org/10.1007/978-3-031-37909-3_5.
[27] Igogo, T. Awuah-Offei, K. Newman, A.
Lowder, T. Engel-Cox, J. Integrating Renewable
Energy into Mining Operations: Opportunities,
Challenges, and Enabling Approaches. Appl. Energy
2021, 300, 117375. https://doi.org/10.1016
/j.apenergy.2021.117375.
[28] Schatz, R. S. Nieto, A. Lvov, S. N. Long-Term
Economic Sensitivity Analysis of Light Duty
Underground Mining Vehicles by Power Source. Int.
J. Min. Sci. Technol. 2017, 27 (3), 567–571. https://
doi.org/10.1016/j.ijmst.2017.03.016.
[29] ABB. 5 pillars to transition to all-electric mine. https://
new.abb.com/mining/emine/5-pillars-to-transition
-to-all-electric-mine (accessed 2024-09-19).
[30] Paiva, G. Agra, R. Tomi, G. D. Universidade de
São Paulo, Brazil Universidade de São Paulo, Brazil
Universidade de São Paulo, Brazil. Application
Challenges for Information and Automation
Technologies in an Underground Mine in Brazil.
REM -Int. Eng. J. 2017, 70 (1), 93–97. https://doi
.org/10.1590/0370-44672015700117.
[31] Paraszczak, J. Svedlund, E. Fytas, K. Laflamme,
M. Electrification of Loaders and Trucks – A Step
Towards More Sustainable Underground Mining.
Renew. Energy Power Qual. J. 2014, 81–86. https://
doi.org/10.24084/repqj12.240.
[32] Nowosad, S. Langefeld, O. How Close and Far
Underground Pump Storage Plants from Reality
Are: Status Quo and Challenges. In Society for
Mining, Metallurgy, and Exploration, SME Annual
Conference &Expo Society for Mining, Metallurgy,
and Exploration: Online, 2021.
[33] Energie- und Wasserspeicher Harz -Kopplung nach-
haltiger Systemdienstleistungen zur Energiespeicherung,
zum Hochwasserschutz und zur Ressourcensicherung
(EWAZ): Abschlussbericht: Laufzeit des Verbundprojektes
01.07.2019 bis zum 30.09.2022, 1. Auflage.
Beck, H.-P., Zum Hingst, J., Eds. Schriftenreihe
des Energie-Forschungszentrums Niedersachsen
(EFZN) Cuvillier Verlag: Göttingen, 2023.
[34] Langefeld, O. Nutzung Untertägiger
Bergwerksinfrastruktur Als Pumpspeicherkraftwerk:
Utilisation of Underground Mining Infrastructure
as Pumped Storage Power Plant. 2018, 3 (154),
209–213.
[35] Bassan, J. Farrelly, C. T. McCullough, G. Knights,
P. A Day in the Life of a Mineworker in 2045. 06
The Australasian Institute of Mining and Metallurgy,
2024 Vol. 06, pp 95–105.
[36] Chirgwin, P. Skills Development and Training of
Future Workers in Mining Automation Control
Rooms. Comput. Hum. Behav. Rep. 2021, 4, 100115.
https://doi.org/10.1016/j.chbr.2021.100115.
[37] Gallardo, R. Goddard, D. Görner, S. Rubinstein,
B. Remote operating centers in mining: unlocking
their full potential. McKinsey &Company. https://
[19] Deloitte Australia. Energy management in mining.
Deloitte Australia. https://www.deloitte.com/au/
en/Industries/mining-metals/perspectives/energy
-management-mining.html (accessed 2024-09-13).
[20] Radchenko, D. Bondarenko, A. Mining Engineering
System as an Energy Asset in Industry 4.0. E3S Web
Conf. 2018, 58, 01009. https://doi.org/10.1051
/e3sconf/20185801009.
[21] Nesimi, E. Mine Electrification and Future
Directions, 2020. https://www.adelaide.edu.au/iser
/system/files/media/documents/2020-07/Mine%20
Electrification%20and%20Future%20Directions
.pdf (accessed 2024-09-23).
[22] Delevigngne, L. Glazener, W. Grégoir, L. Henderson,
K. Climate risk and decarbonization: What every min-
ing CEO needs to know. McKinsey Sustainability.
https://www.mckinsey.com/capabilities/sustainability
/our-insights/climate-risk-and-decarbonization
-what-every-mining-ceo-needs-to-know (accessed
2024-07-10).
[23] ABB. eMineTM makes the all-electric mine possible.
https://www.miningmagazine.com/partners/partner
-content/1421849/building-electric-association-abb
(accessed 2024-08-28).
[24] Zharan, K. Bongaerts, J. C. Decision-Making on
the Integration of Renewable Energy in the Mining
Industry: A Case Studies Analysis, a Cost Analysis and
a SWOT Analysis. J. Sustain. Min. 2017, 16 (4), 162–
170. https://doi.org/10.1016/j.jsm.2017.11.004.
[25] Strezoski, L. Distributed Energy Resource
Management Systems— DERMS :State of the
Art and How to Move Forward. WIREs Energy
Environ. 2023, 12 (1), e460. https://doi.org/10.1002
/wene.460.
[26] Albertini, A. R. Yabe, V. T. Di Santo, S. G.
Distributed Energy Resources Management Systems
(DERMS). In Smart Grids—Renewable Energy, Power
Electronics, Signal Processing and Communication
Systems Applications Sguarezi Filho, A. J., Jacomini,
R. V., Capovilla, C. E., Casella, I. R. S., Eds. Green
Energy and Technology Springer International
Publishing: Cham, 2024 pp 143–172. https://doi
.org/10.1007/978-3-031-37909-3_5.
[27] Igogo, T. Awuah-Offei, K. Newman, A.
Lowder, T. Engel-Cox, J. Integrating Renewable
Energy into Mining Operations: Opportunities,
Challenges, and Enabling Approaches. Appl. Energy
2021, 300, 117375. https://doi.org/10.1016
/j.apenergy.2021.117375.
[28] Schatz, R. S. Nieto, A. Lvov, S. N. Long-Term
Economic Sensitivity Analysis of Light Duty
Underground Mining Vehicles by Power Source. Int.
J. Min. Sci. Technol. 2017, 27 (3), 567–571. https://
doi.org/10.1016/j.ijmst.2017.03.016.
[29] ABB. 5 pillars to transition to all-electric mine. https://
new.abb.com/mining/emine/5-pillars-to-transition
-to-all-electric-mine (accessed 2024-09-19).
[30] Paiva, G. Agra, R. Tomi, G. D. Universidade de
São Paulo, Brazil Universidade de São Paulo, Brazil
Universidade de São Paulo, Brazil. Application
Challenges for Information and Automation
Technologies in an Underground Mine in Brazil.
REM -Int. Eng. J. 2017, 70 (1), 93–97. https://doi
.org/10.1590/0370-44672015700117.
[31] Paraszczak, J. Svedlund, E. Fytas, K. Laflamme,
M. Electrification of Loaders and Trucks – A Step
Towards More Sustainable Underground Mining.
Renew. Energy Power Qual. J. 2014, 81–86. https://
doi.org/10.24084/repqj12.240.
[32] Nowosad, S. Langefeld, O. How Close and Far
Underground Pump Storage Plants from Reality
Are: Status Quo and Challenges. In Society for
Mining, Metallurgy, and Exploration, SME Annual
Conference &Expo Society for Mining, Metallurgy,
and Exploration: Online, 2021.
[33] Energie- und Wasserspeicher Harz -Kopplung nach-
haltiger Systemdienstleistungen zur Energiespeicherung,
zum Hochwasserschutz und zur Ressourcensicherung
(EWAZ): Abschlussbericht: Laufzeit des Verbundprojektes
01.07.2019 bis zum 30.09.2022, 1. Auflage.
Beck, H.-P., Zum Hingst, J., Eds. Schriftenreihe
des Energie-Forschungszentrums Niedersachsen
(EFZN) Cuvillier Verlag: Göttingen, 2023.
[34] Langefeld, O. Nutzung Untertägiger
Bergwerksinfrastruktur Als Pumpspeicherkraftwerk:
Utilisation of Underground Mining Infrastructure
as Pumped Storage Power Plant. 2018, 3 (154),
209–213.
[35] Bassan, J. Farrelly, C. T. McCullough, G. Knights,
P. A Day in the Life of a Mineworker in 2045. 06
The Australasian Institute of Mining and Metallurgy,
2024 Vol. 06, pp 95–105.
[36] Chirgwin, P. Skills Development and Training of
Future Workers in Mining Automation Control
Rooms. Comput. Hum. Behav. Rep. 2021, 4, 100115.
https://doi.org/10.1016/j.chbr.2021.100115.
[37] Gallardo, R. Goddard, D. Görner, S. Rubinstein,
B. Remote operating centers in mining: unlocking
their full potential. McKinsey &Company. https://