9
position of the National Institute for Occupational Safety
and Health (NIOSH), Centers for Disease Control and
Prevention (CDC). Mention of any company or product
does not constitute endorsement by NIOSH.
KETIV Technologies neither owns nor bears any
responsibility for the data collected, presented, and used in
this paper for simulation correlation.
REFERENCES
[1] ANSYS (2023). ANSYS Fluent Theory Guide.
Release 2023 R1. Canonsburg, PA.
[2] Bhargava, R., Tukkaraja, P., Adhikari, A., Sridharan,
S. J. and Vytla, V. V. S. (2021). Airflow characteristic
curves for a mature block cave mine. In: Tukkaraja, P.
(Ed. Proceedings of the 18th North American Mine
Ventilation Symposium. Rapid City, SD, CRC Press.
[3] Gendrue, N., Liu S., Bhattacharyya, S., and Clister
R. (2023). An investigation of airflow distributions
with booster fan for a large opening mine through
field study and CFD modeling. Tunnelling and
Underground Space Technology 132 (2023) 104856.
[4] Grau III, R. H. and Krog, R. B. (2009). Ventilating
large opening mines. Journal of the Mine Ventilation
Society of South Africa, 62, 8–14.
[5] Grau, R. H., Krog, R. B., and Robertson, S. B.
(2006). Maximizing the ventilation of large-opening
mines. Proceedings of the 11th North American
Mine Ventilation Symposium 2006, 53–59. doi.org
/10.1201/9781439833391.ch8.
[6] Krog, R.B., Grau, R.H., Mucho, T.P., and Robertson,
S.B. (2004). Ventilation Planning Layouts for Large
Opening Mines. 2004 SME Annual Meeting,
Feb 23–25, Denver, Colorado, preprint 04-187.
Littleton, CO: Society for Mining, Metallurgy, and
Exploration, Inc., 2004 Feb.
[7] Morla, R., Karekal, S. and Godbole, A. (2021).
Transient-flow modelling of DPM dispersion in
unventilated dead-end crosscuts and control strategy
using curtain. In: Tukkaraja, P. (Ed. Proceedings of the
18th North American Mine Ventilation Symposium.
Rapid City, SD, CRC Press.
[8] NMA (2020) Mine Safety &Health Administration’s
Number of Coal and Non-fuel Mineral Operations
in the U.S.
[9] Raj K. V. and Gangrade V. (2023). CFD Modeling
of a Large-Opening Stone Mine using COMSOL
Multiphysics. Proceedings of the 19th North
American Mine Ventilation Symposium (NAMVS
2023, 17–22 June 2023, Rapid City, South Dakota,
USA).
[10] Raj, K. V., Bandopadhyay, S. and Ramani, R. V.
(2015). Turbulent Models for Pollutant Transport
in Openpit Mines under Stable Boundary Layer.
Transactions of Society for Mining, Metallurgy, and
Exploration, Inc, 338, 476–486.
[11] Watkins E. and Gangrade V. (2022). Optimization
of auxiliary fan placement for large-opening under-
ground stone mines. SME Annual Meeting. Salt Lake
City, UT.
position of the National Institute for Occupational Safety
and Health (NIOSH), Centers for Disease Control and
Prevention (CDC). Mention of any company or product
does not constitute endorsement by NIOSH.
KETIV Technologies neither owns nor bears any
responsibility for the data collected, presented, and used in
this paper for simulation correlation.
REFERENCES
[1] ANSYS (2023). ANSYS Fluent Theory Guide.
Release 2023 R1. Canonsburg, PA.
[2] Bhargava, R., Tukkaraja, P., Adhikari, A., Sridharan,
S. J. and Vytla, V. V. S. (2021). Airflow characteristic
curves for a mature block cave mine. In: Tukkaraja, P.
(Ed. Proceedings of the 18th North American Mine
Ventilation Symposium. Rapid City, SD, CRC Press.
[3] Gendrue, N., Liu S., Bhattacharyya, S., and Clister
R. (2023). An investigation of airflow distributions
with booster fan for a large opening mine through
field study and CFD modeling. Tunnelling and
Underground Space Technology 132 (2023) 104856.
[4] Grau III, R. H. and Krog, R. B. (2009). Ventilating
large opening mines. Journal of the Mine Ventilation
Society of South Africa, 62, 8–14.
[5] Grau, R. H., Krog, R. B., and Robertson, S. B.
(2006). Maximizing the ventilation of large-opening
mines. Proceedings of the 11th North American
Mine Ventilation Symposium 2006, 53–59. doi.org
/10.1201/9781439833391.ch8.
[6] Krog, R.B., Grau, R.H., Mucho, T.P., and Robertson,
S.B. (2004). Ventilation Planning Layouts for Large
Opening Mines. 2004 SME Annual Meeting,
Feb 23–25, Denver, Colorado, preprint 04-187.
Littleton, CO: Society for Mining, Metallurgy, and
Exploration, Inc., 2004 Feb.
[7] Morla, R., Karekal, S. and Godbole, A. (2021).
Transient-flow modelling of DPM dispersion in
unventilated dead-end crosscuts and control strategy
using curtain. In: Tukkaraja, P. (Ed. Proceedings of the
18th North American Mine Ventilation Symposium.
Rapid City, SD, CRC Press.
[8] NMA (2020) Mine Safety &Health Administration’s
Number of Coal and Non-fuel Mineral Operations
in the U.S.
[9] Raj K. V. and Gangrade V. (2023). CFD Modeling
of a Large-Opening Stone Mine using COMSOL
Multiphysics. Proceedings of the 19th North
American Mine Ventilation Symposium (NAMVS
2023, 17–22 June 2023, Rapid City, South Dakota,
USA).
[10] Raj, K. V., Bandopadhyay, S. and Ramani, R. V.
(2015). Turbulent Models for Pollutant Transport
in Openpit Mines under Stable Boundary Layer.
Transactions of Society for Mining, Metallurgy, and
Exploration, Inc, 338, 476–486.
[11] Watkins E. and Gangrade V. (2022). Optimization
of auxiliary fan placement for large-opening under-
ground stone mines. SME Annual Meeting. Salt Lake
City, UT.