XXXI International Mineral Processing Congress 2024 Proceedings/Washington, DC/Sep 29–Oct 3 581
[7] Characterization and Beneficiation of Anka Chromite
Ore Using Magnetic Separation Process [www
Document], 2009. .ResearchGate. URL https://
www.researchgate.net/publication/264839731
_Characterization_and_Beneficiation_of_Anka
_Chromite_Ore_Using_Magnetic_Separation
_Process (accessed 2.4.24).
[8] Das, A.K., Khaoash, S., Das, S.P., Mohapatra, B.K.,
Dash, N., Singh, S.K., Mishra, P., Mohanty, J., 2020.
Processing of Low-Grade Chromite Ore for Ferroalloy
Production: A Case Study from Ghutrigaon, Odisha,
India. Trans. Indian Inst. Met. 73, 2309–2320. doi:
10.1007/s12666-020-02032-5.
[9] Das, S.K., 2015. Quantitative mineralogical charac-
terization of chrome ore beneficiation plant tailing and
its beneficiated products. Int. J. Miner. Metall. Mater.
22, 335–345. doi: 10.1007/s12613-015-1078-y.
[10] Enrichment Chromite Sand Grade Using Magnetic
Separator -IOPscience [www Document], n.d. URL
https://iopscience.iop.org/article/10.1088/1757
-899X/588/1/012033 (accessed 2.5.24).
[11] Hayslip, G.O., Jenkins, W.S., 1965. Removal of Silica
From Samples of Chrome Ores (Investigation Report
IR 65–34). Mines Branch Investig. Rep. Copy no 4.
[12] Keramat, S.H., Garmsiri, M.R., 2019. Recoveryof
Chromite Fines Utilizing SLON High Gradient
Magnetic Separator 13.
[13] Kuldeyev, Y., Serzhanova, N., Sadykov, N., 2021. The
Process of Beneficiation of Fine Chrome Sludges on
Concentration Tables.
[14] Minerals |Free Full-Text |Improving the Quality
of Ferruginous Chromite Concentrates Via Physical
Separation Methods [WWW Document], n.d.
URL https://www.mdpi.com/2075-163X/9/11/667
(accessed 2.5.24).
[15] Mmh, A.-T., Aa, M., Aa, S., 2019. Beneficiation of
Disseminated Low-Grade Sudanese Chromite Ore in
Gedarif State at Umm Saqata-Qala Elnahal 6.
[16] Mokoena, T., Nheta, W., n.d. Beneficiation of South
African chromite tailings using Magnetic Separation.
[17] Murthy, Y. Rama, Tripathy, S.K., 2020. Process opti-
mization of a chrome ore gravity concentration plant
for sustainable development. J. South. Afr. Inst. Min.
Metall. 120. doi: 10.17159/2411-9717/990/2020.
[18] Murthy, Y Rama, Tripathy, S.K., 2020. Process opti-
mization of a chrome ore gravity concentration plant
for sustainable development 120.
[19] Murthy, Y.R., Tripathy, S.K., Kumar, C.R., 2011.
Chrome ore beneficiation challenges &opportunities
– A review. Miner. Eng. 24, 375–380. doi: 10.1016
/j.mineng.2010.12.001.
[20] Object, object, n.d. Beneficiation Practices in the
Sukinda Valley Area Chromite Deposits.
[21] Peña-Graf, F.A., Grammatikopoulos, T., Kabemba,
A., Navarra, A., 2021. Integrated feed management
of mineral processing plants with application to chro-
mite processing. Can. Metall. Q. 60, 130–136. doi:
10.1080/00084433.2021.1975251.
[22] Praharaj, T., n.d. Sukinda Chromlte Mines Orissa.
[23] Pretorius, J., 2019. Comparing Neural Network
Approaches in Modelling a Chromite Wet High-
Intensity Magnetic Separator. Waste Manag.
[24] Rao, A.M., Rath, R.K., Mohanta, M.K., Dey, B.,
Sahoo, M., Singh, R., n.d. Beneficiation Studies
on Low Grade Chromite Ores using Multi Gravity
Separator.
[25] Rao, R., Das, B., Sastri, S., 1997. Improving
Grade of Indian Chromite Ores by High–Gradient
Magnetic Separation. Magn. Electr. Sep. 8. doi:
10.1155/1997/27341.
[26] Rao, R.B., Das, B., Sastri, S.R.S., NaN/NaN/NaN.
Improving Grade of Indian Chromite Ores by High–
Gradient Magnetic Separation. Phys. Sep. Sci. Eng.
8, 175–183. doi: 10.1155/1997/27341.
[27] Rath, R.K., Dey, B., Mohanta, M.K., Prusty, L.,
Singh, R., 2017. Recovery of chromite values from
tailings of COB plant using enhanced gravity
concentrator.
[28] Rath, R.K., Dey, B., Mohanta, M.K., Prusty, L.K.,
Singh, R., n.d. Recovery of Chromite Values from
Tailings of Cob Plant Using Enhanced Gravity
Concentrator.
[29] Recovery of Chromite from Processing plant Tailing
by Vertical Ring and Pulsating High Gradient
Magnetic separation, n.d.
[30] Reichel, C.R.M., 2018. A Predictive Model for a
Wet-high-intensity-magnetic-separator (WHIMS)
using Artificial Neural Networks. South Afr.
[31] Ruan, B., Yu, Y., Lv, X., Feng, J., Wei, W., Wu, C.,
Wang, H., 2017. Occurrence and mineral chem-
istry of chromite and related silicates from the
Hongshishan mafic-ultramafic complex, NW China
with petrogenetic implications. Mineral. Petrol. 111,
693–708. doi: 10.1007/s00710-016-0480-0.
[7] Characterization and Beneficiation of Anka Chromite
Ore Using Magnetic Separation Process [www
Document], 2009. .ResearchGate. URL https://
www.researchgate.net/publication/264839731
_Characterization_and_Beneficiation_of_Anka
_Chromite_Ore_Using_Magnetic_Separation
_Process (accessed 2.4.24).
[8] Das, A.K., Khaoash, S., Das, S.P., Mohapatra, B.K.,
Dash, N., Singh, S.K., Mishra, P., Mohanty, J., 2020.
Processing of Low-Grade Chromite Ore for Ferroalloy
Production: A Case Study from Ghutrigaon, Odisha,
India. Trans. Indian Inst. Met. 73, 2309–2320. doi:
10.1007/s12666-020-02032-5.
[9] Das, S.K., 2015. Quantitative mineralogical charac-
terization of chrome ore beneficiation plant tailing and
its beneficiated products. Int. J. Miner. Metall. Mater.
22, 335–345. doi: 10.1007/s12613-015-1078-y.
[10] Enrichment Chromite Sand Grade Using Magnetic
Separator -IOPscience [www Document], n.d. URL
https://iopscience.iop.org/article/10.1088/1757
-899X/588/1/012033 (accessed 2.5.24).
[11] Hayslip, G.O., Jenkins, W.S., 1965. Removal of Silica
From Samples of Chrome Ores (Investigation Report
IR 65–34). Mines Branch Investig. Rep. Copy no 4.
[12] Keramat, S.H., Garmsiri, M.R., 2019. Recoveryof
Chromite Fines Utilizing SLON High Gradient
Magnetic Separator 13.
[13] Kuldeyev, Y., Serzhanova, N., Sadykov, N., 2021. The
Process of Beneficiation of Fine Chrome Sludges on
Concentration Tables.
[14] Minerals |Free Full-Text |Improving the Quality
of Ferruginous Chromite Concentrates Via Physical
Separation Methods [WWW Document], n.d.
URL https://www.mdpi.com/2075-163X/9/11/667
(accessed 2.5.24).
[15] Mmh, A.-T., Aa, M., Aa, S., 2019. Beneficiation of
Disseminated Low-Grade Sudanese Chromite Ore in
Gedarif State at Umm Saqata-Qala Elnahal 6.
[16] Mokoena, T., Nheta, W., n.d. Beneficiation of South
African chromite tailings using Magnetic Separation.
[17] Murthy, Y. Rama, Tripathy, S.K., 2020. Process opti-
mization of a chrome ore gravity concentration plant
for sustainable development. J. South. Afr. Inst. Min.
Metall. 120. doi: 10.17159/2411-9717/990/2020.
[18] Murthy, Y Rama, Tripathy, S.K., 2020. Process opti-
mization of a chrome ore gravity concentration plant
for sustainable development 120.
[19] Murthy, Y.R., Tripathy, S.K., Kumar, C.R., 2011.
Chrome ore beneficiation challenges &opportunities
– A review. Miner. Eng. 24, 375–380. doi: 10.1016
/j.mineng.2010.12.001.
[20] Object, object, n.d. Beneficiation Practices in the
Sukinda Valley Area Chromite Deposits.
[21] Peña-Graf, F.A., Grammatikopoulos, T., Kabemba,
A., Navarra, A., 2021. Integrated feed management
of mineral processing plants with application to chro-
mite processing. Can. Metall. Q. 60, 130–136. doi:
10.1080/00084433.2021.1975251.
[22] Praharaj, T., n.d. Sukinda Chromlte Mines Orissa.
[23] Pretorius, J., 2019. Comparing Neural Network
Approaches in Modelling a Chromite Wet High-
Intensity Magnetic Separator. Waste Manag.
[24] Rao, A.M., Rath, R.K., Mohanta, M.K., Dey, B.,
Sahoo, M., Singh, R., n.d. Beneficiation Studies
on Low Grade Chromite Ores using Multi Gravity
Separator.
[25] Rao, R., Das, B., Sastri, S., 1997. Improving
Grade of Indian Chromite Ores by High–Gradient
Magnetic Separation. Magn. Electr. Sep. 8. doi:
10.1155/1997/27341.
[26] Rao, R.B., Das, B., Sastri, S.R.S., NaN/NaN/NaN.
Improving Grade of Indian Chromite Ores by High–
Gradient Magnetic Separation. Phys. Sep. Sci. Eng.
8, 175–183. doi: 10.1155/1997/27341.
[27] Rath, R.K., Dey, B., Mohanta, M.K., Prusty, L.,
Singh, R., 2017. Recovery of chromite values from
tailings of COB plant using enhanced gravity
concentrator.
[28] Rath, R.K., Dey, B., Mohanta, M.K., Prusty, L.K.,
Singh, R., n.d. Recovery of Chromite Values from
Tailings of Cob Plant Using Enhanced Gravity
Concentrator.
[29] Recovery of Chromite from Processing plant Tailing
by Vertical Ring and Pulsating High Gradient
Magnetic separation, n.d.
[30] Reichel, C.R.M., 2018. A Predictive Model for a
Wet-high-intensity-magnetic-separator (WHIMS)
using Artificial Neural Networks. South Afr.
[31] Ruan, B., Yu, Y., Lv, X., Feng, J., Wei, W., Wu, C.,
Wang, H., 2017. Occurrence and mineral chem-
istry of chromite and related silicates from the
Hongshishan mafic-ultramafic complex, NW China
with petrogenetic implications. Mineral. Petrol. 111,
693–708. doi: 10.1007/s00710-016-0480-0.