XXXI International Mineral Processing Congress 2024 Proceedings/Washington, DC/Sep 29–Oct 3 1701
Agrawal, S., and Dhawan, N. 2021c. Microwave acid bak-
ing of red mud for extraction of titanium and scan-
dium values. Hydrometallurgy 204:105704.
Agrawal, S., and Dhawan, N. 2022. Process flowsheet for
extraction of Fe, Al, Ti, Sc, and Ga values from red
mud. Minerals Engineering 184:107601.
Agrawal, S., Rayapudi, V., and Dhawan, N. 2019.
Comparison of microwave and conventional carboth-
ermal reduction of red mud for recovery of iron values.
Minerals Engineering, 132:202–210.
Akcil, A., Akhmadiyeva, N., Abdulvaliyev, R., Abhilash
and Meshram, P. 2018. Overview on extraction and
separation of rare earth elements from red mud: focus
on scandium. Mineral Processing and Extractive metal-
lurgy review 39(3):145–151.
Borra, C.R., Pontikes, Y., Binnemans, K. and Van Gerven,
T., 2015. Leaching of rare earths from bauxite residue
(red mud). Minerals Engineering 76:20–27.
IBM, 2018. Indian Minerals Yearbook 2018 part-II: Metals
and Alloys, 57th Edition, Aluminium and Alumina.
Pepper, R.A., Couperthwaite, S.J. and Millar, G.J., 2016.
Comprehensive examination of acid leaching behav-
iour of mineral phases from red mud: Recovery of Fe,
Al, Ti, and Si. Minerals Engineering 99:8–18.
Rai, S., Bahadure, S., Chaddha, M.J., and Agnihotri, A.
2020. Disposal Practices and Utilization of Red Mud
(Bauxite Residue): A Review in Indian Context and
Abroad. Journal of Sustainable Metallurgy 6:1–8.
Ujaczki, É., Feigl, V., Molnár, M., Cusack, P., Curtin,
T., Courtney, R., O’Donoghue, L., Davris, P., Hugi,
C., Evangelou, M.W.H., Balomenos, E., and Lenz,
M. 2018. Re-using bauxite residues: benefits beyond
(critical raw) material recovery. Journal of Chemical
Technology &Biotechnology 93:2498–2510.
Agrawal, S., and Dhawan, N. 2021c. Microwave acid bak-
ing of red mud for extraction of titanium and scan-
dium values. Hydrometallurgy 204:105704.
Agrawal, S., and Dhawan, N. 2022. Process flowsheet for
extraction of Fe, Al, Ti, Sc, and Ga values from red
mud. Minerals Engineering 184:107601.
Agrawal, S., Rayapudi, V., and Dhawan, N. 2019.
Comparison of microwave and conventional carboth-
ermal reduction of red mud for recovery of iron values.
Minerals Engineering, 132:202–210.
Akcil, A., Akhmadiyeva, N., Abdulvaliyev, R., Abhilash
and Meshram, P. 2018. Overview on extraction and
separation of rare earth elements from red mud: focus
on scandium. Mineral Processing and Extractive metal-
lurgy review 39(3):145–151.
Borra, C.R., Pontikes, Y., Binnemans, K. and Van Gerven,
T., 2015. Leaching of rare earths from bauxite residue
(red mud). Minerals Engineering 76:20–27.
IBM, 2018. Indian Minerals Yearbook 2018 part-II: Metals
and Alloys, 57th Edition, Aluminium and Alumina.
Pepper, R.A., Couperthwaite, S.J. and Millar, G.J., 2016.
Comprehensive examination of acid leaching behav-
iour of mineral phases from red mud: Recovery of Fe,
Al, Ti, and Si. Minerals Engineering 99:8–18.
Rai, S., Bahadure, S., Chaddha, M.J., and Agnihotri, A.
2020. Disposal Practices and Utilization of Red Mud
(Bauxite Residue): A Review in Indian Context and
Abroad. Journal of Sustainable Metallurgy 6:1–8.
Ujaczki, É., Feigl, V., Molnár, M., Cusack, P., Curtin,
T., Courtney, R., O’Donoghue, L., Davris, P., Hugi,
C., Evangelou, M.W.H., Balomenos, E., and Lenz,
M. 2018. Re-using bauxite residues: benefits beyond
(critical raw) material recovery. Journal of Chemical
Technology &Biotechnology 93:2498–2510.