Details

Title

The effect of sulfur, temperature, the duration of the process and reductant on the selective reduction of limonite ore

Journal title

Gospodarka Surowcami Mineralnymi - Mineral Resources Management

Yearbook

2022

Volume

vol. 38

Issue

No 1

Authors

Affiliation

Bahfie, Fathan : Research Unit for Mineral Technology, National Research and Innovation Agency of Indonesia, Jalan Ir. Sutami Km 15 South Lampung, Lampung, Indonesia ; Shofi, Achmad : Agency for Rembang Regional Planning and Development, Rembang Local Government, Indonesia ; Herlina, Ulin : Research Unit for Mineral Technology, National Research and Innovation Agency of Indonesia, Jalan Ir. Sutami Km 15 South Lampung, Lampung, Indonesia ; Handoko, Anton S. : Research Unit for Mineral Technology, National Research and Innovation Agency of Indonesia, Jalan Ir. Sutami Km 15 South Lampung, Lampung, Indonesia ; Septiana, Nanda A. : Department of Physic-University of Lampung,Jl. Prof. Dr. Ir. Sumantri Brojonegoro No. 1, Gedong Meneng, Kec. Rajabasa, Kota Bandar Lampung, Indonesia ; Syafriadi, Syafriadi : Department of Physic-University of Lampung,Jl. Prof. Dr. Ir. Sumantri Brojonegoro No. 1, Gedong Meneng, Kec. Rajabasa, Kota Bandar Lampung, Indonesia ; Suharto, Suharto : Research Unit for Mineral Technology, National Research and Innovation Agency of Indonesia, Jalan Ir. Sutami Km 15 South Lampung, Lampung, Indonesia ; Sudibyo, Sudibyo : Research Unit for Mineral Technology, National Research and Innovation Agency of Indonesia, Jalan Ir. Sutami Km 15 South Lampung, Lampung, Indonesia ; Suhartono, Suhartono : Chemical Engineering Department, University of Jenderal Achmad Yani, Jalan Terusan Jend. Sudirman, Cibeber, Kec. Cimahi Sel., Kota Cimahi, Jawa Barat, Indonesia ; Nurjaman, Fajar : Research Unit for Mineral Technology, National Research and Innovation Agency of Indonesia, Jalan Ir. Sutami Km 15 South Lampung, Lampung, Indonesia

Keywords

limonite ; sulfur ; selective reduction ; temperature ; the duration of process

Divisions of PAS

Nauki Techniczne

Coverage

123-136

Publisher

Komitet Zrównoważonej Gospodarki Surowcami Mineralnymi PAN ; Instytut Gospodarki Surowcami Mineralnymi i Energią PAN

Bibliography

Cao et al. 2010 – Cao, Z.C., Sun, T.C., Yang, H.F., Wang, J.J. and Wu, X.D. 2010. Recovery of iron and nickel from nickel laterite ore by direct reduction roasting and magnetic separation. Chinese Journal of Engineering 32(6), pp. 708–712, DOI: 10.13374/j.issn1001-053x.2010.06.004.
Dalvi et al. 2004 – Dalvi, A.D., Bacon, W.G. and Osborne R.C. 2004. The Past and The Future of Nickel Laterites. PDAC 2004 International Conference Trade Show and Investors Exchange, Toronto, Canada.
Elliot et al. 2015 – Elliot, R., Rodrigues, F., Pickles, C.A. and Peace, J. 2015. A two-stage process for upgrading thermal nickeliferous limonitic laterite ores. Canadian Metallurgical Quarterly 54(4), pp. 235–252, DOI: 10.1179/1879139515Y.0000000009.
Elliot et al. 2017 – Elliot, R., Pickles, C.A. and Peace, J. 2017. Ferronickel particle formation during the carbothermic reduction of a limonitic laterite ore. Minerals Engineering 100, pp. 166–176, DOI: 10.1016/j.mineng.2016.10.020.
Foster et al. 2016 – Foster, J., Pickles, C.A. and Elliot, R. 2016. Microwave carbhotematic reduction roasting of low-grade ore nickeliferous silicate laterite. Minerals Engineering 88, pp. 18–27, DOI: 10.1016/j.mineng.2015.09.005.
Jiang et al. 2013 – Jiang, M., Sun, T., Liu, Z., Kou, J., Liu, N. and Zhang, S. 2013. Mechanism of sodium sulfate in promoting the selective reduction of nickel laterite ore during reduction roasting process. International Journal of Mineral Processing 123, pp. 32–38, DOI: 10.1016/j.minpro.2013.04.005.
Li et al. 2012 – Li, G., Shi, T., Rao, M., Jiang, T. and Zhang, Y. 2012. Beneficiation of nickeliferous laterite by reduction roasting in the presence of sodium sulfate. Minerals Engineering 32, pp. 19–26, DOI: 10.1016/J.MINENG.2012.03.012.
Prasetyo, A.B. and Puguh. 2011. Increased levels of nickel (Ni) and iron (Fe) from laterite ore saprolite type low levels for raw materials containing nickel pig iron (NCPII/NPI). Met. Mag. 26, pp. 123–130.
Prasetyo, A.B. and Firdiyono, F.E. 2014. Reduction process optimization laterite ore limonite as raw materials type NPI (Nickel Pig Iron). Majalah Metalurgi 29(1), pp. 9–16.
Valix and Cheung. 2002. Effect of sulfur on the mineral phases of laterite ores at a high-temperature reduction. Minerals Engineering 15, pp. 523–530.
Wang et al. 2017 – Wang, Chu, Z., Liu, M., Wang, H., Zhao, W. and Gao, L. 2017. Preparing ferronickel alloy from low-grade laterite nickel ore reduction based on metallized-magnetic separation. Metals 7(8), pp. 313, DOI: 10.3390/met7080313.

Date

2022.02.24

Type

Article

Identifier

DOI: 10.24425/gsm.2022.140606
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