Mineralogical Study of Zard Koh and Kulli Koh Iron Ore Deposits of Pakistan

  • Sultan Ahmed Khoso Department of Mining Engineering, Mehran University of Engineering & Technology, Jamshoro.
  • Muhammad Ishaque Abro
  • Muhammad Hassa Agheem


Zard Koh and Kulli Koh are two recently discovered iron ore deposits, existing in the Chagai district, Balochistan, Pakistan. PSM (Pakistan Steel Mill Limited) is interested to utilize these ore deposits at priority. Purpose of the present study was to assess the mineralogy of the Zard Koh and Kulli Koh iron ore deposits, as it plays a vital role in the selection of an appropriate processing method. The mineralogical study of ore deposits was carried out by XRD (X-Ray Diffraction), XRF (X-Ray Fluorescence), SEM (Scanning Electron Microscope) attached with EDS (Energy Dispersive Spectroscope) and SM (Stereomicroscope) techniques. Results indicated that the Zard Koh ore is mainly composed of 60.15%
maghemite, 23.57% pyrite, 4.07% chlorite, 10.30% grossular and 1.65% admontite minerals. The chemical analysis revealed that Zard Koh iron ore contains an average of 54.27% Fe, 12.73% S, 8.70% Si, 3.07% Al, 4.07% Ca, and 2.16% Mg. Similarly, the mineralogical study of the Kulli Koh iron ore indicated that, ore is containing 51.16% hematite, 29.24% quartz, 8.89% dravite, and 8.76% kaolinite minerals. Elemental analysis of different samples indicated that Kulli Koh iron ore contains an average composition of 40.23% Fe, 20.67% Si, 3.44% Ca, 3.81% Al and 3.25% Mg. Mineralogical study of the Zard Koh and Kulli Koh iron ore deposits suggested that these ore deposits can be beneficiated costeffectively
by using magnetic separation techniques.

Oct 1, 2017
How to Cite
KHOSO, Sultan Ahmed; ABRO, Muhammad Ishaque; AGHEEM, Muhammad Hassa. Mineralogical Study of Zard Koh and Kulli Koh Iron Ore Deposits of Pakistan. Mehran University Research Journal of Engineering & Technology, [S.l.], v. 36, n. 4, p. 8, oct. 2017. ISSN 2413-7219. Available at: <http://publications.muet.edu.pk/index.php/muetrj/article/view/52>. Date accessed: 17 dec. 2017.