Journal of Mining Engineering

Journal of Mining Engineering

Depth estimation and inversion modeling of ground magnetic data of Darreh-Ziarat Iron deposit, Kurdistan province

Document Type : research - paper

Authors
Siavash Salarian 1
Behrooz Oskooi 2
1 School of Mining Engineering, College of Engineering, University of Tehran, Tehran, Iran
2 Institute of Geophysics, University of Tehran, Tehran, Iran
10.22034/ijme.2021.524514.1851
Abstract
This research aims to investigate magnetic anomalies and Interpretation and modeling of 2D and 3D magnetic data of Iron mineralization at Darreh-Ziarat deposit in the Kurdistan province, West of Iran. For this purpose, more than 2000 survey stations were recorded. The magnetic survey has been done at profiles with a distance of 10 m and station distance of 10 m. After correcting raw data, RTP and upward continuation filters were applied to interpret magnetic data. In the next step, the anomaly depth was estimated by Euler and Euler-Analytical signal methods. The approach proposed by Li and Oldenburg was used to generate a 3D model of magnetic susceptibility property using MAG3D software. For this purpose, the study area was divided into 3D cells and one value of susceptibility was allocated to each cell. According to this model and other maps of magnetic interpretation, the mineralization trend was determined. Finally, Drilled boreholes were utilized to validate the 3D magnetic inversion model.
Keywords
Darreh-Ziarat Iron deposit
Depth Estimation
Inversion modeling
Li and Oldenburg Approach
Magnetic Interpretation
منابع Gunn, P. and M. Dentith, Magnetic responses associated with mineral deposits. AGSO Journal of Australian Geology and Geophysics, 1997. 17: p. 145-158.## یوسفی، بهرام؛ اسکوئی، بهروز؛ 1392؛ «استفاده از روش لی- اولدنبرگ در برگردان سه‌بعدی داده‌های مغناطیسی زمینی منطقه گزستان (استان یزد)»، مجله فیزیک زمین و فضا، دوره 39، شماره 1، صفحات 73-88.## فاتحی، مسلم؛ نوروزی، غلامحسین؛ اصغری، امید؛ حاجی‌ئی، فاطمه؛ 1393؛ «مدل‌سازی سه‌بعدی داده‌های مغناطیسی معدن مروارید زنجان و اعتبارسنجی آن با داده‌های حفاری اکتشافی»، مجله ژئوفیزیک ایران، سال هشتم، شماره 2، صفحات 56-69.## Oskooi, B., et al., Integrated interpretation of the magnetotelluric and magnetic data from Mahallat geothermal field, Iran. Studia Geophysica et Geodaetica, 2016. 60(1): p. 141-161.## Rahimi, H., O. Asghari, and A. Afshar, A geostatistical investigation of 3D magnetic inversion results using multi-Gaussian kriging and sequential Gaussian co-simulation. Journal of Applied Geophysics, 2018. 154: p. 136-149.## Li, Y. and D.W. Oldenburg, 3-D inversion of magnetic data. Geophysics, 1996. 61(2): p. 394-408.## هنرپژوه، جمال‌الدین؛ 1392؛ «گزارش پایان کار اکتشاف کانسار آهن دره زیارت علیا»، سازمان صنعت، معدن و تجارت استان کردستان.## Isles, D.J. and L.R. Rankin, Geological interpretation of aeromagnetic data. 2013: Society of Exploration Geophysicists and Australian Society of Exploration Geophysicists.## Reid, A.B., et al., Magnetic interpretation in three dimensions using Euler deconvolution. Geophysics, 1990. 55(1): p. 80-91.## Reid, A.B., J. Ebbing, and S.J. Webb, Avoidable Euler errors–the use and abuse of Euler deconvolution applied to potential fields. Geophysical Prospecting, 2014. 62(5): p. 1162-1168.## Al-Saud, M.M., The role of aeromagnetic data analysis (using 3D Euler deconvolution) in delineating active subsurface structures in the west central Arabian shield and the central Red Sea, Saudi Arabia. Arabian Journal of Geosciences, 2014. 7(10): p. 4361-4376.## Salem, A. and D. Ravat, A combined analytic signal and Euler method (AN-EUL) for automatic interpretation of magnetic data. Geophysics, 2003. 68(6): p. 1952-1961.## Lelièvre, P.G., Forward modelling and inversion of geophysical magnetic data. 2003, University of British Columbia.## شرکت مهندسین مشاور گئوداد؛ «نقشه پراکندگی محیط‌های مناسب و پتانسیل‌دار آهن»، سازمان زمین‌شناسی و اکتشافات مواد معدنی کشور.##

  • Receive Date 04 February 2021
  • Revise Date 30 October 2021
  • Accept Date 21 December 2021