Determination of borders of structure related to deep minerals based on potential field data in Ba Na area

  • Affiliations:

    1 Hanoi University of Mining and Geology, Hanoi, Vietnam
    2 The Vietnam Geological Department, Hanoi, Vietnam

  • *Corresponding:
    This email address is being protected from spambots. You need JavaScript enabled to view it.
  • Received: 8th-Nov-2023
  • Revised: 28th-Feb-2024
  • Accepted: 15th-July-2024
  • Online: 1st-Aug-2024
Pages: 54 - 66
Views: 808
Downloads: 9
Rating: , Total rating: 0
Yours rating

Abstract:

This paper presents the research results of applying method two-dimensional energy filtering method in the «live window» to separate the high-frequency component of aeromagnetic data in order to eliminate residual flight line errors with amplitude ranges from -5÷5 nT and correct the data source before processing and analysis of data, identify potential field residual anomalies at depths h = 470 m, 1100 m, 1700 m, 2300 m. Application of the horizontal gradient of the vertical derivative of the potential field at various depths to determine the position of shallow fault systems, and determine the boundaries of local heterogeneous blocks related to the prospect of deep-hidden minerals at depths h = 470 m, 1100 m, 1700 m, 2300 m in Ba Na area. The results of the analysis of residual magnetic anomalies have built the distribution diagram of the shallow fault system buried by sediments and zoning the mineral prospect according to the potential anomaly in the study area. Fault system includes faults in sub-latitude, sub-longitude, and Northeast-Southwest directions, in which the sub-latitude fault system is dominant. The area of mineral prospect in Ba Na area to a depth h = 2300 m is determined by the maximum value of horizontal gradient vertical derivative of the closed loop residual gravity anomaly field with amplitude >0.007 mGal/m2, combined with residual gravity anomaly value, and location of mineral points have been revealed on the surface, prospective areas are mainly concentrated in the west, northwest, and southeast of the study area. The results of the analysis provided Geophysicists and Geologists with detailed research plans to evaluate specific types of minerals in the Ba Na area.

How to Cite
Phan, H.Thi, Kieu, T.Duy, Do, P.Minh and Tran, H.Van 2024. Determination of borders of structure related to deep minerals based on potential field data in Ba Na area. Journal of Mining and Earth Sciences. 65, 4 (Aug, 2024), 54-66. DOI:https://doi.org/10.46326/JMES.2024.65(4).06.
References

Blakely, R. J. (1996). Potential theory in gravity and magnetic applications. Cambridge University Press. 197 pages. https://www.cambridge.org/ core/books/potential-theory-in-gravity-and-magnetic-applications/348880F23008E16E66 3D6AD14A41D8DE.

Cordell, L. (1979). Gravimetric expression of graben faulting in Santa Fe country and the Espanola Basin, New Mexico. In New Mexico Geological Society Guidebook, 30th Field Conference, 59-64. https://www.scirp.org/(S (lz5mqp453edsnp55rrgjct55))/reference/ReferencesPapers.aspx?ReferenceID=1323561.

Fedi, M., and Florio, G. (2001). Detection of potential fields source boundaries by enhanced horizontal derivative method. Geophysical prospecting, 49(1): 40-58. https:// doi.org/10.1046/j.1365-2478.2001.00235.x.

Geosoft, (2008). Ver. 7.01: Manuals, Tutorials, and Technical Notes. Geosoft inc.

Hong, T. P., Petrov, A. V., Phuong, M. D., Luu, T. N. (2021). Geological region by multi-signal method of gravity anomaly data in central area of Vietnam. Journal of Mining and Earth Sciences, 62(5). 43-55. http://tapchi.humg.edu.vn/images/paper/2021/62_5/04.%20Phan%20Thi%20Hong%2043%20-%2054.pdf.

http://www.coscad3d.ru/index.php.

http://www.geosoft.com.

https://topex.ucsd.edu/cgi-bin/get_data.cgi.

https://www.generic mapping-tools.org/ download/.

https://www.ncdc.noaa.gov.

Nguyen, N. T., Bui, V. N., Nguyen, T. T. H. (2014). Determining the depth to the magnetic basement and fault systems in Tu Chinh - Vung May area by magnetic data interpretation. Journal of Marine Science and Technology. 14(4A). 16-25. DOI: 10.15625/ 1859-3097/14/4A/6027.

Nguyen, T. L. (2000a). Flight measured from the 1:50,000 scale gamma spectrum and 1: 100 000 scale gravity measurement in the central region of Vietnam. Center for Information, Geological Archives, Hanoi, 157 pages. (in Vietnamese).

Nguyen, X. S. (2000b). Flight results measured from 1: 50,000 scale gamma spectrum and measured in Kon Tum area. Center for Information, Geological Archives, Hanoi, 174 pages. (in Vietnamese).

Nikitin A. A., Petrov A. V., (2008). Theoretical foundations of geophysical information processing. Science and Technology Publishing House. Moscow, Russia, 127 pages. (in Russian) https://www.geokniga.org/book files/geokniga-nikitinteorosnovygeofizinfo 2008.pdf.

Nikitin, A. A., Zinovkin, S. V, Petrov, A. V., Piskun, P. V. (2006). Adaptive techniques for identifying inhomogeneous geological objects in geophysical fields. Geology and exploration, UDK 550.834, no. 3, 50-56. (in Russian) https://elibrary.ru/item.asp?id=20781243.

Petrov, A. V. (2018). Adaptive processes handle the interpretation of non-permanent geographic fields in "KOSKAD-3D" computer technology. International Scientific Conference, April 1-2, MGRI-RGRU, Moscow, Russia, volume 1, 418-420. (in Russian) https:// mgri.ru/science/scientific-practical-conference/2018-doc/tom1_compressed.pdf.

Petrov, A. V., Yudin, D. B., Soeli Hou, (2010). Processing and interpretation of geophysical data using a probabilistic-statistical approach using computer technology "KOSKAD 3D". Earth science. UDK 551-214, no. 2, 126-132. (in Russian) http://www.kscnet.ru/kraesc/ 2010 /2010_16/art13.pdf.

Phan, T. H., Petrov, A. V., Do, M. P. (2021). Application of the 2D filtering algorithm in the sliding window of the "living" form on the example of central Vietnam. XV international scientific and practical conference "New ideas in the earth sciences", MGRI-RGGRU. volume 4, 339-343. https://mgri.ru/science/scientific-practical-conference/2021/%D0%A2%D0% BE%D0%BC%204.pdf.

Verduzco, B., Fairhead, J. D., Green, C. M., and MacKenzie, C. (2004). New insights into magnetic derivatives for structural mapping. The Leading Edge, 23(2), 116-119.https://doi. org/10.1190/1.1651454.

Other articles