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Year 2025
 
Vol 66, Issue 6, [12 - 2025] - Full papers

Identification of well breathing phenomena in HPHT wells and technical solutions to enhance drilling efficiency in the Nam Con Son Basin

DOI:10.46326/JMES.2025.66(6).03

  • Affiliations:

    1 Zarubezhneft EP Vietnam B.V., Vietnam
    2 Hanoi University of Mining and Geology, Hanoi, Vietnam

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  • Received: 10th-Aug-2025
  • Revised: 19th-Oct-2025
  • Accepted: 13th-Nov-2025
  • Online: 1st-Dec-2025
Pages: 19 - 36
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Abstract:

Every year, the Ta-Phoi copper processing plant disposes of about 970,000 tons of tailings with an Au grade content of approximately 0.1 g/t. In the operating technology, there has not yet been consideration for recovering useful components such as gold. The amount of gold lost annually in tailing products is about 116.4 kg Au. As of 2023, the amount of sludge is 3,531,682 tons (equivalent to 353.2 kg Au). The amount of tailings after the processing is significantly large, and the Au grade content in the tailings is still relatively high. The amount of tailings is currently stored at the tailing pond, if not treated, it will waste resources and cause a risk to environmental pollution. The article presents the results of research on the chemical composition and characteristics of tailings containing Au using sieve analysis, X-ray diffraction (XRD) analysis, inductively coupled plasma mass spectrometry/atomic emission spectrometry (ICP-MS/AES) analysis and scanning electron microscopy with energy dispersive X-ray spectroscopy (SEM-EDS). The research results provide a technological direction for Au recovery using gravity separation methods (spiral, shaking table, and jig), centrifugal gravity separation (Knelson, Falcon), and flotation method. To increase the processed Au content, the products should be thoroughly treated through the leaching method using suitable chemical lixiviants to meet the safety and environmental protection requirements, following regulations in Vietnam. This is the first time that there are comprehensive studies on the material composition of copper tailings for the purpose of recovering the tailings bearing gold. The study opens up prospects for the recovery of useful minerals in the tailings of copper beneficiation plants, in particular and the tailings of the mineral processing plants in general.

How to Cite
Nguyen, T.Trong, Nguyen, V.The, Beaton, R., Nguyen, T.Van and Truong, T.Van 2025. Identification of well breathing phenomena in HPHT wells and technical solutions to enhance drilling efficiency in the Nam Con Son Basin. Journal of Mining and Earth Sciences. 66, 6 (Dec, 2025), 19-36. DOI:https://doi.org/10.46326/JMES.2025.66(6).03.
References

 Dao Q. K. (2015, 2016). Bien Dong POC End of Well reports for Hai Thach - Moc Tinh wells in block 05.2-05.3.

Tai, N.T., Khoat, L.H., Vladimir. (2015). ROSNEFT End of Well reports TTN-1X, in block 05.3/11.

Tung, T.T., Han, T.N., Thi, L.D. (2011). Well Proposals for Hai Thach - Moc Tinh and Tho Tinh Nam wells.

Baldino, S., Miska, S.Z., Ozbayoglu, E.M., Zang, J. (2019) Borehole-Breathing/Kick Dsicriminator: Diagnostic Tool and Potential Resource for In-situ Formation Characterization. SPE Drill and Compl, 34 (03): 248-267. https://doi.org/10.2118/195689-PA.

Bowman, G.R. (1989). Debate on borehole ballooning in response to Gill. Oil Gas Journal. 87 (15), 6 - 7.

Feng, Y and Gray, K. E. (2018). Numerical Modeling of Wellbore Ballooning: Linking Mud Circulation in the Wellbore and Fracture Opening/Closing in the Rock. American association of drilling engineers, AADE-18-FTCE-063, 1-7.

Gill, J. A. (1986). Charged Shales: Self-Induced Pore Pressures. SPE-14788-MS. https://doi.org/10. 2118/14788-MS.

Helstrup, O.A., Rahman, M.K., Hossain, M.M., Rahman, S.S. (2001). A Practical Method for Evaluating Effects of Fracture Charging and/or Ballooning When Drilling High Pressure, High Temperature (HPHT) Wells. SPE/IADC Drilling Conference, SPE-67780-MS, Amsterdam, Netherlands, 1-9. https://doi.org/10.2118/ 67780-MS.

Holbrook, P. (1989). Debate on borehole ballooning to explain contradictory well responses continued. Oil Gas Journal. 87 (24), 44 - 45.

Karstad, E. (1998). Analysis of Ballooning Effects During Drilling of High Pressure High Temperature Wells. European Petroleum Conference, SPE 52066-STU, 1-16. https://doi. org/10.2118/52066-STU.

ROSNEFT. (2018). End of Well reports TTN-1X - Structural and sedimentological analysis of GeoXplorer borehole images.

Silvio, B and Meng, M. (2021). Critical review of wellbore ballooning and breathing literature. Geomechanics for Energy and the Environment, 28, 1-18. https://doi.org/10.1016/j.gete.2021. 100252.

Scott, R. (2023). Geomechanical Modelling and Wellbore Stability for HTandMT Fields. Ikon.

Ward, C., Clark, R. (1998). Anatomy of a ballooning borehole using PWD. Overpressures in Petroleum Exploration; Proc. Work shop, Pau, Apr.

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