ANALYSIS OF EXPLOSIVE ENERGY DISTRIBUTION AT PIT 7 WEST PT. MAKMUR MANDIRI UTAMA BINUNGAN SUARAN - BERAU, EAST KALIMANTAN PROVINCE

Authors

  • Mulya Gusman Padang State of University
  • Fellya Septia Fauzi Padang State of University
  • Andree Octova Padang State of University

DOI:

https://doi.org/10.30556/imj.Vol25.No2.2022.1346

Keywords:

blastability index, fragmentation, blasting geometry, R.L.Ash, VED

Abstract

Blasting geometry and blasting material filling are closely related to the rock mass characteristics and the geological conditions to obtain ideal fragmentation. Blastability Index analysis, including Description of Rock Mass, Combined Plane Spacing, Combined Plane Orientation, Specific Gravity Influencey, and Hardness, are the alternative geometry experiment conducted to overcome the problem of rock fragmentation so that the speed of excavation equipment can increase according to the productivity of Komatsu PC2000 plan at PT. BUMA Jobsite BINSUA. Furthermore, the actual rock values obtained from blasting location and alternative geometry recommendations using R.L.Ash theory combined with Vertical Energy Distribution theory. In the C2 layer with a rock factor value of 5.95, the recommended load is 7.2 m, space is 8.3 m, and the VED explosive power is 48%. In layer D2 the rock factor value is 6.89 with a load of 7.5 m, space of 8.3 m, and 55% VED explosive charge. While in the DU layer, the rock factor value is 6.39 with a load of 7.3 m, 8.4 m space, and 51% VED filling of explosives. Prediction of blasting fragmentation analysis using Kuz-ram theory obtained fragmentation > 100 cm, namely 14.99% for the C2 layer, 14.84% for the D2 layer, and 14.82% for the DU layer.

References

Ananda, N. N. and Anaperta, Y. M. (2019) ‘Evaluasi efisiensi alat gali-muat terhadap produktivitas setelah delay shift change pada pembongkaran overburden bulan Februari 2019 di pit AB RTS (Roto South) Tambang Batubara PT. Bukit Makmur Mandiri Utama Jobsite PT. Kideco Jaya Agung’, Jurnal Bina Tambang, 4(4), pp. 1–12.

Bhandari, S. (1997) Engineering rock blasting operations. Rotterdam: A.A. Balkema.

Hidayat, S. (2021) ‘Environmental impacts of open pit mining blasting: Particular discussions on some specific issues’, Journal of Mining and Environmental Technology, 1(1), pp. 1–11.

Hidayattullah, S. and Heriyadi, B. (2019) ‘Rancangan geometri peledakan untuk mencapai target fragmentasi ideal berdasarkan nilai Blastibility Index pada Tamka PT. Allied Indo Coal Jaya Kota Sawahlunto’, Jurnal Bina Tambang, 4(3), pp. 1–11.

Hustrulid, W. A. (1999) Blasting principles for open pit mining , Volume 1 - General design concepts. New York: A.A. Balkema.

Koesnaryo, S. (2001) ‘Teknik peledakan buku I dan II’. Yogyakarta: UPN “Veteran” Yogyakarta.

Lilly, P. A. (1987) ‘An empirical method of assessing rock mass blastability’, in Large Open Pit Mining Conference, Newman. Australasian Institute of Mining and Metallurgy, pp. 89–92.

Naveen, G. C., Balachander, R., Gopinath, G. P. and Venkatesh, H. S. (2016) ‘Controlled blasting in proximity to urban residential structures’, in Proceedings of the conference on Recent Advances in Rock Engineering (RARE 2016). Paris, France: Atlantis Press, pp. 522–529. doi: 10.2991/rare-16.2016.84.

Priest, S. D. and Hudson, J. A. (1976) ‘Discontinuity spacings in rock’, International Journal of Rock Mechanics and Mining Sciences & Geomechanics Abstracts, 13(5), pp. 135–148. doi: 10.1016/0148-9062(76)90818-4.

Putri, M. (2018) Optimasi geometri peledakan untuk mencapai target fragmentasi dan diggability dalam pemenuhan target produktivitas ore di Pit Durian Barat dan Pit South Osela Site Bakan PT J Resources Bolaang Mongondow Sulawesi Utara. Universitas Negeri Padang.

Saptono, S., Koesnaryo, S., Dwinagara, B. and Hariyanto, R. (2016) ‘Rock blasting technique 1’. Yogyakarta: UPN “Veteran” Yogyakarta.

Segaetsho, G. and Zvarivadza, T. (2019) ‘Application of rock mass classification and Blastability Index for the improvement of wall control: a hard-rock mining case study’, Journal of the Southern African Institute of Mining and Metallurgy, 119(1), pp. 31–40. doi: 10.17159/2411-9717/2019/v119n1a4.

Sugiyono (2014) Memahami penelitian kualitatif. Bandung: Alfabeta.

Zhang, Z.-X., Hou, D.-F., Guo, Z. and He, Z. (2020) ‘Laboratory experiment of stemming impact on rock fragmentation by a high explosive’, Tunnelling and Underground Space Technology, 97, p. 103257. doi: 10.1016/j.tust.2019.103257.

Downloads

Published

2022-12-19

Issue

Vol. 25 No. 2 (2022): INDONESIAN MINING JOURNAL, Vol. 25 No. 2, October 2022

Section

ARTICLE

License

Indonesian Mining Journal provides immediate open access to its content on the principle that making research freely available to the public to supports a greater global exchange of knowledge.


Creative Commons License
This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License.