Penentuan Nilai Peak Particle Velocity Peledakan Berdasarkan Analisis Regresi Non Linear dan US Bureau Of Mines Oriard’s Formula pada Pit Pinang PT Bukit Baiduri Energi

Djuwita Dela Safitri; Tommy Trides; Agus Winarno; Albertus Juvensius Pontus; Lucia Litha Respati

doi:10.61132/venus.v3i6.1198

Penentuan Nilai Peak Particle Velocity Peledakan Berdasarkan Analisis Regresi Non Linear dan US Bureau Of Mines Oriard’s Formula pada Pit Pinang PT Bukit Baiduri Energi

Authors

Djuwita Dela Safitri Universitas Mulawarman
Tommy Trides Universitas Mulawarman
Agus Winarno Universitas Mulawarman
Albertus Juvensius Pontus Universitas Mulawarman
Lucia Litha Respati Universitas Mulawarman

DOI:

https://doi.org/10.61132/venus.v3i6.1198

Keywords:

PPV, Blasting, Non-Linear Regression, USBM Oriard’s Formula, Ground Vibration

Abstract

This research investigates the Peak Particle Velocity (PPV) resulting from blasting operations at Pit Pinang, PT Bukit Baiduri Energi, employing two prediction approaches: Non-Linear Geometric Regression and the USBM Oriard’s Formula. Ground vibration measurements were recorded over a one-month period, from October 9 to November 8, 2025. The findings indicate that the non-linear regression model achieves a higher predictive accuracy of 78.62%, outperforming the USBM Oriard’s Formula, which reaches 68.2%. Variations between the observed and estimated PPV values were affected by factors such as the location of geophones, differences in explosive charges, and alterations in borehole depths. In addition, the study evaluates optimal explosive charge recommendations in accordance with SNI 7571:2010 standards to mitigate potential structural damage in surrounding areas. By highlighting these predictive discrepancies and providing practical guidance on charge management, the research offers valuable insights for improving blasting safety and minimizing vibration impacts on nearby infrastructure. The comparison of methods emphasizes the importance of selecting appropriate prediction models to ensure both operational efficiency and environmental safety.

References

Bhandari, S. (1997). Engineering rock blasting operations. J. N. V. University.

Bolt, B. A. (1978). Earthquakes and geological discovery. W. H. Freeman.

Dowding, C. H., & Geiser, F. (1996). Construction vibration: Measurement and causes. Prentice Hall.

Fadhila, Dwinagara, B., Amri, N. A., & Rauf, A. (2022). Kajian teknis geometri peledakan untuk memenuhi target fragmentasi di lokasi penambangan batugamping PT Semen Padang. Jurnal Teknologi Pertambangan, 8(1).

Harukadol, T., & Kopa, R. (2021). Evaluasi rancangan geometri peledakan untuk mengoptimalisasikan hasil peledakan pada penambangan batu andesit di PT Bintang Sumatera Pacific, Pangkalan Koto Baru, Kabupaten Lima Puluh Kota, Provinsi Sumatera Barat. Jurnal Bina Tambang, 6(2).

Jihan, Arifin, M., & Jafar, N. (2023). Studi ground vibration pada peledakan quarry PT Vale Indonesia Tbk, Sorowako, Kabupaten Luwu Timur, Provinsi Sulawesi Selatan. Journal of Energy and Mineral Resources, 1(1). https://doi.org/10.33096/jemr.v1i1.52

Konya, C. J., & Walter, E. J. (1991). Rock blasting and overbreak control (NHI Course No. 13211). National Highway Institute.

Kramer, S. L. (1996). Geotechnical earthquake engineering. Prentice Hall.

Permana, A. R., & Heriyadi, B. (2019). Kajian pengurangan getaran tanah (ground vibration) pada peledakan overburden tambang batubara di PT Artamulia Tata Pratama, Site Tanjung Belit, Provinsi Jambi. Jurnal Bina Tambang, 4(1).

Permanda, N., & Kopa, R. (2021). Evaluasi geometri peledakan berdasarkan pengaruh perhitungan blasting index untuk mendapatkan fragmentasi ideal pada front penambangan di PT Ansar Terang Crushindo 1, Pangkalan Koto Baru, Kabupaten Lima Puluh Kota, Sumatera Barat. Jurnal Bina Tambang, 6(1).

Purwaningsih, A., Tohir, S., Rahayu, S. N., & Purwita, L. D. (2023). Kajian pengukuran getaran tanah (ground vibration) operasi peledakan di PT Semen Baturaja (Persero) Tbk. UEEJ–Unbara Environmental Engineering Journal, 3(2).

Richart, F. E., Hall, J. R., & Woods, R. D. (1970). Vibrations of soils and foundations. Prentice Hall.

Sari, H. V., Isjudarto, A., & Sidiq, H. (2020). Analisis pengaruh pola rangkaian peledakan terhadap tingkat getaran tanah di Quarry Tuban I–IV PT Semen Indonesia (Persero) Tbk, Kabupaten Tuban, Provinsi Jawa Timur. Mining Insight, 1(1).

Standar Nasional Indonesia. (2010). SNI 7571:2010—Baku tingkat getaran peledakan pada kegiatan tambang terbuka terhadap bangunan. Badan Standardisasi Nasional.

Wahyudi, A. T., & Kopa, R. (2020). Kajian teknis penentuan geometri peledakan untuk mengoptimalisasikan perolehan hasil peledakan CV Tekad Jaya, Desa Lareh Sago Halaban, Kabupaten Lima Puluh Kota, Sumatera Barat. Jurnal Bina Tambang, 5(5).

Wesson, R. L., & Perkins, D. M. (1971). Effects of vibration on structures. Bulletin of the Seismological Society of America, 61(3), 709–725.

Yudiwan, Y., Nugroho, W., & Trides, T. (2016). Analisis tingkat getaran tanah (ground vibration) akibat peledakan di Pit Kinong, PT Firman Kataun Perkasa, Kecamatan Melak, Kabupaten Kutai Barat, Kalimantan Timur. Jurnal Teknologi Mineral FT UNMUL, 4(1).

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Published

2025-12-23

How to Cite

Djuwita Dela Safitri, Tommy Trides, Agus Winarno, Albertus Juvensius Pontus, & Lucia Litha Respati. (2025). Penentuan Nilai Peak Particle Velocity Peledakan Berdasarkan Analisis Regresi Non Linear dan US Bureau Of Mines Oriard’s Formula pada Pit Pinang PT Bukit Baiduri Energi. Venus: Jurnal Publikasi Rumpun Ilmu Teknik , 3(6), 01–20. https://doi.org/10.61132/venus.v3i6.1198