Analysis of Disposal Slope Safety Factor in Determining the Safe  Distance of Dumping Sequence at Disposal X in Sorowako Area, East Luwu Regency, South Sulawesi Province

Putri Nur; Busthan Azikin

doi:10.58227/jge.v4i2.261

Analysis of Disposal Slope Safety Factor in Determining the Safe Distance of Dumping Sequence at Disposal X in Sorowako Area, East Luwu Regency, South Sulawesi Province

Authors

Putri Nur Hasanuddin University
Busthan Azikin Hasanuddin University

DOI:

https://doi.org/10.58227/jge.v4i2.261

Keywords:

Slope, RMR, SMR, Scanline, Landslide, Safety Factor

Abstract

Slope stability assessment is essential in open discharge designs to prevent failure during discharge operations. This study investigated the safety factors of the disposal slope to determine the safe disposal sequence distance at Disposal X, Sorowako, South Sulawesi, Indonesia. Stability evaluation was carried out using the Limit Equilibrium Method with the Morgenstern–Price formulation at GeoStudio SLOPE/W 2022. The analysis incorporates slope geometry, laboratory-tested geotechnical parameters, equipment-induced soil pressure, and topographic data. Three representative cross-sections were analyzed to identify critical conditions. Preliminary results show that the calculated safety factor is below the minimum regulatory requirement of 1.3. Therefore, design adjustments are applied by modifying the elevation of the slope sequence and controlling the discharge distance. After the redesign, the safety factor increased to 1,360, 1,362, and 1,374, indicating stable conditions. The optimized configuration meets regulatory standards and provides a reliable technical reference for safe disposal operations in the disposal area.

References

Aprilia, J., Dicky, M., Zulfiadi, Z., & Osmon, T. (2019). Evaluasi kestabilan lereng tambang batubara Pit

“XY” menggunakan metode kesetimbangan batas PT Bukit Asam Tbk. Padjadjaran Geoscience Journal, 3(3).

Arif, N. (2016). Analisis faktor keamanan geometri lereng disposal dan mengetahui jumlah volume disposal. Jurnal Geomine, 4(3).

Arif Irwandi. (2016). Geoteknik tambang. Gramedia Pustaka Utama.

Azizi, M. A. (2014). Pengembangan metode penentuan reliabilitas kestabilan lereng tambang terbuka di Indonesia (Disertasi doktoral, Institut Teknologi Bandung).

Azizi, M. A., Nas, C., & Oktavia, D. (2018). Pengaruh geometri lereng terhadap perolehan batubara tertambang di PT Arutmin Indonesia Site Kintap Kalimantan Selatan. Dalam Seminar Nasional Pakar ke-1 Tahun 2018.

Badan Standardisasi Nasional. (2017). SNI 8460:2017 Tata cara perencanaan geoteknik. BSN.

Bowles, J. E., & Johan, K. H. (1991). Sifat-sifat fisik dan geoteknis tanah (Mekanika tanah) (Edisi ke2). Erlangga.

Cahyo, R. D. (2024). Analisis faktor keamanan lereng disposal dalam penentuan arah dan jarak aman sequence dumping pada IPD BC3, PT Arutmin Indonesia Tambang Kintap, Kalimantan Selatan (Skripsi sarjana, Universitas Hasanuddin).

Caterpillar Inc. (2002). Caterpillar performance handbook. Caterpillar Inc.

Caterpillar Inc. (2007). Off-highway truck 785C. Caterpillar Inc.

Das, B. M. (2010). Principles of geotechnical engineering (7th ed.). Cengage Learning.

Fajrin, D., Amalia, R., Anas, A. V., & Alimuddin, H. (2019). Perencanaan disposal semi induced flow dan finger flow di PT Vale Indonesia Tbk, Kabupaten Luwu Timur, Provinsi Sulawesi Selatan. Jurnal Penelitian Enjiniring, 23(2), 170–176.

Golightly, J. P. (1979). Geology of Soroako nickeliferous laterite deposit. INCO Metals Company.

Herlambang, Rizka, S., Mryanto, & Indra, K. W. (2020). Analisis kestabilan lereng disposal menggunakan metode kesetimbangan batas di tambang terbuka nikel, Kabupaten Konawe, Provinsi Sulawesi Selatan. Dalam Prosiding Teknik Pertambangan.

Hoek, E., & Bray, J. W. (1981). Rock slope engineering (3rd ed.). The Institution of Mining and Metallurgy.

Kementerian Energi dan Sumber Daya Mineral. (2018). Keputusan Menteri ESDM Nomor 1827/K30/MEM/2018 tentang pedoman pelaksanaan kaidah teknik pertambangan yang baik.

Kumarawarman, B. (2016). Engineering geology of Sorowako and Petea. PT Vale Indonesia Tbk.

Pangemanan, V. G. M., Turangan, A. E., & Sompie, O. B. A. (2014). Analisis kestabilan lereng dengan metode Fellenius (Studi kasus: Kawasan Citraland). Jurnal Sipil Statik, 2(1), 37–46.

Parker, J. V., & Means, R. V. (1974). Soil mechanics and foundation. Prentice Hall of India.

PT Vale Indonesia Tbk. (2018). Management disposal. PT Vale Indonesia Tbk.

Pusat Studi Gempa Nasional. (2017). Peta sumber dan bahaya gempa Indonesia tahun 2017. Kementerian PUPR.

Rohman, M. A., Arief, R., & Harimurti. (2022). Analisis stabilitas lereng di KM 258 Ponorogo–Pacitan menggunakan metode rock mass rating (RMR). Jurnal Teknik Sipil.

Simandjuntak, T. O., Rusmana, E., Surono, & Supandjono, J. B. (1991). Geologi lembar Malili, Sulawesi. Pusat Penelitian dan Pengembangan Geologi.

Simanjuntak, T. O. (1993). Neogene plate convergence in eastern Sulawesi. Jurnal Geologi dan Sumberdaya Mineral, 8(25), 2–15.

Sugesti, D. B. (2019). Analisis deformasi dan stabilitas lereng dengan variasi geometri dan perkuatan geotekstil pada proyek gedung Fakultas Hukum UII (Skripsi sarjana, Universitas Islam Indonesia).

Sukamto, R. (1975). Geologi Sulawesi. Direktorat Jenderal Geologi dan Sumber Daya Mineral.

Takwin, G. A., Turangan, A. E., & Rondonuwu, S. G. (2017). Analisis kestabilan lereng metode Morgenstern–Price (Studi kasus: Diamond Hill Citraland). Tekno, 15(67).

Yovita, A. (2024). Analisis kestabilan lereng disposal Lembo East 02 PT Vale Indonesia Tbk tipe semi induced flow dan induced flow sebagai acuan penentuan batas dumping yang aman (Skripsi sarjana, Universitas Hasanuddin).

Zakaria, Z. (2009). Diklat kuliah analisis kestabilan lereng tanah. Universitas Padjadjaran

Downloads

Published

2025-12-31

How to Cite

Nur, P., & Azikin, B. (2025). Analysis of Disposal Slope Safety Factor in Determining the Safe Distance of Dumping Sequence at Disposal X in Sorowako Area, East Luwu Regency, South Sulawesi Province. Journal of Geology and Exploration, 4(2), 55–65. https://doi.org/10.58227/jge.v4i2.261