Slope stability is generally a critical concern in maintaining daily mining operations, as instability can disrupt activities and result in material losses or even fatalities. In designing an open-pit mine, it is essential to conduct slope stability analysis to ensure both safety and economic efficiency. This study focuses on optimizing slope stability analysis at PT Bukit Asam (Persero) Tbk, specifically in the Banko Barat Pit 2 area, using the Bishop Simplified method. The analysis was conducted using GeoSlope 2007/Slope W software to design and optimize a safe excavation slope by incorporating secondary data obtained from PT Bukit Asam, including mining design parameters (slope geometry) and the physical and mechanical properties of the rock, such as density, cohesion, and internal friction angle. The optimization results indicated that cross-sections A-A', C-C', and D-D' could accommodate an additional 3 benches. Cross-section B-B' was also optimized by adding 3 benches downward. The safety factor (SF) values for the first and second optimization scenarios showed stable slope conditions. However, for the third optimization (overall slope), the SF values indicated a marginal or risky condition. Cross-section E-E' could be optimized by adding 5 benches downward, and all five cross-sections remained in a stable condition.

 

Keywords: Safety Fctor, Slope Stability, Bishop Simplified Method, Optimization, GeoSlope 2007/Slope W software

Agbelele, D., Kinsley, E., & Sam, T. (2024). Limit equilibrium versus finite-element methods for open-pit slope stability: A case study in Indonesia. International Journal of Mining Science & Technology, 34(1), 45–58. https://doi.org/10.1016/j.ijmst.2023.10.005

Arisa Rizika Isdianti, Ibrahim, E., & Setiawan, B. (2022). Soil erodibility in post coal mining land reclamation area in backfilling Mtbu Air Laya Tambang (TAL) PT Bukit Asam Tbk, Tanjung Enim Mining Unit, Muara Enim, South Sumatera. Jurnal Geografi Gea, 22(1), 47–54. https://doi.org/10.17509/gea.v22i1.44799

E3S Web of Conferences. (2020). Relationship between pit slope design and coal reserve estimation in PT Bukit Asam open-pit operations. In Proceedings of ICST 2020 (Vol. 200, Article 02021). https://doi.org/10.1051/e3sconf/202020002021

Hua, J., Li, X., Cao, C., Li, M. (2024). Stability analysis and optimization design of composite slopes in open-pit mines: A case from China. Mining Science and Technology, 45(3), 207–220.

Isleyen, E., Duzgun, S., & Carter, M. R. (2020). Roof fall hazard detection with convolutional neural networks using transfer learning. arXiv. https://doi.org/10.48550/arXiv.2012.03681

Li, S., Nguyen, H., Bui, X.-N., & Hanh, L. T. M. (2022). Slope stability analysis based on the Bishop model under GeoStudio environment: combining limit equilibrium, neural networks, and optimization. Geotechnical Computing Review, 12(5), 78–92.

Najib, N., Belia, N. P., Hidayatillah, A. S., & Nugroho, K. S. A. (2024). Coal mine slope stability analysis using RMR, SMR, and Morgenstern–Price limit equilibrium for the low-wall pit area Y PT. Bina Sarana Sukses, Lahat Regency, South Sumatra. TEKNIK, 45(2), 170–182. https://doi.org/10.14710/teknik.v45i2.57786

Ramadhan, D. H., Toha, M. T., & Purbasari, D. (2021). Optimization of disposal overall slope stability in West Banko Coal Mine Pit 2, PT Bukit Asam Tbk, South Sumatra. (Unpublished undergraduate thesis). Universitas Sriwijaya.

Rahmatullah, A., Siregar, E., Wiratama, J., Prabawa, A. D., Zahar, W., & Adhitya, B. (2024). Slope deformation analysis using Slope Stability Radar (SSR) at Pit 2 West Banko Barat PT Bukit Asam Tbk. Jurnal Teknik Kebumian, 11(2), 33–48. https://doi.org/10.22437/jtk.v11i02.32843

Sepriadi, S., & Adiwarman, M. (2024). Highwall slope stability analysis using Morgenstern–Price method at Banko Barat Pit 2, PT Bukit Asam Tbk. Jurnal Ilmiah Teknik dan Sains, 2(2), 66–73.

Simanjuntak, D. W., Fahraini, F., & Indriawati, A. (2020). Single slope stability analysis using Fellenius and Slide v6.0 and overall slope with GeoStudio 2012 at Pit I Banko Barat PT Bukit Asam (Persero) Tbk. Mineral, 3(1), 50–57.

Thiruchittampalam, S., Shanmugalingam, K., Banarjee, B. P., Glenn, N. F., & Raval, S. (2024). A comparative study of traditional and transfer learning–enhanced machine learning algorithms for geotechnical characterisation of coal spoil. arXiv. https://doi.org/10.48550/arXiv.2401.01969

Triezaputera, M. T., & Kristyanto, T. H. W. (2023). Analysis of slope stability on OHL Banko Tengah road, coal mining area of PT Bukit Asam Tanjung Enim. (Unpublished thesis). Universitas Indonesia.

Wijayanto, T. (2020). Comparison of coal reserve estimation methods and slope stability analysis at PT Bukit Asam. Journal of Applied Geology, 46, 40–54.

Xilin Gol case. (2024). Stability analysis and optimization design of composite slopes in open-pit mines. Mining Technology, 12(3), 105–115.

AIP Conference Proceedings. (2021). Effects of groundwater level on slope stability of open pit coal mine. AIP Conference Proceedings, 2363.

ACG. (2020). Slope Stability 2020: Proceedings of the International Symposium on Slope Stability in Open-Pit Mining. Australian Centre for Geomechanics.

GeoStudio International Ltd. (2022). Stability modeling with SLOPE/W [PDF]. Seequent.

Connected Papers. (2024). GeoStudio publications review. Retrieved March 2025, from https://www.connectedpapers.com

Rocscience. (2020). Slide v6 software manual for slope stability analysis.