Journal of Geological Sciences and Applied Geology

South Tambang Air Laya Disposal is an inpit disposal located in an active tectonic area adjacent to the active Sumatran Fault Zone. Area's support this with a peak acceleration value of 0.2 – 0.25. One of the causes of liquefaction is the presence of shocks or earthquakes. For this reason, it is necessary to analyze the liquefaction potential to determine the liquefaction potential, especially in the disposal material and the disposal foundation of the research area. The method used in this research is the Waste Dump Stability Rating Hazard Classification System; this method is used to assess the liquefaction potential at the disposal, divided into two parts, namely the liquefaction potential at the foundation and the liquefaction potential at the disposal material. The data used in this research include secondary data from seismic factor data, South Sumatra earthquake zone data, South Sumatra liquefaction zone data, and laboratory test results of disposal foundations. In addition, data on the results of physical and mechanical properties of the disposal material were used in the form of grain size gradation data and data from plasticity test results. All the data used shows that the liquefaction potential of the disposal foundation is included in a negligible category with a rating value of 0. Meanwhile, the potential for liquefaction of disposal material is included in the low category with a rating value of -2.5, which must still be considered to avoid unexpected things that can occur.

Boulanger, R. W., & Idriss, I. M. (2006). Liquefaction Susceptibility Criteria for Silts and Clays. Journal of Geotechnical and Geoenvironmental Engineering, 132(11), 1413–1426. https://doi.org/10.1061/(ASCE)1090-0241(2006)132:11(1413)

Buana, T. W., Hermawan, W., Rahdiana, R. N., Wahyudin, R. W., Hasibuan, G., Wiyono, & Sollu, W. P. (2019). Atlas Zona Kerentanan Likuefaksi Indonesia (Andiani & Sugalang, Eds.; First). Badan Geologi.

Hakam, A., & Darjanto, H. (2013). Penelusuran Potensi Likuifaksi Pantai Padang Berdasarkan Gradasi Butiran dan Tahanan Penetrasi Standar. Jurnal Teknik Sipil, 20(1), 33.

Hawley, M. (2017). Waste dump and stockpile stability rating and hazard classification system. In M. Hawley & J. Cunning (Eds.), Guidelines For Mine Waste Dump and Stockpile Design (Vol. 1, pp. 29–54).

Pusat Vulkanologi dan Mitigasi Bencana Geologi. (2013). Peta Kawasan Rawan Bencana Gempa Bumi, KRB Gempa SUMSEL. Https://Vsi.Esdm.Go.Id/Gallery/Picture.Php?/252/Category/18.

Subowo G. (2011). Penambangan Sistem Terbuka Ramah Lingkungan dan Upaya Reklamasi Pasca Tambang untuk Memperbaiki Kualitas Sumberdaya Lahan dan Hayati Tanah Biodiversity. Jurnal Sumberdaya Lahan, 5(2), 83–94.

Tim Pusat Studi Gempa Nasional. (2017). Peta Sumber dan Bahaya Gempa Indonesia Tahun 2017 (M. Irsyam, S. Widiyantoro, D. H. Natawidjaja, I. Meilano, A. Rudyanto, S. Hidayati, W. Triyoso, N. R. Hanifa, D. Djarwadi, L. Faizal, & Sunarjito, Eds.; Pertama). Pusat Penelitian dan Pengembangan Perumahan dan Pemukiman, Kementerian PUPR.