This research focuses on analyzing the stability of three types of retaining walls cantilever, gravity, and sheet pile to address landslide risks along the Enim River in Tanjung Karangan Village, Muara Enim Regency. The village is prone to landslides due to high riverbanks and unstable soil conditions exacerbated by erosion and settlement encroachment. To mitigate these risks, retaining walls are crucial in maintaining slope stability and preventing further erosion. The study utilized Windows Forms methods to perform numerical simulations and evaluate key factors such as the safety factor, sliding resistance, overturning resistance, bearing capacity, and material strength of the designed walls. The cantilever retaining wall design proved effective, achieving safety factors for overturning (1.80), sliding (1.51), and bearing capacity (1.31), making it suitable for implementation at the study location. However, the gravity retaining wall, despite meeting safety requirements for overturning (1.72) and bearing capacity (1.35), failed in sliding, with a safety factor of 1.49, indicating it is not appropriate for this case due to insufficient sliding resistance. The analysis of the sheet pile retaining wall focused on embedment depth and material quality. A steel sheet pile with a length of 9 meters, an embedment depth of 4.82 meters, and material properties of Fy = 450 MPa and E = 2.1 x 10⁵ MPa was determined to be a feasible solution. The findings conclude that both cantilever and sheet pile retaining walls can effectively mitigate slope instability and riverbank erosion, while the gravity retaining wall is not suitable for the given conditions. These results provide valuable insights for future infrastructure development in landslide-prone areas.

BPS Kabupaten Muara Enim, “Kabupaten Muara

Enim Dalam Angka [Muara Enim Regency in

Figures],” vol. 34, pp. 1–392, 2024.

N. Anggraini, “Analisis Stabilitas Lereng Dengan

Metode Elemen Hingga (Studi : Proyek New

Priok Container Terminal),” Bear. J. Penelit. dan

Kaji. Tek. Sipil, vol. 8, no. 1, p. 1, 2023, doi:

32502/jbearing.v8i1.6260.

C. Liu et al., “Stability Analysis of Retaining Wall in

Backfilled Stope Based on Catastrophe Theory

and Numerical Analysis,” Geofluids, vol. 2024,

, doi: 10.1155/2024/6631646.

Gumilar, M. S. (2022). Tanah Longsor dan upaya

penanganannya. Media Sarana Sejahtera: Solo.

M. S. Gumilar and R. Marpen, “Analisis Kegagalan

dan Upaya Perbaikan Dinding Penahan Tanah,

Studi Kasus : Dinding Penahan Tanah Desa

Muara Lawai, Kab. Lahat.,” 26th Annu. Natl.

Conf. Geotech. Eng., no. November 2022, 2022.

H. C. Hardiyatmo, “Tanah Longsor dan Erosi,” Gadjah

Mada Univ. Press, p. 450, 2006.

M. F. R. Hasan, A. Salimah, A. Susilo, A. Rahmat, M.

Nurtanto, and N. Martina, “Identification of

Landslide Area Using Geoelectrical Resistivity

Method as Disaster Mitigation Strategy,” Int. J.

Adv. Sci. Eng. Inf. Technol., vol. 12, no. 4, pp.

–1490, 2022, doi:

18517/ijaseit.12.4.14694.

A. Susetyaningsih and A. I. Nurhakim, “Analysis of

Landslide Prone Areas as the Basis for Landslide

Disaster Mitigation in Bungbulang District of

Garut Regency,” IOP Conf. Ser. Earth Environ.

Sci., vol. 1104, no. 1, 2022, doi: 10.1088/1755-

/1104/1/012033.

M. Y. Fattah, H. H. Hussein, M. F. Aswad, and R. E.

Hamdi, “Studying the lateral displacement of

retaining wall supporting sandy soil under

dynamic loads,” Open Eng., vol. 14, no. 1, 2024,

doi: 10.1515/eng-2022-0553.

D. Thomson and A. Prihatiningsih, “Analisis

Perbandingan Jenis Dinding Penahan Tanah Pada

Tanah Gambut,” JMTS J. Mitra Tek. Sipil, vol. 4,

no. 3, p. 695, 2021, doi:

24912/jmts.v0i0.12615.

Muhammad, Idrus, & Darjanto, H. (2015). Kasus

Kegagalan Konstruksi Dinding Penahan Tanah

Rumah Mewah di Anas Tanah Lunak. Narotama

Jurnal Teknik Sipil, 1(2), 1–10.

Ericsson, E., & Makarim, C. A. (2019). Analisis

Kegagalan Desain Retaining Wall Pada Tanah

Dengan Kepadatan Lepas Lunak Sampai Sedang.

JMTS: Jurnal Mitra Teknik Sipil, 2(3), 173.

https://doi.org/10.24912/jmts.v2i3.5821