The Preliminary Sedimentation Pattern Study in West Borneo NPP Potential Site

https://doi.org/10.22146/ijg.76686

Euis E Alhakim(1*), Theo A Ryanto(2), Heni Susiati(3), Hadi Suntoko(4)

(1) Research Center for Nuclear Reactor Technology, National Research and Innovation Agency, Indonesia
(2) Research Center for Nuclear Reactor Technology, National Research and Innovation Agency, Indonesia
(3) Directorate of Environment, Maritime, Natural Resources, and Nuclear Policy, Research and National Innovation, Indonesia
(4) Research Center for Nuclear Reactor Technology, National Research and Innovation Agency, Indonesia
(*) Corresponding Author

Abstract


Coastal environmet dynamics study is one of the NPP site feseability studies that need to be conducted to understand the potential external risk in an NPP development. The Pantai Gosong area was the preferred potential site for the NPP development and was located in the coastal area. Therefore, external factors such as abrasion or sedimentation would influence the NPP site. This research studied the sedimentation pattern of the Pantai Gosong coastal area based on the landform analysis. The results showed that the landform in the Pantai Gosong area was classified as a highly eroded hill, lowly eroded footplain, natural levee-back swamp, beach ridge, alluvial plain, and coastal alluvial plain. The sedimentation process in the northern coastal area of Pantai Gosong that has lowly eroded footplain landform was more intense than in the southern part. The analysis was well correlated with the estimated sediment thickness from the microtremor method analysis that showed that the northern coastal area has higher sediment deposits with 12.7 to 21.7 m of thickness than the southern coastal area with 3.2 to 12.6 m thickness. The northern footplain in the Pantai Gosong coastal area was expected to have higher sedimentation than the southern part continuously


Keywords


Sedimentation, Coastal, NPP site

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References

A, Euis Etty, Heni Susiati, and Sunarko. (2019). “Analisis Spasial Awal Lokasi Calon Tapak Pltn Di Kalimantan Barat.” Prosiding Seminar Nasional Infrastruktur Energi Nuklir 173–79.

Bachri, S., Sumarmi, L. Y. Irawan, and M. N. Fathoni. (2021). “Mapping Geomorphological Environments of Bendo Watershed Ijen Mountain, Banyuwangi East of Java.” IOP Conference Series: Earth and Environmental Science 683(1). doi: 10.1088/1755-1315/683/1/012006.

BAPETEN. (2014). Peraturan Kepala BAPETEN Nomor 6 Tahun 2014 Tentang Evaluasi Tapak Intanlansi Nuklir Untuk Aspek Meteorologi Dan Hidrologi.

BAPETEN. (2018). Peraturan Badan Pengawas Tenaga Nuklir Republik Indonesia Nomor 4 Tahun 2018 Tentang Ketetntuan Keselamatan Evaluasi Tapak Instalansi Nuklir.

Brandolini, Pierluigi, Andrea Mandarino, Guido Paliaga, and Francesco Faccini. (2020). “Anthropogenic Landforms in an Urbanized Alluvial-Coastal Plain (Rapallo City, Italy).” Journal of Maps 00(0):1–12. doi: 10.1080/17445647.2020.1793818.

Dibyosaputro, Suprapto. (2015). “Landform Control on Settlement Distribution Pattern in Progo Delta, Indonesia.” Indonesian Journal of Geography 47(2):187–93. doi: 10.22146/indo.j.geog,9264.

DiPietro, Joseph A. (2013). “Landscape Evolution in the United States.” Landscape Evolution in the United States. doi: 10.1016/C2011-0-05551-5.

Iswanto, Eko Rudi, Theo Alvin Ryanto, Hadi Suntoko, and Slamet Suryanto. (2020). “Estimasi Profil Kecepatan Gelombang Geser.” Pp. 347–53 in Prosiding Seminar Nasional Teknologi Energi Nuklir 2020.

Listyani R.A., T. (2019). “Criticise of Van Zuidam Classification : A Purpose of Landform Unit.” 2019(November):332–37.

Van Loon, A. J. To., M. Moretti, M. Tropeano, P. Acquafredda, R. Baldacconi, V. Festa, S. Lisco, G. Mastronuzzi, V. Moretti, and R. Scotti. (2017). Tracing the Source of the Bio/Siliciclastic Beach Sands at Rosa Marina (Apulian Coast, SE Italy). Elsevier Inc.

Minár, Jozef, and Ian S. Evans. (2008). “Elementary Forms for Land Surface Segmentation: The Theoretical Basis of Terrain Analysis and Geomorphological Mapping.” Geomorphology 95(3–4):236–59. doi: 10.1016/j.geomorph.2007.06.003.

Nakamura, Yutaka. (1989). “Method for Dynamic Characteristics Estimation of Subsurface Using Microtremor on the Ground Surface.” Quarterly Report of RTRI (Railway Technical Research Institute) (Japan) 30(1):25–33.

Parolai, S., P. Bormann, and C. Milkereit. (2002). “New Relationships Between Vs, Thickness of Sediments, and Resonance Frequency Calculated by the H/V Ratio of Seismic Noise for the Cologne Area (Germany).” Bulletin of the Seismological Society of America 92(6):2521–27. doi: 10.1785/0120010248.

Poggi, V., B. Edwards, and D. Fäh. (2012). “The Quarter-Wavelength Average Velocity: A Review of Some Past and Recent Application Developments.” in In Proceedings of the 15th World Conference on Earthquake Engineering. Vol. No. 4242. Lisboa.

Ryanto, Theo A., Eko R. Iswanto, Yuni Indrawati, Abimanyu B. W. Setiaji, and Hadi Suntoko. (2020). “Sediment Thickness Estimation in Serpong Experimental Power Reactor Site Using HVSR Method.” Jurnal Pengembangan Energi Nuklir 22(1):29–37.

Seht, Malte Ibs Von, and Jürgen Wohlenberg. (1999). “Microtremor Measurements Used to Map Thickness of Soft Sediments.” Bulletin of the Seismological Society of America 89(1):250–59.

Susilawati, Sri, and Desi Mefianti. (2018). “Alternative Preventive Measures of Seashore Abrasion in Bungin Village Luwuk Sub-District Banggai Regency.” 20(1):41–46.

Suwarna, N., and R. .. Langford. (1994). “Peta Geologi Lembar Singkawang, Kalimantan.”

Tamura, T., T. S. N. Oliver, A. C. Cunningham, and C. D. Woodroffe. (2019). “Recurrence of Extreme Coastal Erosion in SE Australia Beyond Historical Timescales Inferred From Beach Ridge Morphostratigraphy.” Geophysical Research Letters 46(9):4705–14. doi: 10.1029/2019GL083061.



DOI: https://doi.org/10.22146/ijg.76686

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Accredited Journal, Based on Decree of the Minister of Research, Technology and Higher Education, Republic of Indonesia Number 225/E/KPT/2022, Vol 54 No 1 the Year 2022 - Vol 58 No 2 the Year 2026 (accreditation certificate download)

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