Identification of the Potential Quartz Sandstone in the Sambong Area By the Dipole-Dipole Configuration of Resistivity Method

  • Subhan Arif Institut Sains & Teknologi AKPRIND, Geological Engineering, Kalisahak Street No 28 Yogyakarta, Indonesia
  • Nurul Dzakiya Institut Sains & Teknologi AKPRIND, Geological Engineering, Kalisahak Street No 28 Yogyakarta, Indonesia
  • Samuel Kristiyana Institut Sains & Teknologi AKPRIND, Geological Engineering, Kalisahak Street No 28 Yogyakarta, Indonesia
  • Rohmad Bagus Abadi Institut Sains & Teknologi AKPRIND, Geological Engineering, Kalisahak Street No 28 Yogyakarta, Indonesia
DOI: https://doi.org/10.30871/jagi.v7i1.5276
Keywords: sandstone, ngrayong, resistivity

Abstract

The presence of quartz sandstone outcrops in the southeast of the study site suggests the presence of quartz sandstones in the northwest, according to the strike direction. This geoelectrical measurement aims to determine the distribution of these sandstones below the surface. The method used is geoelectric with a dipole dipole configuration.

Measurements were made on four track lines. Tracks A and B indicate the existence of a layer of sandstone below the surface. Tracks C and D do not show any layers of quartz sandstone. This is caused by the presence of faults or folds that cause the layer to shift from the previously predicted path.

Downloads

Download data is not yet available.

References

Abdillah, F., 2013. Studi Batuan Asal (Provenance) dan Diagenesis Batupasir Formasi Ngrayong Daerah Tempuran dan Sekitarnya, Kecamatan Medang, Kabupaten Blora, Jawa Tengah. Geol. Eng. E-Journal 5, 84–96.

Apparao, A., Sarma, V.S., 1983. The modified pseudo-depth section as a tool in resistivity and IP prospecting—a case history. pure Appl. Geophys. 121, 91–108.

Apparao, A., Srinivas, G.S., Subrahmanya Sarma, V., 1997. Physical modeling results on modified pseudodepth sections in exploration of highly resistive targets. pure Appl. Geophys. 150, 341–352.

Choiriah, S.U., Haty, I.P., KaestI, E.Y., 2021. Aplikasi Biostratigrafi Untuk Interpretasi Kecepatan Sedimentasi di Zona Rembang.

Dzakiya, N., Arif, S., Hidayah, R.A., Setiawan, D.G.E., 2022. Pendugaan Potensi Air Tanah Beserta Kedalamannya Dengan Metode Resistivitas Konfigurasi Schlumberger Di Nglanggeran Kulon Kabupaten Gunung Kidul. Jambura Phys. J. 4, 39–48.

Haryanti, N.H., Wardhana, H., 2019. Pengaruh komposisi campuran pasir silika dan kapur tohor pada bata ringan berbahan limbah abu terbang batubara. J. Fis. Indones. 21, 11–15.

Khaing, S.Y., Surjono, S.S., Setyowiyoto, J., Sugai, Y., 2017. Facies and Reservoir Characteristics of the Ngrayong Sandstone in the Rembang Area, Northeast Java (Indonesia). Open J. Geol. 07. https://doi.org/10.4236/ojg.2017.75042

Li, H., 2014. Alumina and silica sources for E-glass fibre manufacturing–melting energy aspects. Glas. Technol. J. Glas. Sci. Technol. Part A 55, 7–13.

Rabbani, M., 2021. Analisa Fasies Dan Studi Paleogeografi Formasi Ngrayong Lapangan „Stark‟ Cekungan Jawa Timur Utara Menggunakan Sikuen Stratigrafi Berdasarkandata Wireline Log, Cutting, Swc, Biostratigrafi Dan PetrografI. J. Ilm. Geol. PANGEA 3.

Raiche, A.P., Gallagher, R.G., 1985. Apparent resistivity and diffusion velocity. Geophysics 50, 1628–1633.

Ran, W., Luan, X., Lu, Y., Wei, X., Zhang, H., Wang, K., Wang, J., Wang, X., Zhang, D., Islam, M.S., 2020. Seismic characteristics and strontium isotope ages of the Middle Miocene Ngrayong Formation in the Madura Strait Basin: Implications for the paleogeographic reconstruction of East Java. J. Asian Earth Sci. 190, 104109.

Sujatmiko, B., Zuraidah, S., Nugroho, W.A., Atmajaya, E.R.P., 2018. Penggunaan pasir silika sebagai substitusi agregat halus untuk meningkatkan performance bata ringan. J. Rekayasa Tenik Sipil Univ. Madura 3, 5–12.

Telaumbanua, J.A., Rohmana, R.C., Prasetyadi, C., Subandrio, A., 2019. Analisis Sedimentologi Formasi Ngrayong Daerah Mulyoagung, Jawa Timur: Karakter Reservoar Hidrokarbon Ideal di Zona Cekungan Rembang, in: Prosiding TAU SNAR-TEK Seminar Nasional Rekayasa Dan Teknologi. pp. 142–147.

Winarno, T., Marin, J., Tiffany, C., 2021. Quality of rock from Ngrayong formation as additional material for cement manufacture, Gunem district, Rembang Regency, Central Java, in: AIP Conference Proceedings. https://doi.org/10.1063/5.0061093

Yatini, Y., Suyanto, I., 2018. Identification of slip surface based on geoelectrical dipole-dipole in the landslides hazardous area of Gedangsari District, Gunungkidul Regency, Province of Daerah Istimewa Yogyakarta, Indonesia, in: IOP Conference Series: Earth and Environmental Science. IOP Publishing, p. 12013.

Yıldızel, S.A., 2018. Mechanical performance of glass fiber reinforced composites made with gypsum, expanded perlite, and silica sand.

Published
2023-05-15
Issue
Vol 7 No 1 (2023): Journal of Applied Geospatial Information (JAGI)
Section
Articles

Copyright (c) 2023 Journal of Applied Geospatial Information

Creative Commons License

This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License.

Copyright @2023. This is an open-access article distributed under the terms of the Creative Commons Attribution-ShareAlike 4.0 International License which permits unrestricted use, distribution, and reproduction in any medium. Copyrights of all materials published in JAGI are freely available without charge to users or / institution. Users are allowed to read, download, copy, distribute, search, or link to full-text articles in this journal without asking by giving appropriate credit, provide a link to the license, and indicate if changes were made. All of the remix, transform, or build upon the material must distribute the contributions under the same license as the original.