Analysis of Mineral Types, Density, and Porosity in the Lam Teuba Formation Using Infrared Spectroscopy Method
DOI:
10.29303/jppipa.v10iSpecialIssue.8115Published:
2024-08-25Issue:
Vol. 10 No. SpecialIssue (2024): Science Education, Ecotourism, Health ScienceKeywords:
Infrared spectroscopy, Lam Teuba, Minerals, Physical properties, RocksResearch Articles
Downloads
How to Cite
Downloads
Metrics
Abstract
The Lam Teuba Formation is one of the local fault areas of the Seulimuem segment located in the Grand Mosque sub-district of Aceh Besar regency. The Lam Teuba Formation has several types of rocks such as basaltic andesite lava, pyrolastic flows, pyroclastic falls, and sedimentary rocks, namely claystone, limestone sandstone, agglomerate, limestone. Rocks have physical characteristics, namely density and porosity which have different values in each rock. This difference can be caused by the minerals contained in the rock. The method used to calculate the density and porosity values used the Archimedes method, and the identification of mineral types using the infrared spectroscopy method. The results of data processing obtained the highest original density value at location 1 sample 1 with a value of 3.42 and the lowest value at location 5 sample 2. The highest dry density value was in location 1 of sample 1 with a value of 3.33 and the lowest value was in location 5 of sample 2. The highest saturation density value was in location 1 of sample 1 with a value of 3.43, the lowest value was in location 5 of sample 2 with a value of 2.07. The average porosity value was the highest with a value of 5.41 in the poor quality category in sample 4, while the lowest value was 4.62 in the very bad category in sample 1. The types of minerals found in the Lam Teuba formation are illite, montmorillonite, kaolinite minerals with a mixture of smectite which is a clay mineral group and siderite minerals which are carbonate mineral groups.
References
Asrillah, A., Marwan, M., Rusydy, I., & Nugraha, G. S. (2014). Application of Magnetics Method to Mapping the Geothermal Source at Seulawah Agam Area. Jurnal Natural, 14(2). Retrieved from https://jurnal.usk.ac.id/natural/article/view/2258
Bradley, H. B. (1987). Petroleum engineering handbook. United States: OSTI.
Du, K., Sun, Y., Zhou, J., Khandelwal, M., & Gong, F. (2022). Mineral composition and grain size effects on the fracture and acoustic emission (AE) characteristics of rocks under compressive and tensile stress. Rock Mechanics and Rock Engineering, 55(10), 6445–6474. https://doi.org/10.1007/s00603-022-02980-y
Fajrina, Y. N. (2016). Karakterisasi parameter fisik batuan vulkanik gunung arjuno-welirang, Jawa Timur. Jurnal Geosaintek, 2(2), 91–98. https://doi.org/10.12962/j25023659.v2i2.1922
Habibirahman, S. A., Lestari, L., & Kustono, B. (2019). Perhitungan Potensi Cadangan Panasbumi Lapangan “X” Menggunakan Data Eksplorasi. PETRO: Jurnal Ilmiah Teknik Perminyakan, 8(1), 20–27. Retrieved from https://www.e-journal.trisakti.ac.id/index.php/petro/article/download/4291/3397
Hafsari, S. W., & Rading, A. (2017). Potensi Cadangan Panas Bumi dengan Metoda Volumetrik Pada Sumur Saka-1 Lapangan Panas Bumi “X” Kabupaten Lembata NusaTenggara Timur. Jurnal Offshore: Oil, Production Facilities and Renewable Energy, 1(1), 1–8. https://doi.org/10.30588/jo.v1i1.236
Hidayatullah, F. S. (2010). Identifikasi patahan pada lapisan sedimen menggunakan metode seismik refleksi 2D di Barat Sumatera. Retrieved from https://repository.uinjkt.ac.id/dspace/handle/123456789/3465
Hook, J. R. (2003). An introduction to porosity. Petrophysics-The SPWLA Journal of Formation Evaluation and Reservoir Description, 44(03). Retrieved from https://onepetro.org/petrophysics/article-abstract/171017/An-Introduction-to-Porosity
Huang, Z., Zeng, W., Gu, Q., Wu, Y., Zhong, W., & Zhao, K. (2021). Investigations of variations in physical and mechanical properties of granite, sandstone, and marble after temperature and acid solution treatments. Construction and Building Materials, 307, 124943. https://doi.org/10.1016/j.conbuildmat.2021.124943
Ismail, N., & Marwan, M. (2019). 2D Modeling of Seulawah Agam Geothermal Field Based on Magnetotelluric (MT Data). Journal of Aceh Physics Society, 8(2), 61–65. https://doi.org/10.24815/jacps.v8i2.12871
Jaques, D. S., Marques, E. A. G., Marcellino, L. C., Leão, M. F., Ferreira, E. P. S., & dos Santos Lemos, C. C. (2020). Changes in the physical, mineralogical and geomechanical properties of a granitic rock from weathering zones in a tropical climate. Rock Mechanics and Rock Engineering, 53, 5345–5370. https://doi.org/10.1007/s00603-020-02240-x
Jaya, N. A., Yun-Ming, L., Cheng-Yong, H., Abdullah, M. M. A. B., & Hussin, K. (2020). Correlation between pore structure, compressive strength and thermal conductivity of porous metakaolin geopolymer. Construction and Building Materials, 247, 118641. https://doi.org/10.1016/j.conbuildmat.2020.118641
Krivovichev, S. V, Krivovichev, V. G., Hazen, R. M., Aksenov, S. M., Avdontceva, M. S., Banaru, A. M., Gorelova, L. A., Ismagilova, R. M., Kornyakov, I. V, & Kuporev, I. V. (2022). Structural and chemical complexity of minerals: an update. Mineralogical Magazine, 86(2), 183–204. https://doi.org/10.1180/mgm.2022.23
Manatunga, U. I., Ranjith, P. G., De Silva, V. R. S., & Wanniarachchi, W. A. M. (2021). Modified non-explosive expansive cement for preconditioning deep host rocks: A review. Geomechanics and Geophysics for Geo-Energy and Geo-Resources, 7, 1–30. https://doi.org/10.1007/s40948-021-00292-z
Marwan, M., Rusydy, I., Nugraha, G. S., & Asrillah, A. (2014). Study of Seulawah agam’s geothermal source using gravity method. Jurnal Natural, 14(2). Retrieved from https://jurnal.usk.ac.id/index.php/natural/article/view/2252
Metrikasari, R., & Choiruddin, A. (2021). Pemodelan Risiko Gempa Bumi di Pulau Sumatera Menggunakan Model Inhomogeneous Neyman-Scott Cox Process. Jurnal Sains Dan Seni ITS, 9(2), D102--D107. https://doi.org/10.12962/j23373520.v9i2.52318
Mulyaningsih, S. (2018). Kristalografi & Mineralogi. Retrieved from https://eprints.akprind.ac.id/222/?__cf_chl_tk=2TcGEDwypetmmvjBfuW46u8WhcSv_TfZuwHjMbVTZZk-1722549272-0.0.1.1-3796
Oesanna, M., Ismail, N., & Marwan, M. (2018). Locating of Fault Zone at the Western of Seulawah Agam volcano Using Gravity Method. Journal of Aceh Physics Society, 7(2), 56–60. Retrieved from https://jurnal.usk.ac.id/JAcPS/article/view/8607
Pontual, S., Merry, N., & Gamson, P. (1997). Spectral Interpretation field manual. Arrowton. Retrieved from https://shorturl.asia/sYQVG
Razi, P. (2007). Simulasi Pola Penyusupan Lempeng Indo-Australia Ke Lempeng Eurasia serta Perubahan Morfologi Permukaan Bumi di Pantai Barat Sumatera Barat. FT UNP. http://repository.unp.ac.id/31853/1/KKI_PAKRUR_RAZI_129_2007.pdf
Ronodirdjo, M. Z., Syamsuddin, S., Sukrisna, B., Ayub, S., & Taufik, M. (2020). Studi Sejarah Letusan Samalas Berdasarkan Stratigrafi Endapan Vulkanik di Daerah Gangga, Lombok Utara. Jurnal Pendidikan, Sains, Geologi, Dan Geofisika (GeoScienceEd Journal), 1(1). https://doi.org/10.29303/goescienceedu.v1i1.30
Siegesmund, S., & Dürrast, H. (2010). Physical and mechanical properties of rocks. In Stone in architecture: properties, durability (pp. 97–225). Springer. https://doi.org/10.1007/978-3-642-14475-2_3
Sota, I. (2011). Pendugaan Struktur Patahan Dengan Metode Gaya Berat. Positron, 1(1). https://doi.org/10.26418/positron.v1i1.1565
Sugiyanto, D. Z., Z., I., N., A., F., M., I., & Hasanudin. (2011). Analisa Deformasi Permukaan Patahan Aktif Segmen Seulimum dan Segmen Aceh. Conference: Prosiding Seminar Hasil Penelitian Kebencanaan TDMRC-Unsyiah. Retrieved from https://shorturl.asia/qKV2x
Winarto, W., & Yulia, M. (2014). Penentuan Kadar Gula Buah Salak Secara Tidak Merusak Menggunakan Near Infrared (Nir) Spectroscopy dan Interval Partial Least Squares (Ipls) Regression. Jurnal Ilmiah Teknik Pertanian-TekTan, 6(1), 1–9. https://doi.org/10.25181/tektan.v6i1.855
Zaini, N., Yanis, M., Isa, M., & Meer, F. (2021). Assessing of land surface temperature at the Seulawah Agam volcano area using the landsat series imagery. Journal of Physics: Conference Series, 1825(1), 12021. https://doi.org/10.1088/1742-6596/1825/1/012021
Zalzabila, R. (2022). Analisis Komposisi Mineral Pada Batuan Kawasan Geotermal Ie Su’um dan Ie Jue Menggunakan Spektroskopi Inframerah’ [Skripsi Universitas Syiah Kuala]. Retrieved from https://etd.usk.ac.id/index.php/baca/index.php?p=show_detail&id=104983
Author Biographies
Zahratun, Universitas Negeri Malang
Muhammad Isa, Syiah Kuala University, Banda Aceh
Didik Sugiyanto, Syiah Kuala University, Banda Aceh
License
Copyright (c) 2024 Zahratun, Muhammad Isa, Didik Sugiyanto
This work is licensed under a Creative Commons Attribution 4.0 International License.
Authors who publish with Jurnal Penelitian Pendidikan IPA, agree to the following terms:
- Authors retain copyright and grant the journal right of first publication with the work simultaneously licensed under a Creative Commons Attribution 4.0 International License (CC-BY License). This license allows authors to use all articles, data sets, graphics, and appendices in data mining applications, search engines, web sites, blogs, and other platforms by providing an appropriate reference. The journal allows the author(s) to hold the copyright without restrictions and will retain publishing rights without restrictions.
- Authors are able to enter into separate, additional contractual arrangements for the non-exclusive distribution of the journal's published version of the work (e.g., post it to an institutional repository or publish it in a book), with an acknowledgment of its initial publication in Jurnal Penelitian Pendidikan IPA.
- Authors are permitted and encouraged to post their work online (e.g., in institutional repositories or on their website) prior to and during the submission process, as it can lead to productive exchanges, as well as earlier and greater citation of published work (See The Effect of Open Access).
