UJI DENSITAS DAN POROSITAS SERTA KARAKTERISASI MENGGUNAKAN XRD DAERAH MATA AIR PANAS SEMURUP SUNGAI MEDANG KABUPATEN KERINCI PROVINSI JAMBI

Larlen Nixolas, Nova Susanti, Samsidar Samsidar, Linda Handayani

Abstract


Test Density and Porosity of rock have been done to see the relation to temperature influence 100 ᵒC, 200 ᵒC and 300 ᵒC. Rocks that will be tested first heated temperature with furnace tool then weighed with a digital balance. Density and Porosity measurement data were analyzed using Matlab Software with ASTMC373 equation. The result of Matlab in the form of graph shows average temperature change to Semurup rock density of 0.03 g / cm3 and the effect of temperature on Semurup rock porosity at 300 ᵒC is 30.29%. The average temperature change to Medang River rock density is 0.003 g / cm3 and the effect of temperature on Medang River rock porosity at 300 ᵒC is 0,55%. Looking at the rock crystal structure used XRD. Data from Characterization using XRD was analyzed with High Score Plus software. The result of rock characterization using XRD, from semurup showed that component of CaCO3 is 94%, crystal structure not yet fully formed and still in amorphous form, meanwhile rock from medang river show that component of CaCO3 is with 98%, crystalline structure have formed crystal.


Keywords


density; porosity; temperature; XRD

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References


Yuliandini, A. (2013). Pengaruh Formasi Batuan Terhadap Karakteristik Hidrokimia Lima Sumber Mata Air Panas Di Daerah Sapan, Pinang Awan, Kecamatan Alam Pauh Duo, Kabupaten solok Selatan. Jurnal Fisika Unand, 2(4).

Iosifina, et. al. (2016). Measurment and Analysis of Thermal

Properties of rocks for the Compilation of Geothermal Maps of Cyprus. Renewable Energy, 418-429.

Putu, dkk. (2010). Studi Pengaruh Aktifasi Termal terhadap Struktur Mikro dan Porositas Zeolit Alam. Jurnal Teknik Mesin, Univeritas Udayana Bali.

Ridhovi. A. P. (2016). Analisis Konduktivitas Termal dan Porositas Sinter Silika Sumber Mata Air Panas di Sapan Maluluang Kecamatan Alam Pauh Duo Kabupaten Solok Selatan. Padang. Jurnal Fisika Unand, 5(1).

ASTM C. (1999). Standar Test Method for Water Absorption, Bulk Density, Apparent Porosity, and Apparent Specific Gravity of Fired Whieware Product. Reapproved, 373-388.

Duchkov, A. D. et. al. (2014). Thermal Conductivity of the Sedimentary Cover Rocks of the West Siberian Plate in Relation to their Humidity and Porosity. Russian Geology and Geophysics, 55, 784-792.

Edwards, L. M. et. al. (1982). Handbook of Geothermal Energy. Gulf Publishing Company. Capter 2.

Fathar, Q. (2013). Studi Potensi Panas Bumi Daerah Hululais Kabupaten Lebong Provinsi Bengkulu Sumatra. Jurnal Teknik, Universitas Hasanuddin

Fridawati, M. (2008). Analisa Struktur Kristal dari Lapisan Tipis Aluminium (Al) dengan Metode Difraksi Sinar-X (Skripsi). Yogyakarta: Universitas Sanata Dharma.

Khoiri, Z. (2016). Studi Anomali Bawah Permukaan Daerah Sekitar Manifestasi Air Panas.

Marzani, Y. (2013). Kimia Mata Air Panas Bumi untuk Pengembangan Parawisata di daerah Samboja Kabupaten Kutai Kartanegara Provinsi Kalimantan Timur. Jurnal Teknik Geologi, Universitas Negeri Kalimantan.

Schmidt, R. et. al. (2017). Reactivity of Geothermal Reservoir Rocks Under Temperature Conditions Found in Upper Rhine Graben (Germany). Procedia Earth and Planetary Science, 17, 881-884.

Telford, W. N. G. & Sherrif, R.E. (1990), Applied Geophysics Second Edittion. New York: Cambridge University Press

Zhang, W., et. al. (2016). Experimental Study on the Variation of Physical and Mechanical Properties of Rock After High Temperature Treatment. Applied Thermal Engineering, 98, 1297-1304.




DOI: http://dx.doi.org/10.31258/jkfi.15.1.84-87

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