HUBUNGAN LINGKUNGAN PENGENDAPAN DENGAN KANDUNGAN MINERAL MATTER DAN SULFUR PADA BATUBARA

Harli Talla

Abstract


Mineral matter dan sulfur merupakan komponen anorganik yang selalu berpengaruh negatif pada saat pemanfaatan batubara di industri. Salah satu faktor yang mempengaruhi keberadaan mineral dan sulfur dalam batubara adalah lingkungan pengendapan. Konsep ini merupakan latar belakang penelitian, dengan tujuan untuk menginvestigasi pengaruh lingkungan pengendapan terhadap kandungan mineral matter dan sulfur pada batubara. Batubara yang dianalisis dalam penelitian ini berasal dari Cekungan Papua Utara (BCPU) dan Cekungan Kutai (BCK). Interpretasi lingkungan pengendapan menunjukkan bahwa batubara BCPU terbentuk pada lingkungan caostal marsh, sedangkan batubara BCK tersedimentasi di lingkungan limnik. Implikasi penelitian adalah lingkungan pengendapan berpengaruh terhadap komponen anorganik batubara seperti kandungan mineral matter (pirit dan lempung), sulfur dan abu tinggi

References


Allen, G.P., and Chambers, J.L.C., 1998. Regional Geology and Stratigraphy of the Kutei Basin. In: Sedimentation in the Modern and Miocene Mahakam Delta, IPA Fieldtrip Guidebook, Chapter 9, 159-171.

ASTM D2794., 2009. Standard Test Method for Microscopical Determination of the Vitrinite Reflectance of Coal, ASTM International.

ASTM D3172., 2007. Standard Practice for Proximate Analysis of Coal and Coke1.

ASTM D3174., 2002. Standard Test Method for Ash in the Analysis Sample of Coal and Coke From Coal1.

ASTM D4239., 2012. Standard Test Method for Sulfur in the Analysis Sample of Coal and Coke Using High-Temperature Tube Furnace Combustion1.

ASTM D3173., 2011. Standard Test Method for Moisture in the Analysis Sample of Coal and Coke1.

Boggs, S.Jr., 1995. Principles of Sedimentology and Stratigraphy, 2and Edition. Prentice Hall, Englewood Cliffs, NJ, 774.

Casagrande, D.J., 1987. “Sulphur in Peat and Coal”. In: Scott A.C., (ed.), Coal and Coal-bearing Strata: Recent.

Cecil, C.B., Stanton, R.W., Dulong, F.T., and Renton, J.J., 1979. Geologic Factors That Control Mineral Matter in Coal, in A.C. Donaldson, M.W. Presley, and J.J. Renton, eds., Carboniferous Coal Short Course and Guidebook: West Virginia Geological and Economic Survey, Bulletin B-37-3, 43-56.

Cohen, A.D., and Andrejko, M.J., 1983. Use of Models Based on Modern Peat Deposits to Predict the Distribution of Mineral Matter in Coals, in Raymond, R., and Andrejko, M.J., eds. Proceedings of Mineral Matter in Peat Workshop: Los Alamos National Laboratory Raport LA-9907-OBES, 77-86.

Diessel, C.F.K., 1986. “On the correlation between coal facies and depositional environments”. Proceeding of 20th Symposium of Deparment of Geology, University Newcastle, NSW,19-22.

Diessel, C.F.K., 1992. “Coal-Bearing Depositional Systems”. Springer Verlag, Berlin-Heidelberg, 721.

Fatimah dan Herudiyanto., 2007. Kandungan Sulfur Dalam Batubara Indonesia. Buletin Sumber Daya Geologi, Vol. 2 (01), 1-11.

Horne, J.C., Caruccio, F.T., Baganz, B.P., 1979. “Depositional Models In Coal Exploration and Mine Planning in Appalachian Region”. The American Assosiation of Petroleum Geologists Bulletin Vol. 62 (12), 2379 – 2411.

ISO 562.,1998. Hard Coal and Coke, Determination of Volatile matter content, ISO,8.

Mansfield, S.P., Spackman, W., 1965. “Petrographic Composition and Sulphur Content of Selected Pennsylvania Bituminous Coal Seams”. The Pennsylvania State University, Special Research Report no. SR-50, Coal Research Board of Pennsylvania, 178.

Stach, E., Mackowski, M.Th., Teichmuller, M., Taylor, G.H., Chandra, D., 1982. Stach’s Textbook of Coal Petrology, Gebruder Borntraeger, Berlin. 535.

Talla. H., 2016. Pengaruh Karakteristik Batubara Terhadap Hasil Konversi dan Perolehan Minyak pada Pencairan Batubara Langsung Batubara Asal Formasi Unk (Cekungan Papua Utara), Formasi Balikpapan dan Formasi Pulau Balang (Cekungan Kutai). Disertasi, Universitas Gadjah Mada (UGM), Yogyakarta.

Van Krevelen, D.W., 1992. “Coal Typology Physics Chemistry Constitution”. University Of Technology, Delft, The Netherlands, 750.

Walker, R.G. dan James, N.P., 1992, “Fasies Models”, Geologic al Association of Canada. 157-174.

Waterman, S.B., Saputra, D., 2012. Analisis Pengaruh Lingkungan Pengendapan Batubara Terhadap Kandungan Sulfur Batubara. Prosiding Simposium Dan Seminar Geomekanika Ke-1, 29-38.

Williams, E.G., and Keith, M.I., 1963. Relationship Between Sulphur in Coal and the Occurrence of Marine Roof Beds. Econ. Geol. Vol. 58, 720-729.

Williams R.H., and Larson, E.D., 2003. A comparison of direct and indirect liquefaction technologies for making fluid fuels from coal, Energy for Sustainable Development, Vol. 07 (4), 103-129.




DOI: http://dx.doi.org/10.20527/jstk.v12i1.4342

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Alamat Redaksi:
Jl. A. Yani, KM. 36, 
PROGRAM STUDI KIMIA
Kampus Fakultas Matematika dan Pengetahuan Alam, Gedung I,
Universitas Lambung Mangkurat, Banjarbaru (73714)

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