Karakteristik Batubara Formasi Warukin di Kalimantan Selatan serta Implikasinya pada Teknologi Pencairan Batubara

Edy Nursanto, Shofa Rijalul Haq, Aldin Ardian

Abstract


Batubara di Indonesia didominasi oleh peringkat rendah (low rank coal) prosentase lebih dari 85% dari total cadangan batubara. Meskipun demikian, batubara peringkat rendah lebih mudah diolah untuk meningkatkan nilai tambahnya karena struktur molekul dan gugus hidroksil batubara peringkat rendah yang reaktif dibandingkan dengan batubara peringkat tinggi. Penelitian ini bertujuan untuk mengkaji karakteristik batubara peringkat rendah formasi Warukin pada proses pencairan batubara. Data primer berupa pengambilan sampel batubara dan arah kedudukannya serta kemiringannya diperoleh dengan metode pengambilan ply by ply. Analisis proksimat, ultimat, maseral dan reflektan vitrinit dilakukan pada sampel-sampel tersebut dengan variasi pengujian, kemudian diolah dengan analisis secara teoritis empiris yang disajikan dalam bentuk tabel. Analisis data dilakukan berdasarkan hasil pengujian di laboratorium secara deskriptif kualitatif.  Dengan penelitian ini, sebaran sifat dan kualitas batubara dapat dievaluasi, serta alternatif teknologi penambangan dengan pencairan dapat direncanakan secara efektif dan efisien dengan penciri maseral liptinit mempunyai persentasi besar, yaitu rata-rata 34,28 % pada lapisan.


Full Text:

PDF

References


Alpern, B., Lemos, S.M.J., 2002, Documented International Enquiry on Solid Sedimentary Fossil Fuels; Coal: Definitions, Classifications, Reserves- Resources, and Energy, International Journal of Coal Geology, 50, pp. 3-41

Australian Standard 2856, 1986, Coal Maseral Analysis, Standard Australia, 20 p.

Artanto, Y., Jackson W.R., Redlich A.J., and Marshall M., 2000, Liquefaction Studies of Some Indonesia Low rank Coals, Fuel, Vol. 79, pp.1333-1340.

ASTM Standar D 3173-73, 1994, Standard Methods for Moisture in The Analysis Sample of Coal and Coke, Volume 05.06, Gaseous Fuels, Coal and Coke, 47 p.

ASTM Standar D 3175-77, 1994, Standard Methods for Volatile Matter in The Analysis Sample of Coal and Coke, Volume 05.06, Gaseous Fuels, Coal and Coke, 7 p.

ASTM Standar D 3176-89, 2009, Standard Practice for Ultimate Analysis of Coal and Coke, Volume 05.06, Gaseous Fuels, Coal and Coke, 6 p.

ASTM Standar D 4239-10, 2010, Standart Test Method for Sulfur in the Analysis Sample of Coke Using High Temperature Tube Furnace Combustion Methods (B), Volume 05.06, Gaseous Fuels, Coal and Coke, 12 p.

ASTM Standar D 5373 – 08, 2009, Standard Test Methods for Instrumental Determination of Carbon, Hydrogen, and Nitrogen in Laboratory Samples of Coal, Volume 05.06, Gaseous Fuel, Coal and Coke, 22 p.

BP Statistical Review of World Energy, 2019, 68th Edition, London.

Cui, H., Yang, J., Liu, Z., Bi, J., 2002, Effects of Remained Catalysts and Enriched Coal Minerals on Devolatilization of Residual Chars from Coal Liquefaction, Fuel, Vol. 81, pp. 1525-1531

Suhayadi. F & Sriyanti, 2022, Kajian Lingkungan Pengendapan Berdasarkan Karakteristik Batubara Formasi Pulau Balang, Jurnal Riset Teknik Pertambangan, Vol 2, No. 1, Hal 1 – 8.

Hirano, K., dan Kanda, Y., 2001, Study on Industrial Catalyst for Sub-bituminous Coal Liquefaction, Fuel Processing Technology, Vol. 72, pp. 35-45.

Jane, M.H., Huang, W.L. and Machnikowska, H., 2008, Generation and Expulsion of Petroleum from Coal Macerals Visualized in-Situ During DAC Pyrolysis, International Journal of Coal Geology, Vol. 73, pp. 167-184.

Ningrum, N.S., Rijwan, I., Astiti, M.W. dan Syahrial, 2000, Peningkatan Perolehan Produk Cair Pada Pencairan Batubara Berkatalis, Inhouse research PPPTM bandung, 48 p.

Parkash, S., Du Plessis, M.P., Cameron, A.R. and Kalkreutth, W.D., 1984, Petrography of Low Rank Coals With Reference to Liquefaction Potensial, International Journal of Coal Geology, Vol.4, pp. 209-234.

Stone, R.D., Park, L.G., Coal Liquefaction Process, 1970, Patented, United States Patent Office, 4p.

Sule, D., Sanwani, E., dan Sudarsono, A., 1997, Course of Coal Utilization, Teknik Pertambangan-ITB, 84 p.

Teichmüller, M., 1989, The Genesis of Coal from The Viewpoint of Coal Petrology, International Journal of Coal Geology, Amsterdam-Printed in The Netherlands, p.1-87.

Tsai, S.C., 1982, Fundamentals of Coal Beneficiation and Utilization, Coal Science and Technology 2, Scientific Publishing No. 375. New York. p.151- 159.

Winarno, A., Amijaya, D. H., Harijoko, A., 2019, Karakteristik Batubara Formasi Pulaubalang dan Balikpapan Cekungan Kutai Bawah, Kalimantan Timur, Jurnal Geosapta, Vol.5, No. 1 , Hal 57 – 66.

Whitehurst, D.D., and Michell O.T., 1980, Coal Liquefaction, The Chemical & Technology of Thermal Process, Malvina F.New York, p.6-26.




DOI: https://doi.org/10.31315/jmel.v7i2.11075

DOI (PDF): https://doi.org/10.31315/jmel.v7i2.11075.g6286

Refbacks

  • There are currently no refbacks.




This Journal indexed to :

 

Crossref Content Registration JMEL on GS    

 

====================================================

Jurnal Mineral, Energi, dan Lingkungan

Published By: Universitas Pembangunan Nasional Veteran Yogyakarta

Addres: Jl. Padjajaran Jl. Ring Road Utara No.104, Ngropoh, Condongcatur, Sleman, Yogyakarta

Creative Commons License
This work is licensed under a Creative Commons Attribution-ShareAlike 4.0 International License. Statistik Jurnal Statistik Jurnal

slot gacor slot gacor hari ini slot gacor 2025 demo slot pg slot gacor slot gacor