International Journal of Mechanical Engineering and Technology (IJMET)

Source ID:00000002
Volume 10, Issue 10,October 2019, Pages 43-51, Page Count - 9

GEOCHEMISTRY AND MINERALOGY STUDY OF SELECTED BITUMINOUS MEDIUM VOLATILE COALS FROM UPPER KUTAI BASIN, CENTRAL KALIMANTAN

Deddy NSP Tanggara (1) Donatus Hendra Amijaya (2) Sugeng Sapto Surjono (3)

(1) Mining Program Study, University of Palangka Raya, Palangka Raya, Indonesia.
(2) Departement of Geology, Universitas Gadjah Mada, Yogyakarta, Indonesia.
(3) Departement of Geology, Universitas Gadjah Mada, Yogyakarta, Indonesia.

Manuscript ID:- 00000-04904
Access Type : Open Access
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Cite this article:Deddy NSP Tanggara,Donatus Hendra Amijaya,Sugeng Sapto Surjono,  Geochemistry And Mineralogy Study Of Selected Bituminous Medium Volatile Coals From Upper Kutai Basin, Central Kalimantan, International Journal of Mechanical Engineering and Technology(IJMET), 2019, 10(10), PP.43-51

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Abstract

Three coals seam of Batu Ayau Formation from Upper Kutai Basin were analyses in order to determine coal geochemistry characteristic and mineralogy properties. Coal samples were collected from active mining and have been analysed with proximate and ultimate coal analysis, Fourier Transform InfraRed (FTIR) and X-Ray Diffraction (XRD). Geochemically coal has 69.38% of fix carbon (adb), 27.46 % of volatile matter (adb), 0.99% moisture (adb) and 2.17% ash content (adb). The ultimate coal analysis shows 85.51?rbon content (adb) and 0.70% total sulphur content (adb). The coal samples spectra on FTIR analysis indicated the coals are classified into bituminous in rank. XRD analysis of coal shows minerals content on coal samples are clays minerals (kaolinite, smectite), silicate minerals (quartz, sericite, plagioclase and mica), carbonates (calcite, siderite), sulphate (anhydrite) and sulphides (pyrite).
Author Keywords
Geochemistry mineralogy proximate and ultimate FTIR X-RD


ISSN Print: 0976-6340 ISSN Online: 0976-6359
Source Type: Journals Document Type: Journal Article
Publication Language: English DOI: 10.34218/IJMET.10.10.2019.004
Abbreviated Journal Title: IJMET Access Type: Open Access
Publisher Name: IAEME Publication Resource Licence: CC BY-NC
Major Subject:Physical Sciences Subject Area classification: Earth and Planetary Sciences
Subject area: Geochemistry and Petrology Source: SCOPEDATABASE

References (24)
  1. Van Krevelen, D. W
    Coal; Typology-Physics-Chemistry-Constitution
    (1993), Page No 700,
  2. Ward C R
    Analysis and Significant of Mineral Matter in Coal Seams
    (2002)International Journal of Coal Geology, Volume 50, Page No 135-168,
  3. Speight, J. G
    The Chemistry and Technology of Coal
    (2013), Page No 807,
  4. Kostova, I and Zdravkov, A
    Organic Petrology, Mineralogy and Depositional Environment of The Kipra Lignite Seam, Maritza-West Basin, Bulgaria
    (2007)International Journal of Coal Geology, Volume 71, Page No 527-541,
  5. Speight, J. G
    Handbook of Coal Analisys
    (2005), Page No 238,
  6. Moss, S. J. and Chambers, J. L. C
    Depositional Modelling and Facies Architecture of Rift and Inversion in The Kutai Basin, Kalimantan, Indonesia
    (1999)Indonesian Petroleum Association, Proceedings 27th Annual Convention, Page No 459-486,
  7. Dwiantoro, M. Notosiswoyo, S. Anggayana, K. and Widayat, A. H
    Paleoenvironmental Interpretation Based on Lithotype and Macerals Variation from Ritans's Ritans Lignite, Upper kutai Basin, East Kalimantan
    (2013)International Symposium on Earth Science and Technology, Page No 155-162,
  8. Supriatna, Sudrajat and Abidin, H. Z
    Muaratewe Kalimantan Regional Map, Geological Survey
    (1995), Page No 1,
  9. Satyana, A. H. Nugroho, D. and Surantoko, I
    Tectonic Controls on The Hydrocarbon Habitats of The Barito, Kutai and Tarakan Basin, Eastern Kalimantan, Indonesia; Major Dissimilarities
    (1999)Journal of Asian Earth Sciences Special Issue, Volume 17, Page No 99-120,
  10. Nas, C. and Hindartan
    The Quality of Central Kalimantan Coking Coals, Kalimantan Coal and Mineral Resources
    (2010)Proceeding MGEI-IAGI, Page No 1-11,
  11. PT Borneo Lumbung Energi & Metal Tbk
    Annual Report
    (2013), Page No 44,
  12. Thomas, L
    Coal Geology
    (2013), Page No 444,
  13. Suping Yao, Ke Zhang, Kun Jiao and Wenxuan Hu
    Evolution of coal structures: FTIR analyses of experimental simulation and naturally matured coal in the Ordos Basin, China
    (2011)Energy Exploration & Exploitation, Volume 29, Issue 1, Page No 1-19,
  14. Kuehn, D. W. Snyder, R. W. Davis, A. and Painter, P. C
    Characterization of vitrinite concentrates, Fourier transform infrared studies
    (1982)Fuel, Volume 61, Page No 682–694,
  15. Mastalerz, M. Bustin, R. M
    Electron microprobe and micro-FTIR analyses applied to maceral chemistry
    (1993)International Journal of Coal Geology, Volume 24, Page No 333–345,
  16. Ibarra, J. V. Munoz, E. and Moliner, R
    FTIR study of the evolution of coal structure during the coalification process
    (1996)Organic Geochemistry, Volume 24, Page No 725–735,
  17. Hendra Amijaya and Ralf, L
    Properties of thermally metamorphosed coal from Tanjung Enim Area, South Sumatra Basin, Indonesia with special reference to the coalification path of macerals
    (2006)International Journal of Coal Geology, Volume 66, Page No 271–295,
  18. Painter, P. C. Snyder, R. W. Starsinic, M. Coleman, M. M. Kuehn, D. W. and Davis, A
    Concerning the application of FT-IR to the study of coal: a critical assessment of band assignments and the application of spectral analysis programs
    (1981)Applied Spectroscopy, Volume 5, Page No 475–485,
  19. Vasallo, A. M. Liu, Y. L. Pang, L. S. K. and Wilson, M. A
    Infrared spectroscopy of coal maceral concentrates at elevated temperatures
    (1991)Fuel, Volume 70, Page No 635–639,
  20. Ward, C. R
    Review of Mineral Matter in Coal, Australian, Coal Geology
    (1986)Geological Society of Australia, Volume 6, Page No 87-107,
  21. Renton, J. J
    Mineral Matter in Coal, In Meyer R.A., Coal Structure
    (1982), Page No 283-324,
  22. Diessel, C. F. K
    Coal Bearing Depositional Systems
    (1992), Page No 721,
  23. D, Tanggara. D, H, Amijaya. and S. S. Surjono
    Evaluation of coking properties bituminous medium volatile coal, Batu Ayau Formation, Kutai Basin, Central Kalimantan
    (2018)IOP Conference Series: Earth and Environmental Science, Page No 1-10,
  24. Renton, J. J. and Cecil, C. B
    The origin of mineral matter in coal
    (1979), Volume 1, Page No 206–223,