Strategy for technology energy selection to achieve coal value added in PT. Bukit Asam (Persero), Tbk.,

Peni Rostiarti, Eddy Ibrahim, Taufik Toha

Abstract


The role of coal in providing national energy has already increased nowadays, and still taking an important subject. Government obligation to support added value is not really encourage industry player to applied technology energy that has been developed widenly in South Africa, China and others developing country. The scope of this research is technology energy for coal diversification, such as Coal Upgrading, Coal Gasification, Coal Liquefaction, Coal Water Mixture, and applied Coal Bed Methane Technology that extract gas methane from the pore of coal. The purpose of this research is to estimate coal resources, quality range and to select technology energy that can be potentially develop in PT. Bukit Asam (Persero), Tbk. Coal Resources and coal quality in each mining licences area becomes the basic strength for developing technology energy as part of SWOT Analysis. Based on the SWOT Analysis from 5 technology energy then the scope limited into 3 highest technology energy that is Coal Gasification, Coal Liquefaction and Coal Bed Methane as the most potential technology energy to develop in PT. Bukit Asam (Persero), Tbk. 


Full Text:

Full text PDF

References


Ministry of Energy and Mineral Resources, Indonesia, Handbook of Energi and Economic Statistics of Indonesia, Jakarta, 2016.

Umar, D. F., Daulay, B., and Hudaya, G. K., Samaranggau Coal Characteristic Before and After Upgraded Brown Coal (UBC), Pusat Penelitian dan Pengembangan Teknologi Mineral dan Batubara, 2006.

Fajri Vidian, Hasan Basri, Dedi Sihotang, Design, Construction and Experiment on Imbert Downdraft Gasifir Using South Sumatra Biomass and Low Rank Coal as Fuel, Journal of Engineering Research and Application, Volume 7, 2017.

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

Umar, D. F., Aquabat as a Boiler Fuel, Majalah Mineral dan Energi, Vol. 9 No. 3, 2011.

Self S., Bale V., and Marc A R., Review of Underground coal gasification technologies and carbon capture, International Journal of Energi and Environmental Engineering, 2012.

Terrados J., et all., Energi Planning : A Sustainable Approach, Renewable and Suistanable Energi Reviews, 2007.

Standart Nasional Indonesia, SNI 5015-2011 : Pedoman Pelaporan Sumberdaya dan Cadangan Batubara, Jakarta, 2011

Komite Cadangan Mineral Indonesia, Kode Pelaporan Hasil Eksplorasi, Sumberdaya Mineral dan Cadangan Bijih Indonesia, PERHAPI – IAGI, 2011.

Haryadi, H., 2017, SWOT Analysis in Managing Mineral and Coal Resources to Facing Economic Asean Society, Jurnal Teknologi Mineral dan Batubara Vol. 13 Nomor 1, Bandung

Busron, M. R., Sukarsono, R., and Didiek, H., Coal Liquifaction as Oil Substitution, Prosiding Pertemuan dan Pesentasi Ilmiah Penelitian Dasar Ilmu Pengetahuan dan Teknologi Nuklir, Yogyakarta, halaman 141 – 147, 2001.

Pratomo, Economic Analysis to Develop Coal Bed Methane Dart Energy (Tanjung Enim) Pte. Ltd., Thesis, Universitas UPN Veteran, Yogyakarta, 2016.

Geological Study Center, Depth Drilling Report and Coal Gas Measurement, in South Sumatra, 2009.

Kim Ann., Estimating Methane Content of Bituminous Coalbeds From Adsorption Data, Berau of Mines Report of Investigations, 1977.




DOI: http://dx.doi.org/10.24845/ijfac.v2.i3.66

Refbacks

  • There are currently no refbacks.


 

Editorial Office:

Department of Chemistry, Faculty of Mathematics and Natural Sciences, Universitas Sriwijaya
Jl. Palembang-Prabumulih Km.35 Indralaya Ogan Ilir Sumatera Selatan 30662

 

 

Creative Commons License
IJFAC by Department of Chemistry, Faculty of Mathematics and Natural Sciences, Universitas Sriwijaya is licensed under a Creative Commons Attribution-NonCommercial-ShareAlike 4.0 International License