Penentuan rasio optimum campuran CPO: batubara dalam desulfurisasi dan deashing secara flotasi sistem kontinyu

Andi  Aladin

doi:10.22146/jrekpros.567

Research article

Vol 3 No 2 (2009): Volume 3, Number 2, 2009

Penentuan rasio optimum campuran CPO: batubara dalam desulfurisasi dan deashing secara flotasi sistem kontinyu

Andi Aladin⁺⁻

pdf (Bahasa Indonesia)

DOI: https://doi.org/10.22146/jrekpros.567
Submitted: November 13, 2023
Published: December 31, 2009

Abstract

The problem related to the utilisation of Indonesian coal is the high sulphur and ash contents of the coal which may defect the combustor units and pollute the environment. Flotation is one of the methods to reduce the inorganic sulphur and ash in coal. Research on desulphurisation and deashing of coal from Mallawa (Sulawesi) was performed in a continuous flotation column. Variables which give maximum desulphurisation were studied and covered in this article, e.g. mixing ratio of crude palm oil (CPO) surfactant to coal. It was found that optimum mixing ratio of CPO to coal was 1:4, based on optimum conditions previously determined, i.e. resident time of 60 minutes, air flow rate of 1.22 l/min, pH 6.5 and coal particle size of 169 m. In these optimum conditions, the sulphur content was reduced from 3.3% to 0.93% or 72% sulphur recovery, while the ash content was reduced from 11.25% to 9.75%, the calorific value was maintained at 6000 kcal/kg. The desulphurised and deashed coal meets the specification criteria of the industrial fuel.

References

Aladin, A., Mandasini, Lastri W., Roesyadi A. dan Mahfud, 2005. Desulfurisasi Batubara Secara Flotasi Menggunakan Kolektor Minyak Sawit, Laporan Panelitian HIBAH PEKERTI 2004/2005.
Aladin, A., Mandasini, Lastri W., dan Suryanto, A., 2008. Desulfurisasi Batubara Secara Flotasi Sistem Kontinyu, Prosiding Seminar Nasional Teknik Kimia Soehadi Reksowardojo, ITB, Bandung, November 2008.
Aladin, A., Mandasini, Lastri W., dan Suryanto, A., 2008. Desulfurisasi Batubara Secara Flotasi Sistem Kontinyu (Penentuan Waktu Tinggal & pH Optimum), Jurnal INDUSTRI, FTI ITS, Surabaya.
Al-Fariss, T.F., El-Aleem, F.A.A., and Al-Qahtani, M.S., 2002. The Application Of Column Flotation Technology in The Beneficiation Of Saudi Phosphate Ores, The Proceedings of RSCE and 16th SOMChE, 28-30 Oct 2002, Malaysia.
Bayrak, N. and O’Donnell, J., A., 2004. Recovery of Fine Coals by Column Flotation, paper #918.
Davis, M.L. and Cornwell D.A., 1998. Introduction to Enviromental Engineering, 3ed. McGraw-Hill, pp. 459-549.
Demirbas, 2002. Demineralization and Desulphurization of Coals via Column Froth Flotation and Different Methods, Journal of Energy Conversion & Management 43, 885-895.
Greenkorn, R.A. and Kessler, D.P., 1972. Transfer Operations, International Student Edition, McGraw-Hill Kogakusha, Ltd., Tokyo, pp. 91 –138.
Hessley, R. K., Reasoner, J.W and Riley, J.T., 1986. Coal Science 10, John Wiley & Sons, Inc., New York, pp. 182-257.
Kawatra, S.,K. and Eisele,T.,C., 1997, Pyrit Recovery Mechanisms in Coal Flotation, Journal of Mineral Processing 50, 187-201.
Krevelen, D. W. V., 1993. Coal; Typology – Physics – Chemistry – Constitution, Third edition, Elsevier Science Publishers B.V., Amsterdam.
Mandasini dan Aladin, A. , 2003. Desulfurisasi Batubara Secara Flotasi, Prosiding Seminar Nasional Teknologi Proses Kimia V, UI Jakarta, (ISBN: 1410-9891).
McKetta, J., J., 1993. Unit Operation Handbook, 10th edition, vol. 2, Marcel Dekker, Inc. New York. pp. 177 – 230.
Mukherjee, S. and Borthakur, P. C., 2001. Chemical Demineralization / Desulfurization Of High Sulphur Coal Using Sodium Hydoroxyde And Acid Solutions, Journal of FUEL 80, 2037-2040.
Peele, R., and Church, J.A., 1941, Mining Engineers’ Handbook, Third edition, Vol II, John Willy & Sons Inc, pp. 39.30-39.31.
Raznjevic, K., 1976. Handbook Of Thermodynamic Tabels and Charts, McGraw-Hill Book Company, New York.
Robert, P., et al, 1980. Annual Book Of ASTM Standards, Part 26, American Society For Testing and Materials.
Roesyadi, A., Mahfud dan Aladin, A. 2005, Karakterisasi, Desulfurisasi dan Deashing Batubara Asal Sulawesi Secara Flotasi, Jurnal Media Teknik edisi Februari 2005, Fak. Teknik UGM Yogyakarta
Suyartono and Indria, B., 2000. The Future of Coal and its Industry in Indonesia, Indonesian Mining Journal 6, 78-85.
Thomas, T., 1995. Developments For the Precombution Removal of Inorganic Sulfur From Coal, Journal of Fuel Processing Technology 43, 123-128.
Weihong, L., 1998. Market Analysis and Environmental Effect of Clean Coal Technology (www.google.com, 5 april 2003)

[1] Aladin, A., Mandasini, Lastri W., Roesyadi A. dan Mahfud, 2005. Desulfurisasi Batubara Secara Flotasi Menggunakan Kolektor Minyak Sawit, Laporan Panelitian HIBAH PEKERTI 2004/2005.

[2] Aladin, A., Mandasini, Lastri W., dan Suryanto, A., 2008. Desulfurisasi Batubara Secara Flotasi Sistem Kontinyu, Prosiding Seminar Nasional Teknik Kimia Soehadi Reksowardojo, ITB, Bandung, November 2008.

[3] Aladin, A., Mandasini, Lastri W., dan Suryanto, A., 2008. Desulfurisasi Batubara Secara Flotasi Sistem Kontinyu (Penentuan Waktu Tinggal & pH Optimum), Jurnal INDUSTRI, FTI ITS, Surabaya.

[4] Al-Fariss, T.F., El-Aleem, F.A.A., and Al-Qahtani, M.S., 2002. The Application Of Column Flotation Technology in The Beneficiation Of Saudi Phosphate Ores, The Proceedings of RSCE and 16th SOMChE, 28-30 Oct 2002, Malaysia.

[5] Bayrak, N. and O’Donnell, J., A., 2004. Recovery of Fine Coals by Column Flotation, paper #918.

[6] Davis, M.L. and Cornwell D.A., 1998. Introduction to Enviromental Engineering, 3ed. McGraw-Hill, pp. 459-549.

[7] Demirbas, 2002. Demineralization and Desulphurization of Coals via Column Froth Flotation and Different Methods, Journal of Energy Conversion & Management 43, 885-895.

[8] Greenkorn, R.A. and Kessler, D.P., 1972. Transfer Operations, International Student Edition, McGraw-Hill Kogakusha, Ltd., Tokyo, pp. 91 –138.

[9] Hessley, R. K., Reasoner, J.W and Riley, J.T., 1986. Coal Science 10, John Wiley & Sons, Inc., New York, pp. 182-257.

[10] Kawatra, S.,K. and Eisele,T.,C., 1997, Pyrit Recovery Mechanisms in Coal Flotation, Journal of Mineral Processing 50, 187-201.

[11] Krevelen, D. W. V., 1993. Coal; Typology – Physics – Chemistry – Constitution, Third edition, Elsevier Science Publishers B.V., Amsterdam.

[12] Mandasini dan Aladin, A. , 2003. Desulfurisasi Batubara Secara Flotasi, Prosiding Seminar Nasional Teknologi Proses Kimia V, UI Jakarta, (ISBN: 1410-9891).

[13] McKetta, J., J., 1993. Unit Operation Handbook, 10th edition, vol. 2, Marcel Dekker, Inc. New York. pp. 177 – 230.

[14] Mukherjee, S. and Borthakur, P. C., 2001. Chemical Demineralization / Desulfurization Of High Sulphur Coal Using Sodium Hydoroxyde And Acid Solutions, Journal of FUEL 80, 2037-2040.

[15] Peele, R., and Church, J.A., 1941, Mining Engineers’ Handbook, Third edition, Vol II, John Willy & Sons Inc, pp. 39.30-39.31.

[16] Raznjevic, K., 1976. Handbook Of Thermodynamic Tabels and Charts, McGraw-Hill Book Company, New York.

[17] Robert, P., et al, 1980. Annual Book Of ASTM Standards, Part 26, American Society For Testing and Materials.

[18] Roesyadi, A., Mahfud dan Aladin, A. 2005, Karakterisasi, Desulfurisasi dan Deashing Batubara Asal Sulawesi Secara Flotasi, Jurnal Media Teknik edisi Februari 2005, Fak. Teknik UGM Yogyakarta

[19] Suyartono and Indria, B., 2000. The Future of Coal and its Industry in Indonesia, Indonesian Mining Journal 6, 78-85.

[20] Thomas, T., 1995. Developments For the Precombution Removal of Inorganic Sulfur From Coal, Journal of Fuel Processing Technology 43, 123-128.

[21] Weihong, L., 1998. Market Analysis and Environmental Effect of Clean Coal Technology (www.google.com, 5 april 2003)

Penentuan rasio optimum campuran CPO: batubara dalam desulfurisasi dan deashing secara flotasi sistem kontinyu

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