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CHEMICAL ACTIVATED GRINDING OF KUTAHYA GEDIZ LIGNITE, SIRNAK ASPHALTITE AND SHALE BY ACIDIC COAL MINE WATER

Tosun, Yildirim I.

First published: 2014-06-20https://doi.org/10.5593/sgem2014/b13/s4.108View metrics

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Publication details

Title
CHEMICAL ACTIVATED GRINDING OF KUTAHYA GEDIZ LIGNITE, SIRNAK ASPHALTITE AND SHALE BY ACIDIC COAL MINE WATER
Authors
Tosun, Yildirim I.
Proceedings
SGEM International Multidisciplinary Scientific GeoConference EXPO Proceedings; 14th SGEM GeoConference on SCIENCE AND TECHNOLOGIES IN GEOLOGY, EXPLORATION AND MINING
Publisher
Stef92 Technology
Year
2014
Pages
Not available yet
ISSN
1314-2704
ISBN
978-619-7105-09-4
Language
en
Publication type
Conference Paper
References30
  1. Howard, P.H. Datta, R.S., 1977, Chemical Cominution: A Process for Liberating the Mineral matter from Coal, Coal Desulfurization (Ed. T. Wheelock) Washington, ACS Series 64, pp.58-64.

  2. Howard, P.H. Datta, R.S., Hanchett, A. 1976, Pre-combustion Coal Cleaning Using Chemical Cominution: NCA/BCR Coal Conference and Expo Coal: Energy for Independence, Lousville.

  3. Bond,F.C. 1952, The third theory of comminution, Trans. AIME, 193 (1952), pp. 484–494

  4. Refahi,A., Rezai,B., Mohande si,J.A., 2007,Use of rock mechanical properties to predict the Bond crushing index, Miner. Eng., 20 (7) (2007), pp. 662–669 Figure 4. Bond breakage with chemically treated coal samples in 3 days.. Figure 5. Bond breakage with chemically treated coal samples in 3 days.. Section Mineral Processing

  5. Tavares,L.M., King,R.P., 2002, Modeling of particle breakage by repeated impacts using continuum damage mechanics, Powder Technol., 123, pp. 138–146

  6. Tavares,L.M., King,R.P., 2005,Continuum damage modeling of particle fracture, ZKG Int., 58 , pp. 49–58

  7. Unland G., Szczelina,P., 2005, Coarse crushing of brittle rocks by compression, Int. J. Miner. Process., 74S, pp. S209–S217

  8. Toroman Ö.Y., Uçurum, M., 2012, The effect of various operating parameters on fine grinding in a pilot scale Ball Mill, Proceedings of XIII International Mineral Processing Symposium, Bodrum, Turkey pp13-10

  9. Gökçen HS., Çayırlı S, Ucbas Y.,Kayacı K, 2012, Dry Grinding of Sodium Feldspar in a Stirred Ball Mill, Proceedings of XIII International Mineral Processing Symposium, Bodrum, Turkey pp21-28Tavares, L.M., 2007, Breakage of Single Particles: Quasi-static, Salman,A.D. Ghadiri,M. Hounslow M.J.(Eds.),2007, Handbook of Particle Breakage, vol. 12Elsevier (2007), pp. 3 – 69A.N. Sengupta,2002, An assessment of grindability index of coal,Fuel Process Technol, 76 (1) (2002), pp. 1 –

  10. ASTM D406, 2006, Hardgrove Grinding Index, ASTM Standards Inst.

  11. P. Li, Y. Xiong, D. Yu, X. Sun,2005,Prediction of grindability with multivariable regression and neural network in Chinese coal,Fuel, 84 (18) (2005), pp. 2384–2388

  12. G. Özbayoğlu, A.M. Özba yoğlu, M.E. Özbayoğlu,2008, Estimation of Hardgrove Grindability Index of Turkish coals by neural networks, Int J Miner Process, 85 (4) (2008), pp. 93–100

  13. Austin,L.G. 2004, A preliminary simulation model for fine grinding in high speed hammer mills, Powder Technol., 143–144 (25) (2004), pp. 240–252

  14. Bergstrom,B.H. 1985, Crushability and grindability, N.L. Weiss (Ed.), SME Mineral Processing Handbook, vol. 2Littleton (1985), pp. 30-65–30-68

  15. Tavares,L.M., King,R.P., 1998, Single-particle fracture under impact loading, Int. J. Miner. Process., 54 (1998), pp. 1–28

  16. Howard, P.H. Datta, R.S., 1977, Chemical Cominution: A Process for Liberating the Mineral matter from Coal, Coal Desulfurization (Ed. T. Wheelock) Washington, ACS Series 64, pp.58-64.

  17. Howard, P.H. Datta, R.S., Hanchett, A. 1976, Pre-combustion Coal Cleaning Using Chemical Cominution: NCA/BCR Coal Conference and Expo Coal: Energy for Independence, Lousville.

  18. Bond,F.C. 1952, The third theory of comminution, Trans. AIME, 193 (1952), pp. 484–494

  19. Refahi,A., Rezai,B., Mohande si,J.A., 2007,Use of rock mechanical properties to predict the Bond crushing index, Miner. Eng., 20 (7) (2007), pp. 662–669 Figure 4. Bond breakage with chemically treated coal samples in 3 days.. Figure 5. Bond breakage with chemically treated coal samples in 3 days.. Section Mineral Processing

  20. Tavares,L.M., King,R.P., 2002, Modeling of particle breakage by repeated impacts using continuum damage mechanics, Powder Technol., 123, pp. 138–146

  21. Tavares,L.M., King,R.P., 2005,Continuum damage modeling of particle fracture, ZKG Int., 58 , pp. 49–58

  22. Unland G., Szczelina,P., 2005, Coarse crushing of brittle rocks by compression, Int. J. Miner. Process., 74S, pp. S209–S217

  23. Toroman Ö.Y., Uçurum, M., 2012, The effect of various operating parameters on fine grinding in a pilot scale Ball Mill, Proceedings of XIII International Mineral Processing Symposium, Bodrum, Turkey pp13-10

  24. Gökçen HS., Çayırlı S, Ucbas Y.,Kayacı K, 2012, Dry Grinding of Sodium Feldspar in a Stirred Ball Mill, Proceedings of XIII International Mineral Processing Symposium, Bodrum, Turkey pp21-28Tavares, L.M., 2007, Breakage of Single Particles: Quasi-static, Salman,A.D. Ghadiri,M. Hounslow M.J.(Eds.),2007, Handbook of Particle Breakage, vol. 12Elsevier (2007), pp. 3 – 69A.N. Sengupta,2002, An assessment of grindability index of coal,Fuel Process Technol, 76 (1) (2002), pp. 1 –

  25. ASTM D406, 2006, Hardgrove Grinding Index, ASTM Standards Inst.

  26. P. Li, Y. Xiong, D. Yu, X. Sun,2005,Prediction of grindability with multivariable regression and neural network in Chinese coal,Fuel, 84 (18) (2005), pp. 2384–2388

  27. G. Özbayoğlu, A.M. Özba yoğlu, M.E. Özbayoğlu,2008, Estimation of Hardgrove Grindability Index of Turkish coals by neural networks, Int J Miner Process, 85 (4) (2008), pp. 93–100

  28. Austin,L.G. 2004, A preliminary simulation model for fine grinding in high speed hammer mills, Powder Technol., 143–144 (25) (2004), pp. 240–252

  29. Bergstrom,B.H. 1985, Crushability and grindability, N.L. Weiss (Ed.), SME Mineral Processing Handbook, vol. 2Littleton (1985), pp. 30-65–30-68

  30. Tavares,L.M., King,R.P., 1998, Single-particle fracture under impact loading, Int. J. Miner. Process., 54 (1998), pp. 1–28

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