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MUSKOVİTİN KARIŞTIRMALI BİLYALI DEĞİRMENDE YAŞ ÖĞÜTÜLMESİNDE ÖĞÜTME YARDIMCILARININ ETKİSİ

Year 2018, Volume: 57 Issue: 4, 225 - 232, 01.12.2018
https://doi.org/10.30797/madencilik.479902

Abstract

Bu çalışmada, muskovitin karıştırmalı bilyalı değirmende mikronize boyuta (d50: 15 μm) yaş
öğütülmesinde öğütme yardımcılarının (sodyum hegzametafosfat ve poliakrilik asit sodyum tuzu)
etkisi araştırılmıştır. Sonuçlar, özgül enerji tüketimi (kWs/t) ve ürünlerin pülp akış özellikleri dikkate
alınarak değerlendirilmiştir. Deney sonuçlarından, 4000 g/t sodyum hegzametafosfat kullanımı
ile özgül enerji tüketiminden %10,4 ve 1000 g/t poliakrilik asit sodyum tuzu kullanımı ile enerji
tüketiminden %9,9 enerji tasarrufu sağlanabileceği görülmüştür. Ayrıca, öğütme yardımcılarının
pülpün kayma gerilmesi ve viskozite değerlerini azalttığı ancak akış tipini (dilatant) değiştirmediği
tespit edilmiştir. Pülp akış parametrelerindeki bu azalışın enerji tasarrufunun nedeni olduğu
sonucuna varılmıştır.

References

  • Altun O., Benzer H., Toprak A., Enderle U., 2015. Utilization of Grinding Aids in Dry Horizontal Stirred Milling. Powder Technology, 286, 610-615.
  • Ateşok, G., Mütevvelioğlu, N. A., Dinçer, H., Boylu, F., 2005. Bazı Dağıtıcı Kimyasalların Kömürlerin Öğütülebilirliğine Etkisi. Bilimsel Madencilik Dergisi, 44(2), 25-35.
  • Austin, L.G., Klimpel, R. R., Luckie, P. T., 1984. Process Engineering of Size Reduction: Ball Milling. SME, New York, 561 p.
  • Bernhardt, C., Reinsch, E., Husemann, K., 1999. The Influence of Suspension Properties on Ultra- Fine Grinding in Stirred Ball Mills. Powder Technology, 105, 357-361.
  • Cayirli, S., Gokcen, H.S., Ucbas, Y., Kayaci, K., 2014. Fine Grinding of Mica. 14th International Mineral Processing Symposium. Kuşadası, Turkey, 39-43.
  • Chevalier, M.D., 2008. Effect of Microwave Irradiation on Aspect Ratio of Treated Mica. M.Sc. Thesis, Dalhousie University, Nova Scotia, Canada.
  • Choi, H., Lee, W., Kim, S., 2009. Effect of Grinding Aids on the Kinetics of Fine Grinding Energy Consumed of Calcite Powders by a Stirred Ball Mill. Adv. Powder Technol., 20(4), 350–354.
  • Choi, H., Lee, W., Kim, D.U., Kumar, S., Kim, S.S., Chung, H.S., Kim, J.H., Ahn, Y.C., 2010. Effect of Grinding Aids on the Grinding Energy Consumed during Grinding of Calcite in a Stirred Ball Mill. Miner. Eng., 23(1), 54–57.
  • Çayırlı, S., 2014. Mikanın Karıştırmalı Bilyalı Değirmende Öğütülmesinde Öğütme Parametrelerinin Etkisinin Araştırılması. Doktora Tezi, Eskişehir Osmangazi Ü. Fen Bil. Ens., 160 s.
  • Dikmen, S., ve Ergün, Ş.L., 2004. Karıştırmalı Bilyalı Değirmenler. Madencilik Dergisi, 43(4), 3-15.
  • El-Shall, H., Somasundaran, P., 1982. Mechanisms of Grinding Modification by Chemical Additives: Organic Reagents. Annual Meeting of AIME, Dallas, Texas, 22 p.
  • El-Shall, H., Somasundaran, P., 1984. Physico- Chemical Aspects of Grinding: A Review of Use of Additives. Powder Technology, 38, 275- 293.
  • Gokcen, H.S., Cayirli, S., Ucbas, Y., Kayaci, K., 2015. The Effect of Grinding Aids on Dry Micro Fine Grinding of Feldspar. International Journal of Mineral Processing, 136, 42-44.
  • Hanna, K. M., Gamal, A. E., 1977. The Effect of Dispersing Agents on Fine Grinding of Limestone. Powder Technology, 17(1), 19-25.
  • He, M., Wang, Y., Forssberg, E., 2004. Slurry Rheology in Wet Ultrafine Grinding of Industrial Minerals: A Review. Powder Technology, 147, 94–112.
  • He, M., Wang, Y., Forssberg, E., 2006. Parameter Effects on Wet Ultrafine Grinding of Limestone through Slurry Rheology in a Stirred Media Mill. Powder Technology, 161(1), 10-21.
  • Jimenez, J. L. S., 1981. A Detailed Study on Stirred Ball Mill Grinding. Ph.D. Dissertation, Department of Metallurgy and Metallurgical Engineering, The University of Utah, 211 p.
  • Katsioti, M., Tsakiridis, P.E., Giannatos, P., Tsibouki, Z., Marinos, J., 2009. Characterization of Various Cement Grinding Aids and their Impact on Grindability and Cement Performance. Construction and Building Materials, 23(5), 1954-1959.
  • Klimpel, R., Manfroy, W., 1977. Development of Chemical Grinding Aids and their Effect on Selection- for-Breakage and Breakage Distribution Parameters in the Wet Grinding of Ores. XIIth Int. Min. Proc. Cong., Sao Paulo, Brazil.
  • Klimpel, R. R., 1999. The Selection of Wet Grinding Chemical Additives based on Slurry Rheology Control. Powder Technology, 105, 430–435.
  • Lowrison, G. C., 1979. Crushing and Grinding. CRC Press Inc., Cleveland, OH, 60 p.
  • Orumwense, O. A., Forssberg, E., 1992. Superfine and Ultrafine Grinding - A Literature Survey. Mineral Processing and Extractive Metallurgy Review, 11, 107-127.
  • Özkan, A., Yekeler, M., 2001. Palp Reolojisinin Öğütme İşlemine Etkisi ve Kontrolü. Madencilik Dergisi, 40(1), 40-47.
  • Rehbinder, P. A., 1931. Hardness Reduction through Adsorption of Surface Active Agents. Physik, V., 72, 191-205.
  • Reinisch, E., Bernhardt, C., Husemann, K., 2001. The Influence of Additives during Wet Ultra-Fine Grinding in Agitator Bead Mills: Part 1. General Principles and Experimental. Ceramic Forum International: Berichte der Deutschen Keramischen Gesellschaft, 78(3), E38-E42.
  • Rose, H. E., Sullivan, R. M. E., 1958. A Treatise on the Internal Mechanics of Ball, Tube, and Rod Mills. Chemical Publishing Company, New York, NY.
  • Savage, K. I., Austin, L. G., Sun, S. C., 1974. Effect of the Environment during the Ultrafine Comminution of Silicon Carbide in a Laboratory Vibratory Mill. Trans. AIME, 225, 89-96.
  • Somasundaran, P., El-Shall, H., 1983. Mechanochemical Effects in Ultrafine Grinding. SMEAIME, Annual Meeting, Atlanta, Georgia.
  • Toprak, N.A., Altun, O., Aydogan, N., Benzer, H., 2014. The Influences and Selection of Grinding Chemicals in Cement Grinding Circuits. Construction and Building Materials, 68, 199-205.
  • Toprak, N.A., Altun, O., Benzer, H., 2018. The Effects of Grinding Aids on Modelling of Air Classification of Cement. Construction and Building Materials, 160, 564-573.
  • Toraman, O. Y., 2015. Karıştırmalı Bilyalı Değirmende Çok İnce Yaş Öğütme: Bölüm: II. Palp Reolojisi ve Duraylılık. Madencilik, 54(1), 25-36.
  • Wang, Y., Forssberg, E., 2007. Enhancement of Energy Efficiency for Mechanical Production of Fine and Ultra-Fine Particles in Comminution. China Particuology, 5, 193-201.
  • Westwood, A. R. C., Goldheim, D. L., 1968. Occurrence and Mechanism of Rehbinder Effects in CaF2. J. Appl. Physics, 39(7), 3401-3405.
  • Willett, J.C., 2012. Mica. Minerals Yearbook, USGS. Yue, J., Klein, B., 2004. Influence of Rheology on the Performance of Horizontal Stirred Mills. Minerals Engineering, 17, 1169–1177.
  • Zheng, J., Harris, C. C., Somasundaran, P., 1997. The Effect of Additives on Stirred Media Milling of Limestone. Powder Technology, 91, 173-179.
  • Zhou, Z., Scales, P. J., Boger, D. V., 2001. Chemical and Physical Control of the Rheology of Concentrated Metal Oxide Suspensions. Chemical Engineering Science, 56, 2901-2920.
Year 2018, Volume: 57 Issue: 4, 225 - 232, 01.12.2018
https://doi.org/10.30797/madencilik.479902

Abstract

References

  • Altun O., Benzer H., Toprak A., Enderle U., 2015. Utilization of Grinding Aids in Dry Horizontal Stirred Milling. Powder Technology, 286, 610-615.
  • Ateşok, G., Mütevvelioğlu, N. A., Dinçer, H., Boylu, F., 2005. Bazı Dağıtıcı Kimyasalların Kömürlerin Öğütülebilirliğine Etkisi. Bilimsel Madencilik Dergisi, 44(2), 25-35.
  • Austin, L.G., Klimpel, R. R., Luckie, P. T., 1984. Process Engineering of Size Reduction: Ball Milling. SME, New York, 561 p.
  • Bernhardt, C., Reinsch, E., Husemann, K., 1999. The Influence of Suspension Properties on Ultra- Fine Grinding in Stirred Ball Mills. Powder Technology, 105, 357-361.
  • Cayirli, S., Gokcen, H.S., Ucbas, Y., Kayaci, K., 2014. Fine Grinding of Mica. 14th International Mineral Processing Symposium. Kuşadası, Turkey, 39-43.
  • Chevalier, M.D., 2008. Effect of Microwave Irradiation on Aspect Ratio of Treated Mica. M.Sc. Thesis, Dalhousie University, Nova Scotia, Canada.
  • Choi, H., Lee, W., Kim, S., 2009. Effect of Grinding Aids on the Kinetics of Fine Grinding Energy Consumed of Calcite Powders by a Stirred Ball Mill. Adv. Powder Technol., 20(4), 350–354.
  • Choi, H., Lee, W., Kim, D.U., Kumar, S., Kim, S.S., Chung, H.S., Kim, J.H., Ahn, Y.C., 2010. Effect of Grinding Aids on the Grinding Energy Consumed during Grinding of Calcite in a Stirred Ball Mill. Miner. Eng., 23(1), 54–57.
  • Çayırlı, S., 2014. Mikanın Karıştırmalı Bilyalı Değirmende Öğütülmesinde Öğütme Parametrelerinin Etkisinin Araştırılması. Doktora Tezi, Eskişehir Osmangazi Ü. Fen Bil. Ens., 160 s.
  • Dikmen, S., ve Ergün, Ş.L., 2004. Karıştırmalı Bilyalı Değirmenler. Madencilik Dergisi, 43(4), 3-15.
  • El-Shall, H., Somasundaran, P., 1982. Mechanisms of Grinding Modification by Chemical Additives: Organic Reagents. Annual Meeting of AIME, Dallas, Texas, 22 p.
  • El-Shall, H., Somasundaran, P., 1984. Physico- Chemical Aspects of Grinding: A Review of Use of Additives. Powder Technology, 38, 275- 293.
  • Gokcen, H.S., Cayirli, S., Ucbas, Y., Kayaci, K., 2015. The Effect of Grinding Aids on Dry Micro Fine Grinding of Feldspar. International Journal of Mineral Processing, 136, 42-44.
  • Hanna, K. M., Gamal, A. E., 1977. The Effect of Dispersing Agents on Fine Grinding of Limestone. Powder Technology, 17(1), 19-25.
  • He, M., Wang, Y., Forssberg, E., 2004. Slurry Rheology in Wet Ultrafine Grinding of Industrial Minerals: A Review. Powder Technology, 147, 94–112.
  • He, M., Wang, Y., Forssberg, E., 2006. Parameter Effects on Wet Ultrafine Grinding of Limestone through Slurry Rheology in a Stirred Media Mill. Powder Technology, 161(1), 10-21.
  • Jimenez, J. L. S., 1981. A Detailed Study on Stirred Ball Mill Grinding. Ph.D. Dissertation, Department of Metallurgy and Metallurgical Engineering, The University of Utah, 211 p.
  • Katsioti, M., Tsakiridis, P.E., Giannatos, P., Tsibouki, Z., Marinos, J., 2009. Characterization of Various Cement Grinding Aids and their Impact on Grindability and Cement Performance. Construction and Building Materials, 23(5), 1954-1959.
  • Klimpel, R., Manfroy, W., 1977. Development of Chemical Grinding Aids and their Effect on Selection- for-Breakage and Breakage Distribution Parameters in the Wet Grinding of Ores. XIIth Int. Min. Proc. Cong., Sao Paulo, Brazil.
  • Klimpel, R. R., 1999. The Selection of Wet Grinding Chemical Additives based on Slurry Rheology Control. Powder Technology, 105, 430–435.
  • Lowrison, G. C., 1979. Crushing and Grinding. CRC Press Inc., Cleveland, OH, 60 p.
  • Orumwense, O. A., Forssberg, E., 1992. Superfine and Ultrafine Grinding - A Literature Survey. Mineral Processing and Extractive Metallurgy Review, 11, 107-127.
  • Özkan, A., Yekeler, M., 2001. Palp Reolojisinin Öğütme İşlemine Etkisi ve Kontrolü. Madencilik Dergisi, 40(1), 40-47.
  • Rehbinder, P. A., 1931. Hardness Reduction through Adsorption of Surface Active Agents. Physik, V., 72, 191-205.
  • Reinisch, E., Bernhardt, C., Husemann, K., 2001. The Influence of Additives during Wet Ultra-Fine Grinding in Agitator Bead Mills: Part 1. General Principles and Experimental. Ceramic Forum International: Berichte der Deutschen Keramischen Gesellschaft, 78(3), E38-E42.
  • Rose, H. E., Sullivan, R. M. E., 1958. A Treatise on the Internal Mechanics of Ball, Tube, and Rod Mills. Chemical Publishing Company, New York, NY.
  • Savage, K. I., Austin, L. G., Sun, S. C., 1974. Effect of the Environment during the Ultrafine Comminution of Silicon Carbide in a Laboratory Vibratory Mill. Trans. AIME, 225, 89-96.
  • Somasundaran, P., El-Shall, H., 1983. Mechanochemical Effects in Ultrafine Grinding. SMEAIME, Annual Meeting, Atlanta, Georgia.
  • Toprak, N.A., Altun, O., Aydogan, N., Benzer, H., 2014. The Influences and Selection of Grinding Chemicals in Cement Grinding Circuits. Construction and Building Materials, 68, 199-205.
  • Toprak, N.A., Altun, O., Benzer, H., 2018. The Effects of Grinding Aids on Modelling of Air Classification of Cement. Construction and Building Materials, 160, 564-573.
  • Toraman, O. Y., 2015. Karıştırmalı Bilyalı Değirmende Çok İnce Yaş Öğütme: Bölüm: II. Palp Reolojisi ve Duraylılık. Madencilik, 54(1), 25-36.
  • Wang, Y., Forssberg, E., 2007. Enhancement of Energy Efficiency for Mechanical Production of Fine and Ultra-Fine Particles in Comminution. China Particuology, 5, 193-201.
  • Westwood, A. R. C., Goldheim, D. L., 1968. Occurrence and Mechanism of Rehbinder Effects in CaF2. J. Appl. Physics, 39(7), 3401-3405.
  • Willett, J.C., 2012. Mica. Minerals Yearbook, USGS. Yue, J., Klein, B., 2004. Influence of Rheology on the Performance of Horizontal Stirred Mills. Minerals Engineering, 17, 1169–1177.
  • Zheng, J., Harris, C. C., Somasundaran, P., 1997. The Effect of Additives on Stirred Media Milling of Limestone. Powder Technology, 91, 173-179.
  • Zhou, Z., Scales, P. J., Boger, D. V., 2001. Chemical and Physical Control of the Rheology of Concentrated Metal Oxide Suspensions. Chemical Engineering Science, 56, 2901-2920.
There are 36 citations in total.

Details

Primary Language Turkish
Journal Section Research Article
Authors

Serkan Çayırlı 0000-0003-3348-6601

Hasan Serkan Gökçen 0000-0001-5093-6796

Volkan Bozkurt 0000-0002-8617-5631

Yaşar Ucbaş 0000-0001-5757-875X

Publication Date December 1, 2018
Submission Date April 5, 2018
Published in Issue Year 2018 Volume: 57 Issue: 4

Cite

APA Çayırlı, S., Gökçen, H. S., Bozkurt, V., Ucbaş, Y. (2018). MUSKOVİTİN KARIŞTIRMALI BİLYALI DEĞİRMENDE YAŞ ÖĞÜTÜLMESİNDE ÖĞÜTME YARDIMCILARININ ETKİSİ. Bilimsel Madencilik Dergisi, 57(4), 225-232. https://doi.org/10.30797/madencilik.479902
AMA Çayırlı S, Gökçen HS, Bozkurt V, Ucbaş Y. MUSKOVİTİN KARIŞTIRMALI BİLYALI DEĞİRMENDE YAŞ ÖĞÜTÜLMESİNDE ÖĞÜTME YARDIMCILARININ ETKİSİ. Mining. December 2018;57(4):225-232. doi:10.30797/madencilik.479902
Chicago Çayırlı, Serkan, Hasan Serkan Gökçen, Volkan Bozkurt, and Yaşar Ucbaş. “MUSKOVİTİN KARIŞTIRMALI BİLYALI DEĞİRMENDE YAŞ ÖĞÜTÜLMESİNDE ÖĞÜTME YARDIMCILARININ ETKİSİ”. Bilimsel Madencilik Dergisi 57, no. 4 (December 2018): 225-32. https://doi.org/10.30797/madencilik.479902.
EndNote Çayırlı S, Gökçen HS, Bozkurt V, Ucbaş Y (December 1, 2018) MUSKOVİTİN KARIŞTIRMALI BİLYALI DEĞİRMENDE YAŞ ÖĞÜTÜLMESİNDE ÖĞÜTME YARDIMCILARININ ETKİSİ. Bilimsel Madencilik Dergisi 57 4 225–232.
IEEE S. Çayırlı, H. S. Gökçen, V. Bozkurt, and Y. Ucbaş, “MUSKOVİTİN KARIŞTIRMALI BİLYALI DEĞİRMENDE YAŞ ÖĞÜTÜLMESİNDE ÖĞÜTME YARDIMCILARININ ETKİSİ”, Mining, vol. 57, no. 4, pp. 225–232, 2018, doi: 10.30797/madencilik.479902.
ISNAD Çayırlı, Serkan et al. “MUSKOVİTİN KARIŞTIRMALI BİLYALI DEĞİRMENDE YAŞ ÖĞÜTÜLMESİNDE ÖĞÜTME YARDIMCILARININ ETKİSİ”. Bilimsel Madencilik Dergisi 57/4 (December 2018), 225-232. https://doi.org/10.30797/madencilik.479902.
JAMA Çayırlı S, Gökçen HS, Bozkurt V, Ucbaş Y. MUSKOVİTİN KARIŞTIRMALI BİLYALI DEĞİRMENDE YAŞ ÖĞÜTÜLMESİNDE ÖĞÜTME YARDIMCILARININ ETKİSİ. Mining. 2018;57:225–232.
MLA Çayırlı, Serkan et al. “MUSKOVİTİN KARIŞTIRMALI BİLYALI DEĞİRMENDE YAŞ ÖĞÜTÜLMESİNDE ÖĞÜTME YARDIMCILARININ ETKİSİ”. Bilimsel Madencilik Dergisi, vol. 57, no. 4, 2018, pp. 225-32, doi:10.30797/madencilik.479902.
Vancouver Çayırlı S, Gökçen HS, Bozkurt V, Ucbaş Y. MUSKOVİTİN KARIŞTIRMALI BİLYALI DEĞİRMENDE YAŞ ÖĞÜTÜLMESİNDE ÖĞÜTME YARDIMCILARININ ETKİSİ. Mining. 2018;57(4):225-32.

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