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PATLATMA KAYNAKLI PARÇALANMA MODELLERİNİN BİR KUMTAŞI OCAĞINDA İNCELENMESİ

Yıl 2020, , 145 - 156, 01.09.2020
https://doi.org/10.30797/madencilik.792386

Öz

Parçalanma modelleri bir kumtaşı ocağında basamak patlatması operasyonları için incelenmiştir.
Patlatma kaynaklı parçalanmanın değerlendirilmesi amacıyla farklı bakış açıları ortaya konmuştur.
Her atım için boyut dağılım eğrileri çizilmiştir. KuzRam modelinin başarılı sonuçlar verdiği
görülmüştür. KCO modeli özellikle ince boyutlu malzemenin tahmininde başarılıdır. Modellerin
yetkinliği ince, orta ve iri boyutlu malzeme miktarının tahmini açısından detaylı bir şekilde
incelenmiştir. Chung ve Katsabanis modeli pratik olarak uygulanmış ve ocak için bir modifikasyon
önerilmiştir. Modellerin validasyonu için on farklı hata ölçütü kullanılmıştır. Simetrik hata ve ölçekli
hata ölçütlerinin parçalanmanın değerlendirilmesi amacıyla kullanılabilirliği incelenmiştir. KuzRam
modeli ortalama parça boyutunu üç santimetrenin altında bir hata ile tahmin edebilmektedir.
Modifiye edilmiş Chung ve Katsabanis modeli de başarılı sonuçlar vermiştir.

Kaynakça

  • Akyıldız, Ö., 2015. Investigation of Blast Fragmentation Models in Sandstone Quarries, MSc Thesis (In Turkish). Istanbul Technical University, Graduate School of Science, Engineering and Technology.
  • Armstrong, J. S., Collopy, F., 1992. Error Measures for Generalizing About Forecasting Methods: Empirical Comparisons. International Journal of Forecasting, 8 (1), 69-80.
  • Badroddin, M., Bakhtavar, E., Khoshrou, H., Rezaei, B., 2013. Efficiency of Standardized Image Processing in The Fragmentation Prediction In The Case of Sungun Open-Pit Mine. Arabian Journal of Geosciences, 6 (9), 3319–3329. Bond, F. C., 1952. The Third Theory of Comminution. Transactions on AIME Mining Engineering, 193, 484- 494.
  • Chung, S. H., Katsabanis, P. D., 2000. Fragmentation Prediction Using Improved Engineering Formulae. Fragblast, 4 (3-4), 198-207.
  • Cunningham, C. V. B., 1983. The KuzRam Model for Prediction of Fragmentation From Blasting. In: Proceedings of 1st International Symposium on Rock Fragmentation by Blasting, Lulea, Sweden, 440-453.
  • Cunningham, C. V. B., 1987. Fragmentation Estimations and KuzRam Model – Four Years On. In: Proceedings of 2nd Int. Symposium on Rock Fragmentation by Blasting, Keystone, Colorado, 475-487.
  • Cunningham, C. V. B., 2005. The Kuz-Ram Fragmentation Model – 20 Years On. In: Proceedings of The EFEE 5th World Conference on Explosives and Blasting, European Federation of Explosives Engineers, Brighton, 201-210.
  • Djordjevic, N., 1999. Two-Component Model of Blast Fragmentation. In: Proceedings of the 6th International Symposium on Rock Fragmentation by Blasting, SAIMM, Johannesburg, 213–219.
  • Gheibie, S., Aghababaei, H., Hoseinie S. H., Pourrahimian, Y., 2009. Modified Kuz—Ram Fragmentation Model and Its Use at the Sungun Copper Mine. International Journal of Rock Mechanics and Mining Sciences, 46 (6), 967–973.
  • Hudaverdi, T., Kuzu, C., Fisne, A., 2012. Investigation of the Blast Fragmentation Using The Mean Fragment Size and Fragmentation Index. International Journal of Rock Mechanics and Mining Sciences, 56, 136–145.
  • Hyndman, R. J., Koehler, A. B., 2006. Another Look at Measures of Forecast Accuracy. International Journal of Forecasting, 22 (4), 679–688.
  • Kanchibotla, S. S, Valery, W., Morrell, S., 1999. Modelling Fines In Blast Fragmentation and Its Impact on Crushing and Grinding. In: Proceedings of the Explo’99: A Conference on Rock Breaking, Kalgoorlie, WA, 137-344.
  • Kou, S., Rustan, A., 1993. Computerized Design and Result Prediction of Bench Blasting. In: Proceedings of the 4th International Symposium on Rock Fragmentation by Blasting, Vienna, Austria, 263-271.
  • Kuznetsov, V. M., 1973. Mean Diameter of Fragments Formed by Blasting Rock. Soviet Mining Science, 9 (2), 144–148.
  • Larsson, B., 1974. Report on Blasting of High and Low Benches – Fragmentation From Production Blasts. In: Proceedings of The Swedish Rock Construction Committee Discussion Meeting BK 74, Stockholm, 247-273.
  • Lilly, P. A., 1986. An Empirical Method of Assessing Rock Mass Blastability. In: Proceedings of the Large Open Pit Mining Conference, Victoria, Australia, 89–92.
  • Ouchterlony, F., 2003. Influence of Blasting on the Size Distribution and Properties of Muckpile Fragments, A State-Of-The-Art Review, MinFo project P2000-10: Energy Optimization in Comminution. Swebrec, Luleå University of Technology, Sweden, p. 27
  • Ouchterlony, F., 2005a. The Swebrec© Function: Linking Fragmentation by Blasting and Crushing. Mining Technology, 114 (1), 29-44.
  • Ouchterlony, F., 2005b. What Does the Fragment Size Distribution of Blasted Rock Look Like? In: Proceedings of the 3rd EFEE World Conference on Explosive and Blasting, Brighton, 189-199.
  • Rosin, P., Rammler, E., 1933. The Laws Governing the Fineness of Powdered Coal. Journal of the Institute of Fuel, 7, 29–36.
  • Sanchidrián, J. A. Ouchterlony, F., Segarra, P., Moser, P., 2014. Size Distribution Functions for Rock Fragments. International Journal of Rock Mechanics and Mining Sciences, 71, 381–394.
  • Shcherbakov, M. V., Brebels, A., Shcherbakova, N. L., Tyukov, A. P., Janovsky, T. A., Kamaev, V. A., 2013. A Survey of Forecast Error Measures. World Applied Science Journal, 24, 171–176.
  • Stagg, M. S., Rholl, S. A., 1987. Effects of Accurate Delays on Fragmentation for Single-Row Blasting In A 6.7 M (22-Ft) Bench. In: Proceedings of the 2nd International Symposium on Rock Fragmentation by Blasting, Keystone, Colorado, 210-223.
  • Tosun, A., Konak, G., Toprak, T., Karakus, D., Onur, A. H., 2014. Development of the Kuz-Ram Model to Blasting in a Limestone Quarry. Archives of Mining Sciences 59 (2), 477–488.
  • Tugrul, A., Undul, O., 2006. Engineering Geological Characteristics of Istanbul Greywackes. In: Proceedings of the 10th International Association for Engineering Geology and the Environment (IAEG) Congress, Nottingham, United Kingdom, 395.
  • Weibull, W., 1951. A Statistical Distribution Function of Wide Applicability. ASME Journal of Applied Mechanics, 18, 293–297.
  • WipFrag Operating Manual, 2016. WipWare Inc., Ontario, Canada.

INVESTIGATION OF BLAST FRAGMENTATION MODELS IN A SANDSTONE QUARRY

Yıl 2020, , 145 - 156, 01.09.2020
https://doi.org/10.30797/madencilik.792386

Öz

The existing blast fragmentation models were investigated in a sandstone quarry for bench blasting
operations. It was tried to present different perspectives for evaluation of blast fragmentation.
Size distribution curves were created for each blast. KuzRam model provided successful results.
Kuznetsov-Cunningham-Ouchterlony (KCO) model was useful especially for the fine size
predictions. Capability of the models for fine, mean and coarse size predictions were evaluated in
detail. Uniformity coefficients proposed by the models were examined. Chung & Katsabanis model
was practically tested and a modification implemented for the studied quarry. Model validation was
performed using ten different error metrics. Applicability of symmetric errors and scaled errors was
investigated for evaluation of blast fragmentation. KuzRam model predicted mean fragment size
with an error lower than three centimeters. The results of the modified Chung & Katsabanis model
is quite promise.

Kaynakça

  • Akyıldız, Ö., 2015. Investigation of Blast Fragmentation Models in Sandstone Quarries, MSc Thesis (In Turkish). Istanbul Technical University, Graduate School of Science, Engineering and Technology.
  • Armstrong, J. S., Collopy, F., 1992. Error Measures for Generalizing About Forecasting Methods: Empirical Comparisons. International Journal of Forecasting, 8 (1), 69-80.
  • Badroddin, M., Bakhtavar, E., Khoshrou, H., Rezaei, B., 2013. Efficiency of Standardized Image Processing in The Fragmentation Prediction In The Case of Sungun Open-Pit Mine. Arabian Journal of Geosciences, 6 (9), 3319–3329. Bond, F. C., 1952. The Third Theory of Comminution. Transactions on AIME Mining Engineering, 193, 484- 494.
  • Chung, S. H., Katsabanis, P. D., 2000. Fragmentation Prediction Using Improved Engineering Formulae. Fragblast, 4 (3-4), 198-207.
  • Cunningham, C. V. B., 1983. The KuzRam Model for Prediction of Fragmentation From Blasting. In: Proceedings of 1st International Symposium on Rock Fragmentation by Blasting, Lulea, Sweden, 440-453.
  • Cunningham, C. V. B., 1987. Fragmentation Estimations and KuzRam Model – Four Years On. In: Proceedings of 2nd Int. Symposium on Rock Fragmentation by Blasting, Keystone, Colorado, 475-487.
  • Cunningham, C. V. B., 2005. The Kuz-Ram Fragmentation Model – 20 Years On. In: Proceedings of The EFEE 5th World Conference on Explosives and Blasting, European Federation of Explosives Engineers, Brighton, 201-210.
  • Djordjevic, N., 1999. Two-Component Model of Blast Fragmentation. In: Proceedings of the 6th International Symposium on Rock Fragmentation by Blasting, SAIMM, Johannesburg, 213–219.
  • Gheibie, S., Aghababaei, H., Hoseinie S. H., Pourrahimian, Y., 2009. Modified Kuz—Ram Fragmentation Model and Its Use at the Sungun Copper Mine. International Journal of Rock Mechanics and Mining Sciences, 46 (6), 967–973.
  • Hudaverdi, T., Kuzu, C., Fisne, A., 2012. Investigation of the Blast Fragmentation Using The Mean Fragment Size and Fragmentation Index. International Journal of Rock Mechanics and Mining Sciences, 56, 136–145.
  • Hyndman, R. J., Koehler, A. B., 2006. Another Look at Measures of Forecast Accuracy. International Journal of Forecasting, 22 (4), 679–688.
  • Kanchibotla, S. S, Valery, W., Morrell, S., 1999. Modelling Fines In Blast Fragmentation and Its Impact on Crushing and Grinding. In: Proceedings of the Explo’99: A Conference on Rock Breaking, Kalgoorlie, WA, 137-344.
  • Kou, S., Rustan, A., 1993. Computerized Design and Result Prediction of Bench Blasting. In: Proceedings of the 4th International Symposium on Rock Fragmentation by Blasting, Vienna, Austria, 263-271.
  • Kuznetsov, V. M., 1973. Mean Diameter of Fragments Formed by Blasting Rock. Soviet Mining Science, 9 (2), 144–148.
  • Larsson, B., 1974. Report on Blasting of High and Low Benches – Fragmentation From Production Blasts. In: Proceedings of The Swedish Rock Construction Committee Discussion Meeting BK 74, Stockholm, 247-273.
  • Lilly, P. A., 1986. An Empirical Method of Assessing Rock Mass Blastability. In: Proceedings of the Large Open Pit Mining Conference, Victoria, Australia, 89–92.
  • Ouchterlony, F., 2003. Influence of Blasting on the Size Distribution and Properties of Muckpile Fragments, A State-Of-The-Art Review, MinFo project P2000-10: Energy Optimization in Comminution. Swebrec, Luleå University of Technology, Sweden, p. 27
  • Ouchterlony, F., 2005a. The Swebrec© Function: Linking Fragmentation by Blasting and Crushing. Mining Technology, 114 (1), 29-44.
  • Ouchterlony, F., 2005b. What Does the Fragment Size Distribution of Blasted Rock Look Like? In: Proceedings of the 3rd EFEE World Conference on Explosive and Blasting, Brighton, 189-199.
  • Rosin, P., Rammler, E., 1933. The Laws Governing the Fineness of Powdered Coal. Journal of the Institute of Fuel, 7, 29–36.
  • Sanchidrián, J. A. Ouchterlony, F., Segarra, P., Moser, P., 2014. Size Distribution Functions for Rock Fragments. International Journal of Rock Mechanics and Mining Sciences, 71, 381–394.
  • Shcherbakov, M. V., Brebels, A., Shcherbakova, N. L., Tyukov, A. P., Janovsky, T. A., Kamaev, V. A., 2013. A Survey of Forecast Error Measures. World Applied Science Journal, 24, 171–176.
  • Stagg, M. S., Rholl, S. A., 1987. Effects of Accurate Delays on Fragmentation for Single-Row Blasting In A 6.7 M (22-Ft) Bench. In: Proceedings of the 2nd International Symposium on Rock Fragmentation by Blasting, Keystone, Colorado, 210-223.
  • Tosun, A., Konak, G., Toprak, T., Karakus, D., Onur, A. H., 2014. Development of the Kuz-Ram Model to Blasting in a Limestone Quarry. Archives of Mining Sciences 59 (2), 477–488.
  • Tugrul, A., Undul, O., 2006. Engineering Geological Characteristics of Istanbul Greywackes. In: Proceedings of the 10th International Association for Engineering Geology and the Environment (IAEG) Congress, Nottingham, United Kingdom, 395.
  • Weibull, W., 1951. A Statistical Distribution Function of Wide Applicability. ASME Journal of Applied Mechanics, 18, 293–297.
  • WipFrag Operating Manual, 2016. WipWare Inc., Ontario, Canada.
Toplam 27 adet kaynakça vardır.

Ayrıntılar

Birincil Dil İngilizce
Bölüm Araştırma Makalesi
Yazarlar

Türker Hüdaverdi Bu kişi benim 0000-0002-9326-9935

Özge Akyıldız Bu kişi benim 0000-0002-5538-4211

Yayımlanma Tarihi 1 Eylül 2020
Gönderilme Tarihi 25 Mayıs 2019
Yayımlandığı Sayı Yıl 2020

Kaynak Göster

APA Hüdaverdi, T., & Akyıldız, Ö. (2020). INVESTIGATION OF BLAST FRAGMENTATION MODELS IN A SANDSTONE QUARRY. Bilimsel Madencilik Dergisi, 59(3), 145-156. https://doi.org/10.30797/madencilik.792386
AMA Hüdaverdi T, Akyıldız Ö. INVESTIGATION OF BLAST FRAGMENTATION MODELS IN A SANDSTONE QUARRY. Madencilik. Eylül 2020;59(3):145-156. doi:10.30797/madencilik.792386
Chicago Hüdaverdi, Türker, ve Özge Akyıldız. “INVESTIGATION OF BLAST FRAGMENTATION MODELS IN A SANDSTONE QUARRY”. Bilimsel Madencilik Dergisi 59, sy. 3 (Eylül 2020): 145-56. https://doi.org/10.30797/madencilik.792386.
EndNote Hüdaverdi T, Akyıldız Ö (01 Eylül 2020) INVESTIGATION OF BLAST FRAGMENTATION MODELS IN A SANDSTONE QUARRY. Bilimsel Madencilik Dergisi 59 3 145–156.
IEEE T. Hüdaverdi ve Ö. Akyıldız, “INVESTIGATION OF BLAST FRAGMENTATION MODELS IN A SANDSTONE QUARRY”, Madencilik, c. 59, sy. 3, ss. 145–156, 2020, doi: 10.30797/madencilik.792386.
ISNAD Hüdaverdi, Türker - Akyıldız, Özge. “INVESTIGATION OF BLAST FRAGMENTATION MODELS IN A SANDSTONE QUARRY”. Bilimsel Madencilik Dergisi 59/3 (Eylül 2020), 145-156. https://doi.org/10.30797/madencilik.792386.
JAMA Hüdaverdi T, Akyıldız Ö. INVESTIGATION OF BLAST FRAGMENTATION MODELS IN A SANDSTONE QUARRY. Madencilik. 2020;59:145–156.
MLA Hüdaverdi, Türker ve Özge Akyıldız. “INVESTIGATION OF BLAST FRAGMENTATION MODELS IN A SANDSTONE QUARRY”. Bilimsel Madencilik Dergisi, c. 59, sy. 3, 2020, ss. 145-56, doi:10.30797/madencilik.792386.
Vancouver Hüdaverdi T, Akyıldız Ö. INVESTIGATION OF BLAST FRAGMENTATION MODELS IN A SANDSTONE QUARRY. Madencilik. 2020;59(3):145-56.

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