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A NEW PERSPECTIVE ON REDUCING ENERGY CONSUMPTION IN GRANITE CUTTING WITH A MULTI-BLADE BLOCK CUTTER: THE CASE OF AN INDUSTRIAL

Yıl 2021, Cilt: 9 Sayı: 2, 60 - 76, 30.08.2021
https://doi.org/10.20290/estubtdb.959069

Öz

In recent years, the use of natural stone, especially in the construction sector, has increased as a result of rapid economic development. One of the most important cost parameters in natural stone cutting processes is energy costs. Generally, cut granites with block cutters differ from other rocks in terms of both the cutting machines used and the energy consumed. Increases in energy prices and emission reduction requirements require cutting processes to work most efficiently. This article describes the energy consumption process in a stone processing plant, and makes recommendations to decision-makers for the more efficient use of energy. A total of 456 real cutting tests were conducted at three different cutting depths and at three different feed rates using a multi-blade block cutter with 10 saw blades at a plant with a monthly production capacity of over 4000 square meters. Real time energy consumption values were recorded with the help of a power analyser installed on the control panel of the block cutter. The obtained data were used to calculate specific cutting energy values, and the energy consumed throughout the entire process was analysed. The energy consumption values as the saw blade moves back and forth were examined in eight different regions, starting with the first phase in which the saw blade approaches the granite block. From the obtained power consumption values and calculated specific cutting energy values, an approach has been introduced in terms of cutting efficiency to the specific cutting energy values and energy consumption characteristics in rock cutting processes using circular saw blade.

Kaynakça

  • [1] Mendoza J-MF, Capitano C, Peri G, Josa A, Rieradevall J, Gabarrell X. Environmental management of granite slab production from an industrial ecology standpoint. Journal of Cleaner Production 2014;84:619–28. https://doi.org/10.1016/j.jclepro.2014.03.056.
  • [2] López-Buendía AM, Romero-Sánchez M, Rodes JM, Cuevas JM, Guillem C. Energy Efficiency Contribution of the Natural Stone: Approach in Processing and Application. Global Stone Congress, Alicante, Spain 2010, p. 1–4.
  • [3] Çınar SM, Çimen H, Zengin A. Control Applications for Energy Saving in Marble Machining Process. International Journal of Machine Learning and Computing 2012; 2:695–700. https://doi.org/10.7763/IJMLC.2012.V2.217.
  • [4] Tönshoff HK, Warnecke G. Research on stone sawing. In: Advances in Ultrahard Materials Application Technology 1982; 1:36–49.
  • [5] Jennings M, Wright D. Guidelines for Sawing Stone. Industrial Diamond Review, 1989; 2:70–4.
  • [6] Luo SY, Liao YS. Effects of diamond grain characteristics on sawblade wear. International Journal of Machine Tools and Manufacture 1993; 33:257–66. https://doi.org/http://dx.doi.org/10.1016/0890-6955(93)90078-9.
  • [7] Luo SY, Liao YS. Study of the behaviour of diamond saw-blades in stone processing. Journal of Materials Processing Technology, 1995; 51:296–308. https://doi.org/http://dx.doi.org/10.1016/0924-0136(94)01603-X.
  • [8] Konstanty J. Theoretical analysis of stone sawing with diamonds. Journal of Materials Processing Technology 2002; 123:146–54. https://doi.org/10.1016/S0924-0136(02)00071-7.
  • [9] Brook B. Principles of diamond tool technology for sawing rock. International Journal of Rock Mechanics and Mining Sciences 2002; 39:41–58. https://doi.org/10.1016/S1365-1609(02)00007-2.
  • [10] Tönshoff HK, Denkena B, Apmann HH, Asche J. Diamond Tools in Stone and Civil Engineering Industry - Cutting Principles, Wear and Applications. Key Engineering Materials 2003; 250:103–9.
  • [11] Konstanty J. Production of Diamond Sawblades for Stone Sawing Applications. Key Engineering Materials 2003; 250:1–12.
  • [12] Buyuksagis IS. Effect of cutting mode on the sawability of granites using segmented circular diamond sawblade. Journal of Materials Processing Technology 2007; 183:399–406.
  • [13] Yurdakul M. Effect of cutting parameters on consumed power in industrial granite cutting processes performed with the multi-disc block cutter. International Journal of Rock Mechanics and Mining Sciences 2015; 76:104–11.
  • [14] Tumac D. Artificial neural network application to predict the sawability performance of large diameter circular saws. Measurement 2016; 80:12–20.
  • [15] Bai S, Zhang J, Wang Z. Selection of a sustainable technology for cutting granite block into slabs. Journal of Cleaner Production 2016; 112:2278–91.
  • [16] Aryafar A, Mikaeil R. Estimation of the Ampere Consumption of Dimension Stone Sawing Machine Using of Artificial Neural Networks. International Journal of Mining and Geo-Engineering 2016; 50:121–30.
  • [17] Huang G, Zhang M, Huang H, Guo H, Xu X. Estimation of Power Consumption in the Circular Sawing of Stone Based on Tangential Force Distribution. Rock Mechanics and Rock Engineering 2017; 51.
  • [18] Tumac D, Shaterpour-Mamaghani A. Estimating the sawability of large diameter circular saws based on classification of natural stone types according to the geological origin. International Journal of Rock Mechanics and Mining Sciences 2018; 101:18–32.
  • [19] Maitre R, Streckeisen A, Zanettin B, Le Bas M, Bonin B, Bateman P. Igneous Rocks: A Classification and Glossary of Terms. Igneous Rocks: A Classification and Glossary of Terms, Edited by R W Le Maitre and A Streckeisen and B Zanettin and M J Le Bas and B Bonin and P Bateman, Pp 252 ISBN 0521619483 Cambridge, UK: Cambridge University Press, January 2005 2004; 1.
  • [20] Ersoy A, Atıcı U. Performance characteristics of circular diamond saws in cutting different types of rocks. Diamond and Related Materials 2004; 13:22–37.
  • [21] Hausberger P. Stone Machinability. International Diamond Review 1990;5:258–61.
  • [22] Marcel A, Rigatti Y, Cleiton L, Assis F, Coelho R, Jasinevicius R, et al. Computational Method for Calculation of The Specific Cutting Energy. 22nd International Congress of Mechanical Engineering 2013; p. 2710–2715.
  • [23] Polini W, Turchetta S. Force and specific energy in stone cutting by diamond mill. International Journal of Machine Tools and Manufacture 2004; 44:1189–96.
  • [24] Yurdakul M. Sawability Prediction of Carbonate Natural Stones Using Artificial Neural Networks. (Unpublished Doctoral Dissertation Thesis). Eskisehir Osmangazi University. Eskisehir Osmangazi University, 2009.
  • [25] Ersoy A, Buyuksagic S, Atici U. Wear characteristics of circular diamond saws in the cutting of different hard abrasive rocks. Wear 2005; 258:1422–36.

A NEW PERSPECTIVE ON REDUCING ENERGY CONSUMPTION IN GRANITE CUTTING WITH A MULTI-BLADE BLOCK CUTTER: THE CASE OF AN INDUSTRIAL

Yıl 2021, Cilt: 9 Sayı: 2, 60 - 76, 30.08.2021
https://doi.org/10.20290/estubtdb.959069

Öz

In recent years, the use of natural stone, especially in the construction sector, has increased as a result of rapid economic development. One of the most important cost parameters in natural stone cutting processes is energy costs. Generally, cut granites with block cutters differ from other rocks in terms of both the cutting machines used and the energy consumed. Increases in energy prices and emission reduction requirements require cutting processes to work most efficiently. This article describes the energy consumption process in a stone processing plant, and makes recommendations to decision-makers for the more efficient use of energy. A total of 456 real cutting tests were conducted at three different cutting depths and at three different feed rates using a multi-blade block cutter with 10 saw blades at a plant with a monthly production capacity of over 4000 square meters. Real time energy consumption values were recorded with the help of a power analyzer installed on the control panel of the block cutter. The obtained data were used to calculate specific cutting energy values, and the energy consumed throughout the entire process was analyzed. The energy consumption values as the saw blade moves back and forth were examined in eight different regions, starting with the first phase in which the saw blade approaches the granite block. From the obtained power consumption values and calculated specific cutting energy values, an approach has been introduced in terms of cutting efficiency to the specific cutting energy values and energy consumption characteristics in rock cutting processes using circular saw blade.

Kaynakça

  • [1] Mendoza J-MF, Capitano C, Peri G, Josa A, Rieradevall J, Gabarrell X. Environmental management of granite slab production from an industrial ecology standpoint. Journal of Cleaner Production 2014;84:619–28. https://doi.org/10.1016/j.jclepro.2014.03.056.
  • [2] López-Buendía AM, Romero-Sánchez M, Rodes JM, Cuevas JM, Guillem C. Energy Efficiency Contribution of the Natural Stone: Approach in Processing and Application. Global Stone Congress, Alicante, Spain 2010, p. 1–4.
  • [3] Çınar SM, Çimen H, Zengin A. Control Applications for Energy Saving in Marble Machining Process. International Journal of Machine Learning and Computing 2012; 2:695–700. https://doi.org/10.7763/IJMLC.2012.V2.217.
  • [4] Tönshoff HK, Warnecke G. Research on stone sawing. In: Advances in Ultrahard Materials Application Technology 1982; 1:36–49.
  • [5] Jennings M, Wright D. Guidelines for Sawing Stone. Industrial Diamond Review, 1989; 2:70–4.
  • [6] Luo SY, Liao YS. Effects of diamond grain characteristics on sawblade wear. International Journal of Machine Tools and Manufacture 1993; 33:257–66. https://doi.org/http://dx.doi.org/10.1016/0890-6955(93)90078-9.
  • [7] Luo SY, Liao YS. Study of the behaviour of diamond saw-blades in stone processing. Journal of Materials Processing Technology, 1995; 51:296–308. https://doi.org/http://dx.doi.org/10.1016/0924-0136(94)01603-X.
  • [8] Konstanty J. Theoretical analysis of stone sawing with diamonds. Journal of Materials Processing Technology 2002; 123:146–54. https://doi.org/10.1016/S0924-0136(02)00071-7.
  • [9] Brook B. Principles of diamond tool technology for sawing rock. International Journal of Rock Mechanics and Mining Sciences 2002; 39:41–58. https://doi.org/10.1016/S1365-1609(02)00007-2.
  • [10] Tönshoff HK, Denkena B, Apmann HH, Asche J. Diamond Tools in Stone and Civil Engineering Industry - Cutting Principles, Wear and Applications. Key Engineering Materials 2003; 250:103–9.
  • [11] Konstanty J. Production of Diamond Sawblades for Stone Sawing Applications. Key Engineering Materials 2003; 250:1–12.
  • [12] Buyuksagis IS. Effect of cutting mode on the sawability of granites using segmented circular diamond sawblade. Journal of Materials Processing Technology 2007; 183:399–406.
  • [13] Yurdakul M. Effect of cutting parameters on consumed power in industrial granite cutting processes performed with the multi-disc block cutter. International Journal of Rock Mechanics and Mining Sciences 2015; 76:104–11.
  • [14] Tumac D. Artificial neural network application to predict the sawability performance of large diameter circular saws. Measurement 2016; 80:12–20.
  • [15] Bai S, Zhang J, Wang Z. Selection of a sustainable technology for cutting granite block into slabs. Journal of Cleaner Production 2016; 112:2278–91.
  • [16] Aryafar A, Mikaeil R. Estimation of the Ampere Consumption of Dimension Stone Sawing Machine Using of Artificial Neural Networks. International Journal of Mining and Geo-Engineering 2016; 50:121–30.
  • [17] Huang G, Zhang M, Huang H, Guo H, Xu X. Estimation of Power Consumption in the Circular Sawing of Stone Based on Tangential Force Distribution. Rock Mechanics and Rock Engineering 2017; 51.
  • [18] Tumac D, Shaterpour-Mamaghani A. Estimating the sawability of large diameter circular saws based on classification of natural stone types according to the geological origin. International Journal of Rock Mechanics and Mining Sciences 2018; 101:18–32.
  • [19] Maitre R, Streckeisen A, Zanettin B, Le Bas M, Bonin B, Bateman P. Igneous Rocks: A Classification and Glossary of Terms. Igneous Rocks: A Classification and Glossary of Terms, Edited by R W Le Maitre and A Streckeisen and B Zanettin and M J Le Bas and B Bonin and P Bateman, Pp 252 ISBN 0521619483 Cambridge, UK: Cambridge University Press, January 2005 2004; 1.
  • [20] Ersoy A, Atıcı U. Performance characteristics of circular diamond saws in cutting different types of rocks. Diamond and Related Materials 2004; 13:22–37.
  • [21] Hausberger P. Stone Machinability. International Diamond Review 1990;5:258–61.
  • [22] Marcel A, Rigatti Y, Cleiton L, Assis F, Coelho R, Jasinevicius R, et al. Computational Method for Calculation of The Specific Cutting Energy. 22nd International Congress of Mechanical Engineering 2013; p. 2710–2715.
  • [23] Polini W, Turchetta S. Force and specific energy in stone cutting by diamond mill. International Journal of Machine Tools and Manufacture 2004; 44:1189–96.
  • [24] Yurdakul M. Sawability Prediction of Carbonate Natural Stones Using Artificial Neural Networks. (Unpublished Doctoral Dissertation Thesis). Eskisehir Osmangazi University. Eskisehir Osmangazi University, 2009.
  • [25] Ersoy A, Buyuksagic S, Atici U. Wear characteristics of circular diamond saws in the cutting of different hard abrasive rocks. Wear 2005; 258:1422–36.
Toplam 25 adet kaynakça vardır.

Ayrıntılar

Birincil Dil İngilizce
Konular Mühendislik
Bölüm Makaleler
Yazarlar

Murat Yurdakul 0000-0002-8184-500X

Yayımlanma Tarihi 30 Ağustos 2021
Yayımlandığı Sayı Yıl 2021 Cilt: 9 Sayı: 2

Kaynak Göster

APA Yurdakul, M. (2021). A NEW PERSPECTIVE ON REDUCING ENERGY CONSUMPTION IN GRANITE CUTTING WITH A MULTI-BLADE BLOCK CUTTER: THE CASE OF AN INDUSTRIAL. Eskişehir Teknik Üniversitesi Bilim Ve Teknoloji Dergisi B - Teorik Bilimler, 9(2), 60-76. https://doi.org/10.20290/estubtdb.959069
AMA Yurdakul M. A NEW PERSPECTIVE ON REDUCING ENERGY CONSUMPTION IN GRANITE CUTTING WITH A MULTI-BLADE BLOCK CUTTER: THE CASE OF AN INDUSTRIAL. Estuscience - Theory. Ağustos 2021;9(2):60-76. doi:10.20290/estubtdb.959069
Chicago Yurdakul, Murat. “A NEW PERSPECTIVE ON REDUCING ENERGY CONSUMPTION IN GRANITE CUTTING WITH A MULTI-BLADE BLOCK CUTTER: THE CASE OF AN INDUSTRIAL”. Eskişehir Teknik Üniversitesi Bilim Ve Teknoloji Dergisi B - Teorik Bilimler 9, sy. 2 (Ağustos 2021): 60-76. https://doi.org/10.20290/estubtdb.959069.
EndNote Yurdakul M (01 Ağustos 2021) A NEW PERSPECTIVE ON REDUCING ENERGY CONSUMPTION IN GRANITE CUTTING WITH A MULTI-BLADE BLOCK CUTTER: THE CASE OF AN INDUSTRIAL. Eskişehir Teknik Üniversitesi Bilim ve Teknoloji Dergisi B - Teorik Bilimler 9 2 60–76.
IEEE M. Yurdakul, “A NEW PERSPECTIVE ON REDUCING ENERGY CONSUMPTION IN GRANITE CUTTING WITH A MULTI-BLADE BLOCK CUTTER: THE CASE OF AN INDUSTRIAL”, Estuscience - Theory, c. 9, sy. 2, ss. 60–76, 2021, doi: 10.20290/estubtdb.959069.
ISNAD Yurdakul, Murat. “A NEW PERSPECTIVE ON REDUCING ENERGY CONSUMPTION IN GRANITE CUTTING WITH A MULTI-BLADE BLOCK CUTTER: THE CASE OF AN INDUSTRIAL”. Eskişehir Teknik Üniversitesi Bilim ve Teknoloji Dergisi B - Teorik Bilimler 9/2 (Ağustos 2021), 60-76. https://doi.org/10.20290/estubtdb.959069.
JAMA Yurdakul M. A NEW PERSPECTIVE ON REDUCING ENERGY CONSUMPTION IN GRANITE CUTTING WITH A MULTI-BLADE BLOCK CUTTER: THE CASE OF AN INDUSTRIAL. Estuscience - Theory. 2021;9:60–76.
MLA Yurdakul, Murat. “A NEW PERSPECTIVE ON REDUCING ENERGY CONSUMPTION IN GRANITE CUTTING WITH A MULTI-BLADE BLOCK CUTTER: THE CASE OF AN INDUSTRIAL”. Eskişehir Teknik Üniversitesi Bilim Ve Teknoloji Dergisi B - Teorik Bilimler, c. 9, sy. 2, 2021, ss. 60-76, doi:10.20290/estubtdb.959069.
Vancouver Yurdakul M. A NEW PERSPECTIVE ON REDUCING ENERGY CONSUMPTION IN GRANITE CUTTING WITH A MULTI-BLADE BLOCK CUTTER: THE CASE OF AN INDUSTRIAL. Estuscience - Theory. 2021;9(2):60-76.