Abstract
Yüksek miktarlarda cevher üreten/tüketen işletmeler, üretim aksamalarından kaynaklanan problemlerden etkilenmemek için stoklu çalışmak zorundadırlar. Yapılan endüstriyel çaplı stoklarda oluşabilecek self-heating nedeniyle işletmelere güvenlik, ekonomik ve çevresel problemler meydana getirmektedir. Bu çalışma Canada/Sudbury’de büyük miktarlarda sülfidli cevher üreten ve üretim fazlalığını stok sahasında depolayan bir işletmenin cevher stok sahasında yapılmıştır. İşletmenin stok sahasında; sırasıyla eni, boyu ve yüksekliği 6.0x9.0x3.0 m olan bir cevher yığını oluşturulmuştur. Oluşturulan bu yığının iç bölgelerine 6 adet sıcaklık sensörü yerleştirilerek yığın içi sıcaklık verileri toplanmıştır. Aynı zamanda da cevher yığınları üzerinde etkili olan parametrelerden hava sıcaklığı, havanın nemi, atmosfer basıncı, rüzgâr hızı gibi değerler sürekli olarak eşzamanlı ölçülmüştür. Cevher yığınından alınan değerlere çoklu regresyon analizleri yapılarak, bir istatistiksel model geliştirilmiştir. Geliştirilen istatistiksel modelden elde edilen korelasyon katsayıları değerleri yaklaşık % 65.3 seviyelerinde olduğu ölçülmüştür.
Keywords
References
- Brown, R.L., Miller, F.J.L., 1977. Pollution problems associated with Sullivan Mine hot muck. CIM Bulletin 70 (782), 89 92.
- Farnsworth, D.J.M., 1977. Introduction to and background of sulphide fires in pillar mining at the Sullivan Mine. CIM Bulletin 70 (782), 65 71.
- Fierro, V., Miranda, J. L., Romero, C., Andres, J. M., Arriaga, A., and Schmal, D. 2001. Model predictions and experimental results on self-heating prevention of stockpiled coals, Fuel 80:125 134.
- Good, B.H., 1977. The oxidation of sulphide minerals in the Sullivan Mine. CIM Bulletin 70 (782), 83 88.
- Kirshenbaum, N.W., 1968. Transport and Handling of Sulphide Concentrates:Problems and Possible Improvement, second ed. Technomic Publishing Company, Stamford.
- Ozdeniz, A.H., 2003. Investigation of Spontaneous Combustion Event in Coal Stockpiles- Western Lignite Corporation Case, PhD, Selcuk University, Turkey, p185.
- Ozdeniz, A.H., Statistical modeling of spontaneous combustion in industrial-scale coal stockpiles, Energy Sources: Part A, 31:1368-1375, 2009.
- Ozdeniz, A.H., Determination of Spontaneous Combustion in Industrial-Scale Coal stockpiles, Energy Sources: Part A, 32:7, 665-673, 2010.
- Rosenblum, F., Spira, P., 1993. Evaluation of Hazard From Self-Heating of Sulphide Rocks, February 21, 1993: CIM 11th Underground Operators Conference. Saskatoon, vol. V, pp. 1 30.
- Rosenblum, F., Spira, P., 1995. Evaluation of hazard from self-heating of sulphide rock. CIM Bulletin 88 (989), 44 49.
- Somot S.,and Finch J.A., 2010, Possible role of hydrogen sulphide gas in self-heating of pyrrhotite-rich materials, Minerals Engineering, vol 23, pp. 104 110.
Abstract
Enterprises producing/consuming high amounts of ore are obliged to work in stocks to be affected by problems arising from production disruptions. Made of industrial-scale due to self-heating may occur in the stock, economic, security operation and environmental problems. In this study, Canada / Sudbury in producing large quantities of sulphide ore and the production of surplus stock of a company in the field of storing ore inventory was carried out in the field. The company's stock area; respectively at an ore pile of 6.0x9.0x3.0 m width, length and height is formed. Temperature inside the stockpile created by placing the stock in the interior of the 6 temperature sensor data is collected. At the same time the ore pile on the influential parameters such as temperature, air humidity, atmospheric pressure and wind speed is continuously measured values at the same time. The values obtained from the stock multiple regression analysis was applied and we developed a statistical model. Improved correlation coefficients obtained from statistical models have been measured to be approximately 65.3% level.
Keywords
References
- Brown, R.L., Miller, F.J.L., 1977. Pollution problems associated with Sullivan Mine hot muck. CIM Bulletin 70 (782), 89 92.
- Farnsworth, D.J.M., 1977. Introduction to and background of sulphide fires in pillar mining at the Sullivan Mine. CIM Bulletin 70 (782), 65 71.
- Fierro, V., Miranda, J. L., Romero, C., Andres, J. M., Arriaga, A., and Schmal, D. 2001. Model predictions and experimental results on self-heating prevention of stockpiled coals, Fuel 80:125 134.
- Good, B.H., 1977. The oxidation of sulphide minerals in the Sullivan Mine. CIM Bulletin 70 (782), 83 88.
- Kirshenbaum, N.W., 1968. Transport and Handling of Sulphide Concentrates:Problems and Possible Improvement, second ed. Technomic Publishing Company, Stamford.
- Ozdeniz, A.H., 2003. Investigation of Spontaneous Combustion Event in Coal Stockpiles- Western Lignite Corporation Case, PhD, Selcuk University, Turkey, p185.
- Ozdeniz, A.H., Statistical modeling of spontaneous combustion in industrial-scale coal stockpiles, Energy Sources: Part A, 31:1368-1375, 2009.
- Ozdeniz, A.H., Determination of Spontaneous Combustion in Industrial-Scale Coal stockpiles, Energy Sources: Part A, 32:7, 665-673, 2010.
- Rosenblum, F., Spira, P., 1993. Evaluation of Hazard From Self-Heating of Sulphide Rocks, February 21, 1993: CIM 11th Underground Operators Conference. Saskatoon, vol. V, pp. 1 30.
- Rosenblum, F., Spira, P., 1995. Evaluation of hazard from self-heating of sulphide rock. CIM Bulletin 88 (989), 44 49.
- Somot S.,and Finch J.A., 2010, Possible role of hydrogen sulphide gas in self-heating of pyrrhotite-rich materials, Minerals Engineering, vol 23, pp. 104 110.
Details
| Other ID | JA47AT47JB |
|---|---|
| Journal Section | Articles |
| Authors | |
| Publication Date | December 1, 2015 |
| Published in Issue | Year 2015 Volume: 3 Issue: 4 |