Research Article
Year 2018,
Volume: 33 Issue: 3, 161 - 176, 30.09.2018
Abstract
Automation provides direct contribution to a country's economy and inputs to the manufacturing sector, and by means of automation taking place in many areas of mining industry, a safe, economical and efficient production can be realized for the sector in concern. Using the Malmquist index total factor productivity, this manuscript focused on and investigated the change in operational productivity of Western Lignite Corporation (WLC) as a result of the conversion of the packaging plant into a fully automated system. The results indicated that the productivity score would increase by 16.1% due to the conversion of the current system into a fully automated system. The operational productivity is also expected to increase considering the reductions in the amount of energy used, the number of workers employed and the number of production losses.
References
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- 2. Alexander, JR., 1985. Productivity Through Automation, Telematics and Informatics, 141- 149.
- 3. Hutchinson G., Nalk B., 1991. Pflughoeft K., Productivity of Programmable Automation A Simulation-Based Analysis of a Robotic System for Component Insertion, Journal of Manufacturing Systems, 146-157.
- 4. Rosenfeld, Y., Shapira, A., 1998. Automation of Existing Tower Cranes: Economic and Technological Feasibility, Automation in Construction, 285–298.
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- 6. Surrey, J., 1992. Technical Change and Productivity Growth in the British Coal Industry, 1974-1990, Technovation. 12(1), 15-39.
- 7. Plessmann, K.W., Dlckhaus B., Scheytt S., 1993. A System for the Automation of Mining Machines, Control Eng. Practice, 1(3), 457-462.
- 8. Couch, G. 1996. Coal Preparation-Automation and Control, Fuel and Energy Abstracts, 37(3), 172-172(1)
- 9. Jamsa-Jounela, S.L., 2001. Current Status and Future Trends in the Automation of Mineral and Metal Processing, Control Engineering Practic, 1021–1035
- 10. Feng Q., Chen H., 2013. The Safety-level Gap Between China and the US in View of the Interaction Between Coal Production and Safety Management, Safety Science, 80–86.
- 11.Kızıl, M.S., Kızıl, G., Tatar, Ç., Köse, H., 1995. Madencilikte İleri Teknolojinin Kullanımı, Madencilik, Maden Mühendisleri Odası.
- 12. Farrel, M.J., 1957. The Measurement of Productivity Efficiency, Journal of The Royal Statistical Society, 120, 253-290.
- 13. Charnes, A., Cooper, W., Rhodes, E., 1978. Measuring the Efficiency of Decision Making Units European Journal of Operational Research, 2(6), 29-444.
- 14.Muniz, M.A., 2002. Separating Managerial Inefficiency and External Conditions in Data Envelopment Analysis, European Journal of Operational Research, 143, 625-643.
- 15. Kasap, Y., 2008. Türkiye Kömür Madenciliğinde Etkinlik ve Verimlilik Gelişimi: Veri Zarflama Analizi.
- 16. Coelli, T.J., Rao, D.S.P., G.E., Battese, 1998. An Introduction to Efficiency and Productivity Analysis, Kluwer, Boston, http://books.google.com.
- 17. Grifell, T., Lovell, C.A.K, 1995. A Note on the Malmquist Productivity Index, Economics Letters, 47, 169–175.
- 18. Färe, R., Grosskopf, S., Lovell, C.A.K. 1994. Production Frontiers. New York and Cambridge: Cambridge University Press.
- 19.Mahadevan, R., 2002. A DEA Approach to Understanding the Productivity Growth of Malaysia’s Manufacturing Industries, Asia Pacific Journal of Management, 19, 587-600.
- 20. IMECO, Electronic Twin Weighing Hopper Process Weigher, www.imeco.org/products/bulk-weighers/cse, 07.05.2013.
Year 2018,
Volume: 33 Issue: 3, 161 - 176, 30.09.2018
Abstract
Ülke ekonomisine doğrudan yaptığı katkılar, imalat sektörüne sağladığı girdiler nedeniyle büyük öneme sahip olan madencilik sektörünün birçok alanında geliştirilen otomasyonlar ile emniyetli, ekonomik ve verimli üretim gerçekleştirilebilmektedir. Bu çalışmada Garp Linyitleri İşletmesi kömür torbalama tesisinin tam otomatik sisteme dönüştürülmesi neticesinde işletme verimliliğindeki değişim incelenmeye çalışılmıştır. Elde edilen sonuçlara göre torbalama tesisinin, tam otomatik sisteme çevrilmesi ile verimlilik değerinde %16,1’lik bir artış olacağı tespit edilmiştir. Kullanılan enerji miktarlarındaki, çalıştırılan işçi sayılarındaki ve üretim kayıplarındaki azalmalar dikkate alındığında işletme verimliliğinde de artış olacağı düşünülmektedir.
References
- 1. CMEKS Endüstriyel Kontrol Sistemleri San. Ve Tic. Ltd. Şti., Otomasyon Nedir?, www.cmeks.com/otomasyon-nedir, 02.05.2013, 2012
- 2. Alexander, JR., 1985. Productivity Through Automation, Telematics and Informatics, 141- 149.
- 3. Hutchinson G., Nalk B., 1991. Pflughoeft K., Productivity of Programmable Automation A Simulation-Based Analysis of a Robotic System for Component Insertion, Journal of Manufacturing Systems, 146-157.
- 4. Rosenfeld, Y., Shapira, A., 1998. Automation of Existing Tower Cranes: Economic and Technological Feasibility, Automation in Construction, 285–298.
- 5. Pullig, J., Maxham G., Joseph F., Hair, JR., 2002. Salesforce Automation Systems an Exploratory Examination of Organizational Factors Associated with Effective Implementation and Salesforce Productivity, Journal of Business Research , 401–415.
- 6. Surrey, J., 1992. Technical Change and Productivity Growth in the British Coal Industry, 1974-1990, Technovation. 12(1), 15-39.
- 7. Plessmann, K.W., Dlckhaus B., Scheytt S., 1993. A System for the Automation of Mining Machines, Control Eng. Practice, 1(3), 457-462.
- 8. Couch, G. 1996. Coal Preparation-Automation and Control, Fuel and Energy Abstracts, 37(3), 172-172(1)
- 9. Jamsa-Jounela, S.L., 2001. Current Status and Future Trends in the Automation of Mineral and Metal Processing, Control Engineering Practic, 1021–1035
- 10. Feng Q., Chen H., 2013. The Safety-level Gap Between China and the US in View of the Interaction Between Coal Production and Safety Management, Safety Science, 80–86.
- 11.Kızıl, M.S., Kızıl, G., Tatar, Ç., Köse, H., 1995. Madencilikte İleri Teknolojinin Kullanımı, Madencilik, Maden Mühendisleri Odası.
- 12. Farrel, M.J., 1957. The Measurement of Productivity Efficiency, Journal of The Royal Statistical Society, 120, 253-290.
- 13. Charnes, A., Cooper, W., Rhodes, E., 1978. Measuring the Efficiency of Decision Making Units European Journal of Operational Research, 2(6), 29-444.
- 14.Muniz, M.A., 2002. Separating Managerial Inefficiency and External Conditions in Data Envelopment Analysis, European Journal of Operational Research, 143, 625-643.
- 15. Kasap, Y., 2008. Türkiye Kömür Madenciliğinde Etkinlik ve Verimlilik Gelişimi: Veri Zarflama Analizi.
- 16. Coelli, T.J., Rao, D.S.P., G.E., Battese, 1998. An Introduction to Efficiency and Productivity Analysis, Kluwer, Boston, http://books.google.com.
- 17. Grifell, T., Lovell, C.A.K, 1995. A Note on the Malmquist Productivity Index, Economics Letters, 47, 169–175.
- 18. Färe, R., Grosskopf, S., Lovell, C.A.K. 1994. Production Frontiers. New York and Cambridge: Cambridge University Press.
- 19.Mahadevan, R., 2002. A DEA Approach to Understanding the Productivity Growth of Malaysia’s Manufacturing Industries, Asia Pacific Journal of Management, 19, 587-600.
- 20. IMECO, Electronic Twin Weighing Hopper Process Weigher, www.imeco.org/products/bulk-weighers/cse, 07.05.2013.
There are 20 citations in total.
Details
| Primary Language | English |
|---|---|
| Subjects | Architecture, Engineering |
| Journal Section | Articles |
| Authors | |
| Publication Date | September 30, 2018 |
| Published in Issue | Year 2018 Volume: 33 Issue: 3 |