Abstract
Improving energy efficiency of manufacturing processes requires knowledge about the energy consumption as a function of the machine tool and cutting process itself. Both theoretical and empirical models of unit process energy consumption have emphasized the relevance of fixed energy consumption which ensures the machine readiness. However, the machine tool behavior during the stand-by mode is lack of thorough study. This paper presented the investigation of fixed energy consumption from definition and description to improvement strategies. Six machine tools covering different manufacturing processes are selected for this investigation in order to evaluate the future savings.
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REFERENCES
Cecimo (2009): Concept Description for CECIMO’s Self- Regulatory Initiative (SRI) for the Sector Specific Implementation of the Directive 2005/32/EC, available online: http://www.ecodesign-info.eu/documents/Machine_tools _VA_20Oct09.pdf, last revised 8/2/2010.
Dietmair, A., Verl, A. (2009): A generic energy consumption model for decision making and energy efficiency optimisation in manufacturing, in: International Journal of Sustainable Engineering, 2: 2, 123-133.
Kalpakjian, S; Schmid, S. R. (2006): Manufacturing Engineering and Technology, Ed. 5, Prentice Hall, S. 220.
Li, W., Kara, S. (2010): An Empirical Model for Predicting Energy Consumption of Manufacturing Processes: A Case of Turning Process, in: Proceedings of the Institution of Mechanical Engineers, Part B, Journal of Engineering Manufacture. In Print.
Gutowski, T., Dahmus, J., Thiriez, A. (2006): Electrical Energy Requirements for Manufacturing Processes; in: 13th CIRP International Conference on Life Cycle Engineering, Leuven, Belgium.
Weck, M., Brecher, C. (2006): Werkzeugmaschinen Konstruktion und Berechnung, 8. Ed., Springer.
DMG. Energy Save. Online: http://za.dmg.com/ino/mailing_ energysave_10/en/energysave.htm.
Crowder, R. M. (1995): Electric Drives and their Controls, Oxford Science Publications.
International Electrotechnical Commission (2009): IEC 60204- 1, Safety of machinery - Electrical equipment of machines.
Colchester Co. (2000): Circuit Diagram of Colchester Tornado A50.
Colchester Co. (2000): Manual of Colchester Tornado A50, T5F-E02-11/98.
Fanuc Co. Fanuc AC Servo Amplifier Alpha Series Descriptions. B65162E/03. Online: http:// www.docstoc.com docs/28703564/Fanuc-AC-Servo-Amplifier-Alpha-Series- Descriptions.
Nailen, R. L. (2002): When is a motor idle?, in: Electrical Apparatus, January 2002, Barks Publications.
Fritz Studer AG (2007a): Technical Manual for Studer S40.
Fritz Studer AG (2007b): Technical Manual for Studer S120.
Mori Seiki Co. (2004): Technical Manual of NL Series.
Mori Seiki Co. (2004): Service Information Folder – Electrical Circuit Diagram NL Series, 148037B05.
Mori Seiki Co. (2008): Service Information Folder – Electrical Circuit Diagram Dura Vertical, 148440A22.
Deckel MAHO Co. (2001): Circuit Diagram of DMU_60P.
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Li, W., Zein, A., Kara, S., Herrmann, C. (2011). An Investigation into Fixed Energy Consumption of Machine Tools. In: Hesselbach, J., Herrmann, C. (eds) Glocalized Solutions for Sustainability in Manufacturing. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-642-19692-8_47
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DOI: https://doi.org/10.1007/978-3-642-19692-8_47
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