Konferensartikel

Developing Distribution Chain Traceability in Continuous Processes

Björn Kvarnström
Quality and Environmental Management, Luleå University of Technology, Sweden

Ladda ner artikelhttp://www.ep.liu.se/ecp_article/index.en.aspx?issue=026;article=039

Ingår i: 10th QMOD Conference. Quality Management and Organiqatinal Development. Our Dreams of Excellence; 18-20 June; 2007 in Helsingborg; Sweden

Linköping Electronic Conference Proceedings 26:39, s.

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Publicerad: 2008-02-15

ISBN:

ISSN: 1650-3686 (tryckt), 1650-3740 (online)

Abstract

A traceability system simplifies investigation of causes of product failures and is therefore vital for many industries. Traceability systems are extensively used in manufacturing industries; but creating traceability in continuous processes implies great challenges. The aim of this paper is to illustrate how traceability can be achieved in the distribution chain for iron ore pellets. Radio frequency identification (RFID) was used as a technique to trace iron ore pellets. Experiments were performed to verify the suitability of the technique. The results indicate that RFID is an appropriate technique. With one stationary RFID reader; about 50 % of the tagged iron ore pellets were identified. Possibilities for higher read rates are discussed.

Nyckelord

RFID tag; process industry; residence time; read rate; bulk product

Referenser

Duffin; M. (1995). Guidelines to TQC. The TQM Magazine. Vol. 7; No 4 pp. 35-41.

Fransoo; J.C.; & Rutten; W.G.M.M. (1994). A Typology of Production Control Situations in Process Industries. International Journal of Operations & Production Management; Vol. 14; No. 12; pp. 47-57.

Jansen-Vullers; M.H.; van Dorp; C.A. & Beulens; A.J.M. (2003). Managing traceability information in manufacture. International Journal of Information Management. Vol. 23; No. 5; pp. 395-413.

Juran; J.M. & Gryna; F.M. (1980). Quality Planning and Analysis: from product development through use; Second Edition. New York; McGraw-Hill Book Company.

Lundqvist; S.O. and Kubulnieks; E. (1995). Improved Production and Product Information for Chemical Pulp Mill Operators. Proceedings of the 5th IFACSymposium on Automated System Based on Human Skill – Joint Design of Technology and Organisation; Berlin; Germany; September 1996.

Meyer; K. (1980). Pelletzing of Iron Ores. Berlin; Springer-Verlag.

Porter; J.D.; Billo; R.E. and Mickle; M.H. (2004). A Standard Test Protocol for Evaluation of Radio Frequency Identification Systems for Supply Chain Applications. Journal of Manufacturing Systems. Vol.23; No. 1; pp. 46-55.

Steele; D. C. (1995). A structure for lot-tracing design. Production and Inventory Management Journal. Vol. 36; No. 2; pp. 53-59.

Töyrylä; I. (1999). Realising the potential of traceability –A case study research on usage and impacts of product traceability. Acta Polytechnica Scandinavia; Mathematics; Computing and Management in Engineering; Helsinki University of Technology; Doctorial thesis No. 97.

Wyld; D.C. (2006). RFID 101: the next big thing for management. Management Research News. Vol. 29; No. 4; pp. 154-173.

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