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AN APPROACH TO ECONOMIC OPTIMIZATION OF THE BATCH SIZE IN THE TEXTILE INDUSTRY

Year 2018, Volume: 28 Issue: 4, 250 - 257, 29.12.2018
https://doi.org/10.32710/tekstilvekonfeksiyon.482864

Abstract

One of the important
factors of the economic optimization of production processes is the proper
dimensioning of the batch
in which production is carried out. This request
becomes particularly pronounced in the conditions of the textile industry,
where the economic rationalization of production is of crucial importance for a
market success. In the paper, we presented the model of the optimization of the
batch size based on an analysis of the structure of the expenses, inclusive of
a request for their minimization. The suggested model enables the determination
of the batch size which has the lowest costs and also the extent to which it is
allowed to deviate from the calculated optimum, but still remain within
economic rationality. The aim of the theoretical and practical aspects of the
paper is to point out the contribution of the suggested approach towards the
economicrationalization of production processes in the textile industry. 

References

  • 1. De Toni A., and Meneghetti, A., 2000, “The production planning process for a network of firms in the textile-apparel industry”, International Journal of Production Economics, Vol:65(1), pp:17-32.
  • 2. Yönetimi T.S.T.K. and Memnuniyeti Ç.K.V.M., 2017, “Examining the perception of quality and customer satisfaction within the framework of total quality management in textile sector”, Tekstil ve Konfeksiyon, Vol: 27(2), pp: 101-107.
  • 3. Muthu S.S, 2017, “Sustainability in the Textile Industry” Springer Singapore.
  • 4. Acar E., Kilic M., Güner M., 2015, “Measurement of sustainability performance in textile industry by using a multi-criteria decision making method”, Tekstil ve Konfeksiyon, Vol: 25(1), pp: 3-9.
  • 5. Yilmaz E. and Atilgan T., 2016, “Analysis of added value creation process in ready-made clothing sector: "Turkish case", Tekstil ve Konfeksiyon, Vol: 26(4), pp: 337-344.
  • 6. Ait-Alla A., Teucke M., Lütjen M., Beheshti-Kashi S., and Karimi H.R., 2014, “Robust production planning in fashion apparel industry under demand uncertainty via conditional value at risk”, Mathematical Problems in Engineering, Vol: 2014, 10 pages.
  • 7. Rabbani M., Niyazi M., and Rafiei H., 2016, “Production, technology and capacity planning for textile industry: A case study”, Uncertain Supply Chain Management, Vol: 4(4), pp: 277-286.
  • 8. Radulescu M., and Radulescu C.Z., 2007, “A multiobjective programming model for production planning under environmental constraints”, IFAC Proceedings, Vol: 40(18), pp: 771-776.
  • 9. Elamvazuthi I., Ganesan T., Vasant P., and Webb J.F., 2009, “Application of a fuzzy programming technique to production planning in the textile industry”, International Journal of Computer Science and Information Security, Vol: 6(3), pp: 238-243.
  • 10. Pasayev N., 2010, “Investigating the effects of production planning on fabric costs in confection production”, Tekstil ve Konfeksiyon, Vol: 20(3), pp: 262-270.
  • 11. Karabuk S., 2008, “Production planning under uncertainty in textile manufacturing”, Journal of the Operational Research Society, Vol: 59(4), pp: 510-520.
  • 12. Radojičić M.,Vesić Vasović J.,Nešić Z.,2013,“Application of optimization methods in the function of improving performance of organizational systems”, Faculty of Technical Sciences Čačak.
  • 13. Rau H., and OuYang B.C., 2008, “An optimal batch size for integrated production–inventory policy in a supply chain”, European Journal of Operational Research, Vol: 185(2), pp: 619-634.
  • 14. Glock C.H., 2011, “Batch sizing with controllable production rates in a multi-stage production system”, International Journal of Production Research, Vol: 49(20), pp: 6017-6039.
  • 15. Cárdenas-Barrón L.E., 2009, “Economic production quantity with rework process at a single-stage manufacturing system with planned backorders”, Computers & Industrial Engineering, Vol: 57(3), pp: 1105-1113.
  • 16. Ojha D., Sarker B.R. and Biswas P., 2007, “An optimal batch size for an imperfect production system with quality assurance and rework”, International Journal of Production Research, Vol: 45(14), pp: 3191-3214.
  • 17. Sarah M., Supadi S., Omar M., 2014, “The Optimal Manufacturing Batch Size with Rework under Time-Varying Demand Process for a Finite Time Horizon”, AIP Conference Proceedings, Vol: 1605, pp: 1105-1110.
  • 18. Musa S., Supadi S.S. and Omar M., 2014, “The optimal manufacturing batch size with rework under time-varying demand process for a finite time horizon”, In AIP Conference Proceedings, Vol: 1605(1), pp: 1105-1110).
  • 19. Shin D., Park J., Kim N. and Wysk R.A., 2009, “A stochastic model for the optimal batch size in multi-step operations with process and product variability”, International Journal of Production Research, Vol: 47(14), pp: 3919-3936.
  • 20. Omar M. and Smith D.K., 2002, “An optimal batch size for a production system under linearly increasing time-varying demand process”, Computers & Industrial Engineering, Vol:42, pp:35-42.
  • 21. Rabta B. and Reiner G., 2012, “Batch sizes optimisation by means of queueing network decomposition and genetic algorithm”, International journal of Production research, Vol: 50(10), pp: 2720-2731.
  • 22. Ingarao G., Priarone P.C., Di Lorenzo R. and Settineri L., 2016, “A methodology for evaluating the influence of batch size and part geometry on the environmental performance of machining and forming processes”, Journal of Cleaner Production, Vol: 135, pp: 1611-1622.
Year 2018, Volume: 28 Issue: 4, 250 - 257, 29.12.2018
https://doi.org/10.32710/tekstilvekonfeksiyon.482864

Abstract

References

  • 1. De Toni A., and Meneghetti, A., 2000, “The production planning process for a network of firms in the textile-apparel industry”, International Journal of Production Economics, Vol:65(1), pp:17-32.
  • 2. Yönetimi T.S.T.K. and Memnuniyeti Ç.K.V.M., 2017, “Examining the perception of quality and customer satisfaction within the framework of total quality management in textile sector”, Tekstil ve Konfeksiyon, Vol: 27(2), pp: 101-107.
  • 3. Muthu S.S, 2017, “Sustainability in the Textile Industry” Springer Singapore.
  • 4. Acar E., Kilic M., Güner M., 2015, “Measurement of sustainability performance in textile industry by using a multi-criteria decision making method”, Tekstil ve Konfeksiyon, Vol: 25(1), pp: 3-9.
  • 5. Yilmaz E. and Atilgan T., 2016, “Analysis of added value creation process in ready-made clothing sector: "Turkish case", Tekstil ve Konfeksiyon, Vol: 26(4), pp: 337-344.
  • 6. Ait-Alla A., Teucke M., Lütjen M., Beheshti-Kashi S., and Karimi H.R., 2014, “Robust production planning in fashion apparel industry under demand uncertainty via conditional value at risk”, Mathematical Problems in Engineering, Vol: 2014, 10 pages.
  • 7. Rabbani M., Niyazi M., and Rafiei H., 2016, “Production, technology and capacity planning for textile industry: A case study”, Uncertain Supply Chain Management, Vol: 4(4), pp: 277-286.
  • 8. Radulescu M., and Radulescu C.Z., 2007, “A multiobjective programming model for production planning under environmental constraints”, IFAC Proceedings, Vol: 40(18), pp: 771-776.
  • 9. Elamvazuthi I., Ganesan T., Vasant P., and Webb J.F., 2009, “Application of a fuzzy programming technique to production planning in the textile industry”, International Journal of Computer Science and Information Security, Vol: 6(3), pp: 238-243.
  • 10. Pasayev N., 2010, “Investigating the effects of production planning on fabric costs in confection production”, Tekstil ve Konfeksiyon, Vol: 20(3), pp: 262-270.
  • 11. Karabuk S., 2008, “Production planning under uncertainty in textile manufacturing”, Journal of the Operational Research Society, Vol: 59(4), pp: 510-520.
  • 12. Radojičić M.,Vesić Vasović J.,Nešić Z.,2013,“Application of optimization methods in the function of improving performance of organizational systems”, Faculty of Technical Sciences Čačak.
  • 13. Rau H., and OuYang B.C., 2008, “An optimal batch size for integrated production–inventory policy in a supply chain”, European Journal of Operational Research, Vol: 185(2), pp: 619-634.
  • 14. Glock C.H., 2011, “Batch sizing with controllable production rates in a multi-stage production system”, International Journal of Production Research, Vol: 49(20), pp: 6017-6039.
  • 15. Cárdenas-Barrón L.E., 2009, “Economic production quantity with rework process at a single-stage manufacturing system with planned backorders”, Computers & Industrial Engineering, Vol: 57(3), pp: 1105-1113.
  • 16. Ojha D., Sarker B.R. and Biswas P., 2007, “An optimal batch size for an imperfect production system with quality assurance and rework”, International Journal of Production Research, Vol: 45(14), pp: 3191-3214.
  • 17. Sarah M., Supadi S., Omar M., 2014, “The Optimal Manufacturing Batch Size with Rework under Time-Varying Demand Process for a Finite Time Horizon”, AIP Conference Proceedings, Vol: 1605, pp: 1105-1110.
  • 18. Musa S., Supadi S.S. and Omar M., 2014, “The optimal manufacturing batch size with rework under time-varying demand process for a finite time horizon”, In AIP Conference Proceedings, Vol: 1605(1), pp: 1105-1110).
  • 19. Shin D., Park J., Kim N. and Wysk R.A., 2009, “A stochastic model for the optimal batch size in multi-step operations with process and product variability”, International Journal of Production Research, Vol: 47(14), pp: 3919-3936.
  • 20. Omar M. and Smith D.K., 2002, “An optimal batch size for a production system under linearly increasing time-varying demand process”, Computers & Industrial Engineering, Vol:42, pp:35-42.
  • 21. Rabta B. and Reiner G., 2012, “Batch sizes optimisation by means of queueing network decomposition and genetic algorithm”, International journal of Production research, Vol: 50(10), pp: 2720-2731.
  • 22. Ingarao G., Priarone P.C., Di Lorenzo R. and Settineri L., 2016, “A methodology for evaluating the influence of batch size and part geometry on the environmental performance of machining and forming processes”, Journal of Cleaner Production, Vol: 135, pp: 1611-1622.
There are 22 citations in total.

Details

Primary Language English
Subjects Wearable Materials
Journal Section Articles
Authors

Sanja Puzovıc

Miroslav Radojıcıc This is me

Jasmina Vesıc Vasovıc This is me

Vladan Paunovıc This is me

Zoran Nesıc This is me

Publication Date December 29, 2018
Submission Date October 17, 2017
Acceptance Date July 11, 2018
Published in Issue Year 2018 Volume: 28 Issue: 4

Cite

APA Puzovıc, S., Radojıcıc, M., Vesıc Vasovıc, J., Paunovıc, V., et al. (2018). AN APPROACH TO ECONOMIC OPTIMIZATION OF THE BATCH SIZE IN THE TEXTILE INDUSTRY. Textile and Apparel, 28(4), 250-257. https://doi.org/10.32710/tekstilvekonfeksiyon.482864

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