LEAN TOOLS APPLIED IN TRANSPORT AND LOGISTICS SERVICES

Authors

DOI:

https://doi.org/10.32358/rpd.2019.v5.411

Keywords:

Lean, 5S, Kanban, Poka-Yoke, Jidoka, Kaizen

Abstract

Purpose: This article is focused on the premise that applying Lean tools in transport and logistic services can contribute to reduce the costs, stocks, lead time and simultaneously contributing to major financial achievements. The objective is to create a model that allows the analysis and deployment of a Lean project in Logistic and Transport services. Methodology: Facing the lack of information about the deployment and the results of the Lean tools in Logistic and transport services in Portugal we used as case study one example of a Portuguese company that deployed Lean tools on their services and it will show that the tools and Lean principles can be used to improve quality and efficiency by using the company existing resources, reducing causalities in the service provided and in all logistic process. Findings: Lean tools provide efficiency in the services, allowing the increasing of the existing capacity in the company, provide a continuous improvement process. Even with low investments sustaining Lean projects can produce large improvement in efficiency of the processes and in the company profits. Research Limitation: The data available about the subject in Portugal was the major limitation to the study.

Downloads

Download data is not yet available.

References

BAKRI, Mohamad. Implementing Lean Tools to Streamline Banking Operations: A Case Study of a Small Lebanese Bank. Management Studies and Economic Systems, v. 4, n. 2, p. 131-144, 2019.

BELLGRAN, M.; SÄFSTEN, K. Production Development: Design and Operation of Production Systems. Springer-Verlag, 2009.

BITTENCOURT, V., SALDANHA, F., ALVES, A. C., LEÃO, C. P. Contributions of Lean Thinking Principles to Foster Industry 4.0 and Sustainable Development Goals. In: Lean Engineering for Global Development. Springer, Cham, p. 129-159, 2019.

COSTA, A. R., BARBOSA, C., SANTOS, G., ALVES, M. R. Six Sigma: Main Metrics and R Based Software for Training Purposes and Practical Industrial Quality Control. Quality Innovation Prosperity, v. 23, n. 2, p. 83-100, 2019.

DENNIS, P.; SHOOK, J. Lean Production Simplified. 3rd Edition. Routledge, 2007.

GARZA-REYES, J. A.; VILLARREAL, B.; KUMAR, V.; & MOLINA RUIZ, P. Lean and green in the transport and logistics sector–a case study of simultaneous deployment. Production Planning & Control, v. 27, n. 15, p. 1221-1232, 2016.

GONZALEZ, M. E. Improving customer satisfaction of a healthcare facility: reading the customers’ needs. Benchmarking: An International Journal, v. 26, n. 3, p. 854-870, 2019.

KAWA, Arkadiusz; MARYNIAK, Anna. Lean and agile supply chains of e-commerce: empirical research. Journal of Information and Telecommunication, v. 3, n. 2, p. 235-247, 2019.

KUVVETLI, Ümit; FIRUZAN, Ali Rıza. Applying Six Sigma in urban public transportation to reduce traffic accidents involving municipality buses. Total Quality Management & Business Excellence, v. 30, n. 1-2, p. 82-107, 2019.

LAPA, R. Os cinco sensos. In: http://www.ptnet.com.br/5sensos, 1998.

LIKER, J. K.; HOSEUS, M. A cultura Toyota. A alma do modelo Toyota. Porto Alegre: Bookman, 2008.

MYLEANFACTORY. Poka-Yoke System. In: https://www.myleanfactory.de/, 2016.

NAINAAR, Devendran; MASSON, John. AN INVESTIGATION INTO TECHNOLOGY MANAGEMENT TO CREATE SUSTAINABLE COMPETITIVE ADVANTAGE WITHIN THE FAST MOVING CONSUMER GOODS (FMCG) BEVERAGE INDUSTRY. European Journal of Engineering and Technology Vol, v. 6, n. 2, 2018.

OHNO, T. Toyota Production System: Beyond Large-Scale Production. New York: Productivity Press, 1988.

ORTIZ C. A. Kaizen Assembly: Designing, Constructing, and Managing a Lean Assembly Line. New York: CRC Press, 2006.

PADILLA, R.; PEKMEZCI, T. A Framework for Designing a Lean Production System for SMEs. MsC Thesis Work 2011, Jönköping University, Sweden, 2011.

PONTE, B., COSTAS, J., PUCHE, J., PINO, R., DE LA FUENTE, D. The value of lead time reduction and stabilization: A comparison between traditional and collaborative supply chains. Transportation Research Part E: Logistics and Transportation Review, v. 111, p. 165-185, 2018.

PSOMAS, Evangelos; ANTONY, Jiju; BOURANTA, Nancy. Assessing lean adoption in food SMEs: evidence from Greece. International Journal of Quality & Reliability Management, v. 35, n. 1, p. 64-81, 2018.

REQUEIJO, J. F. G.; ABREU, A. J. P. DA C. F.; CALADO, J. M. F.; DIAS, A. S. M. DA E. SIX SIGMA BUSINESS SCORECARD APPROACH TO SUPPORT MAINTENANCE PROJECTS IN A COLLABORATIVE CONTEXT. Revista Produção e Desenvolvimento, v. 4, n. 1, p. 82-97, 2018.

SACRISTÁN, F. Las 5S: Orden y limpieza en el puesto de trabajo, FC Editorial, 2005.

SAIEG, P., SOTELINO, E. D., NASCIMENTO, D., CAIADO, R. G. G. Interactions of building information modeling, lean and sustainability on the architectural, engineering and construction industry: a systematic review. Journal of cleaner production, v. 174, p. 788-806, 2018.

SARAVANAN, V.; NALLUSAMY, S.; BALAJI, K. Lead time reduction through execution of lean tool for productivity enhancement in small scale industries. International Journal of Engineering Research in Africa. Trans Tech Publications, p.116-127, 2018.

SHINGO, S. A Study of the Toyota Production System. Productivity Press, 1981.

SILVA, L. Gestão e Melhoria de Processos: Conceitos, técnicas e ferramentas. Brasport, 2009.

SPEAR, S.; BOWEN, H. K. Decoding the DNA of the Toyota production system. Harvard business review, v.77, n.5, p.96-106, 1999.

SUGIMORI, Y.; KUSUNOKI, K.; CHO, F.; UCHIKAWA, S. Toyota production system and kanban system materialization of just-in-time and respect-for-human system. The International Journal of Production Research, v. 15, n. 6, p. 553-564, 1977.

TOYOTACOMPANY. Lean Seven Kind of Waste. In: https://global.toyota/en/company/, 2007.

WOMACK, J.; JONES, D. Lean Thinking: Banish Waste and Create Wealth in Your Corporation. Journal of the Operational Research Society, v.48, n.11, 2003.

Downloads

Published

2019-11-15

How to Cite

Pinho, T., & Lobo, M. (2019). LEAN TOOLS APPLIED IN TRANSPORT AND LOGISTICS SERVICES. Revista Produção E Desenvolvimento, 5. https://doi.org/10.32358/rpd.2019.v5.411

Issue

Vol. 5 (2019): JANUARY-DECEMBER

Section

Management Affairs

License

Copyright (c) 2019 Revista Produção e Desenvolvimento

Creative Commons License

This work is licensed under a Creative Commons Attribution 4.0 International License.

All content on this work is licensed under a Creative Commons BY Attribution 4.0 Unported license. The articles are free to use, with their CC BY attributions of license.

The journal is not responsible for the opinions, ideas and concepts emitted in the texts, as they are the sole responsibility of its author (s).

The publisher has the right to reject articles that in the evaluation process have been detected signs of plagiarism. The articles that have been detected indications of plagiarism after the publication, will be excluded from the edition. And the indication of the problem will be informed in the place of the text, keeping the same amount of pages.

This journal adopts the principles of ethical conduct of international quality Committee on Publication Ethics (COPE), as well as the parameters of Integrity in the Scientific Activity indicated by SCOPUS and SCIELO.