Methodology for the design and simulation of industrial facilities and production systems based on a modular approach in an "industry 4.0" context

Luis Omar Alpala; Maria del Mar eva Alemany; DIego Hernán Peluffo; Fabio Andres Bolaños; Aura Maria Rosero; Juan Carlos Torres

doi:10.15446/dyna.v85n207.68545

Publicado

2018-10-01

Methodology for the design and simulation of industrial facilities and production systems based on a modular approach in an "industry 4.0" context

Metodología para el diseño y simulación de instalaciones industriales y sistemas de producción basada en una visión modular bajo un contexto de "industria 4.0"

DOI:

https://doi.org/10.15446/dyna.v85n207.68545

Palabras clave:

layout, simulation, production system, industrial facilities, Industry 4.0, coffee processing plant (en)
distribución de planta, simulación, sistema de producción, instalación industrial, Industria 4.0 planta de café (es)

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Autores/as

Luis Omar Alpala Universidad Cooperativa de Colombia https://orcid.org/0000-0002-8436-7090
Maria del Mar eva Alemany Universidad Politécnica de Valencia https://orcid.org/0000-0002-0992-8441
DIego Hernán Peluffo Universidad Yachay Tech Corporación Autónoma de Nariño https://orcid.org/0000-0002-9045-6997
Fabio Andres Bolaños Universidad Cooperativa de Colombia https://orcid.org/0000-0002-5581-4488
Aura Maria Rosero Universidad Cooperativa de Colombia https://orcid.org/0000-0002-1659-6684
Juan Carlos Torres Universidad de Granada https://orcid.org/0000-0002-0327-7748

Resumen (en)
Resumen (es)

The design of the industrial facilities distribution is one of the most important decisions to be made, as it will condition the operation thereof. The concept of industrial installation as it is known today has evolved to the point that it integrates automation and information systems. Indeed, such evolution has given rise to the so-called intelligent factory. At present, in order to produce customized mass products according to customers' requirements, it is become an important issue the distribution of facilities with the generation of successful layout designs, based on the flexibility, modularity and easy configuration of production systems.
This paper proposes a methodology to solve the problem of plant distribution design and redesign based upon a novel modular approach within an industry 4.0 context. Proposed methodology is an adaptation of the "SLP" Methodology (Systematic Layout Planning-Simulation) so-called SLP Modulary 4.0 (systematic planning of the Layout based on a modular vision under a context of Industry 4.0); this methodology incorporates in its structure an integrated design system (IDS) into its structure, which allows collaborative work with different CAD design and simulation tools. For the validation of the proposed methodology, a case study of a coffee processing plant is considered. The distribution design results obtained from the case study prove the benefit and usefulness of the proposed methodology.

El diseño de la distribución en planta es una de las decisiones más relevantes pues condicionará la operación de la misma. La forma de concebir una instalación industrial como se la conoce hoy en día ha ido evolucionando hasta el punto de integrar sistemas de automatización y de información, dando lugar a la denominada fabrica inteligente. En la actualidad, con el fin de producir productos personalizados en masa según requerimientos de los clientes, ha tomado considerable importancia la distribución de instalaciones con la generación de diseños exitosos de layout, basados en la flexibilidad, modularidad y fácil configuración de los sistemas de producción.
En este trabajo se propone una metodología para resolver el problema del diseño y rediseño de distribución en planta con un novedoso enfoque modular basado en un contexto de industria 4.0. La metodología presentada es una adaptación de la Metodología “SLP” (Systematic Layout Planning) denominada SLP Modulary 4.0 (planificación sistemática de Layout basada en una visión modular bajo un contexto de Industria 4.0), esta metodología incorpora en su estructura un diseño integrado de sistemas (IDS) que permite trabajar de forma colaborativa con diferentes herramientas de Diseño CAD y simulación. Para la validación de la metodología propuesta se considera un caso de estudio de una planta de procesado de café. Los resultados de diseño de distribución obtenidos comprueban el beneficio y la utilidad de la metodología propuesta.

Referencias

Esmaeilian, B., Behdad, S. and Wang, B., The evolution and future of manufacturing: A review. Journal of Manufacturing Systems, 39, pp. 79-100, 2016. DOI: 10.1016/j.jmsy.2016.03.001

Choi, S., et al., Digital manufacturing in smart manufacturing systems: contribution, barriers, and future directions. Proceedings of the IFIP International Conference on Advances in Production Management Systems. Springer International Publishing, pp. 21-29, 2015. DOI: 10.1007/978-3-319-22759-7_3

Fang-Ying, C., Jian-Feng, L. and Hao, Z., Factory planning and digital factory. Proceedings of the Audio Language and Image Processing (ICALIP) International Conference on IEEE, pp. 499-502, 2010. DOI: 10.1109/ICALIP.2010.5684524

Zhou, K., Liu, T. and Zhou, L., Industry 4.0: Towards future industrial opportunities and challenges. Proceedings of the Fuzzy Systems and Knowledge Discovery (FSKD) 12th International Conference on IEEE, pp. 2147-2152, 2015. DOI: 10.1109/FSKD.2015.7382284

Dais, S., Industrie 4.0 in produktion, automatisierung und logistik. Anwendung. Technologien und Migration [Online], 2014. Available at: http://link.springer.com/chapter/10.1007/978-3-658-04682-8_33

Kagermann, H., Chancen von Industrie 4.0 nutzen. Handbuch Industrie 4.0 Bd. 4. [Online] pp. 235-246, Springer Berlin Heidelberg, 2017. Available at: http://link.springer.com/chapter/10.1007/978-3-658-04682-8_31

Singh, A.P. and Yilma, M., Production floor layout using systematic layout planning in Can manufacturing company. Proceedings of the Control, Decision and Information Technologies (CoDIT) International Conference on IEEE, pp. 822-828, 2013. DOI: 10.1109/CoDIT.2013.6689649

Rüßmann, M., et al., Industry 4.0: The future of productivity and growth in manufacturing industries [Online]. Boston Consulting Group, 2015. Available at: http://www.inovasyon.org/pdf/bcg.perspectives_Industry.4.0_2015.pdf

Dias, L., et al., Layout and process optimisation: using computer-aided design (CAD) and simulation through an integrated systems design tool. International Journal of Simulation and Process Modelling, 9(1-2), pp. 46-62, 2014. DOI: 10.1504/IJSPM.2014.061437

Vik, P., et al., Automatic generation of computer models through the integration of production systems design software tools. International Journal for Simulation and Multidisciplinary Design Optimization, 4(3-4), pp. 141-148, 2010. DOI: 10.1051/ijsmdo/2010018

Dias, L.S., et al., Integrated design of production systems in a lighting manufacturer using CAD and simulation in layout and process optimization. Proceedings of the XVI Latin-Ibero-American Conference on Operations Research and XLIV Brazilian Symposium on Operations Research. CLAIO-SBPO [Online], pp. 3873-3882, 2012. Available at: http://repositorium.sdum.uminho.pt/handle/1822/36958

Hermann, M., Pentek, T. and Otto, B., Design principles for industrie 4.0 scenarios. Proceedings of the System Sciences (HICSS), 49th Hawaii International Conference IEEE [Online], pp. 3928-3937, 2016. Available at: http://ieeexplore.ieee.org/xpls/abs_all.jsp?arnumber=7427673

Vaidya, R.D., et al., Analysis Plant Layout for Effective Production.

International Journal of Engineering [Online], 6(2), pp. 4, 2013. Available at: http://citeseerx.ist.psu.edu/viewdoc/download?doi=10.1.1.677.2969&rep=rep1&type=pdf

Stephens, M.P. and Meyers, F.E., Manufacturing facilities design and material handling. Purdue University Press, 2013.

Restrepo-González, G., El concepto y alcance de la gestión tecnológica. Revista Facultad de Ingeniería, 21, pp. 178-185, 2016.

Giménez, A., Sánchez, J. and Barrigüete, J., La simulación como apoyo a la optimización de procesos. [Online], 2006. Available at: https://dialnet.unirioja.es/servlet/articulo?codigo=1997517

Cómo citar

IEEE

[1]

L. O. Alpala, M. del M. eva Alemany, D. H. Peluffo, F. A. Bolaños, A. M. Rosero, y J. C. Torres, «Methodology for the design and simulation of industrial facilities and production systems based on a modular approach in an “industry 4.0” context», DYNA, vol. 85, n.º 207, pp. 243–252, oct. 2018.

ACM

[1]

Alpala, L.O., Alemany, M. del M. eva, Peluffo, D.H., Bolaños, F.A., Rosero, A.M. y Torres, J.C. 2018. Methodology for the design and simulation of industrial facilities and production systems based on a modular approach in an "industry 4.0" context. DYNA. 85, 207 (oct. 2018), 243–252. DOI:https://doi.org/10.15446/dyna.v85n207.68545.

ACS

(1)

Alpala, L. O.; Alemany, M. del M. eva; Peluffo, D. H.; Bolaños, F. A.; Rosero, A. M.; Torres, J. C. Methodology for the design and simulation of industrial facilities and production systems based on a modular approach in an "industry 4.0" context. DYNA 2018, 85, 243-252.

APA

Alpala, L. O., Alemany, M. del M. eva, Peluffo, D. H., Bolaños, F. A., Rosero, A. M. & Torres, J. C. (2018). Methodology for the design and simulation of industrial facilities and production systems based on a modular approach in an "industry 4.0" context. DYNA, 85(207), 243–252. https://doi.org/10.15446/dyna.v85n207.68545

ABNT

ALPALA, L. O.; ALEMANY, M. del M. eva; PELUFFO, D. H.; BOLAÑOS, F. A.; ROSERO, A. M.; TORRES, J. C. Methodology for the design and simulation of industrial facilities and production systems based on a modular approach in an "industry 4.0" context. DYNA, [S. l.], v. 85, n. 207, p. 243–252, 2018. DOI: 10.15446/dyna.v85n207.68545. Disponível em: https://revistas.unal.edu.co/index.php/dyna/article/view/68545. Acesso em: 16 mar. 2026.

Chicago

Alpala, Luis Omar, Maria del Mar eva Alemany, DIego Hernán Peluffo, Fabio Andres Bolaños, Aura Maria Rosero, y Juan Carlos Torres. 2018. «Methodology for the design and simulation of industrial facilities and production systems based on a modular approach in an “industry 4.0” context». DYNA 85 (207):243-52. https://doi.org/10.15446/dyna.v85n207.68545.

Harvard

Alpala, L. O., Alemany, M. del M. eva, Peluffo, D. H., Bolaños, F. A., Rosero, A. M. y Torres, J. C. (2018) «Methodology for the design and simulation of industrial facilities and production systems based on a modular approach in an “industry 4.0” context», DYNA, 85(207), pp. 243–252. doi: 10.15446/dyna.v85n207.68545.

MLA

Alpala, L. O., M. del M. eva Alemany, D. H. Peluffo, F. A. Bolaños, A. M. Rosero, y J. C. Torres. «Methodology for the design and simulation of industrial facilities and production systems based on a modular approach in an “industry 4.0” context». DYNA, vol. 85, n.º 207, octubre de 2018, pp. 243-52, doi:10.15446/dyna.v85n207.68545.

Turabian

Alpala, Luis Omar, Maria del Mar eva Alemany, DIego Hernán Peluffo, Fabio Andres Bolaños, Aura Maria Rosero, y Juan Carlos Torres. «Methodology for the design and simulation of industrial facilities and production systems based on a modular approach in an “industry 4.0” context». DYNA 85, no. 207 (octubre 1, 2018): 243–252. Accedido marzo 16, 2026. https://revistas.unal.edu.co/index.php/dyna/article/view/68545.

Vancouver

1.

Alpala LO, Alemany M del M eva, Peluffo DH, Bolaños FA, Rosero AM, Torres JC. Methodology for the design and simulation of industrial facilities and production systems based on a modular approach in an "industry 4.0" context. DYNA [Internet]. 1 de octubre de 2018 [citado 16 de marzo de 2026];85(207):243-52. Disponible en: https://revistas.unal.edu.co/index.php/dyna/article/view/68545

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