Redesigning the Layout of Plastic Waste Processing Production Facilities at PT KIMA Using the Computerized Relationship Layout Planning (Corelap) Method
Keywords:
CORELAP, Layout Optimization, Production Efficiency , Waste ManagementAbstract
Purpose: This study explores the effectiveness of the Computerized Relationship Layout Planning (CORELAP) method in optimizing the layout of plastic waste processing production facilities at PT KIMA.
Subjects and Methods: A quasi-experimental design was employed, involving a pre-test and post-test assessment of key performance metrics such as material transfer distances, production time, efficiency, and equipment downtime.
Results: The results demonstrated significant improvements in operational efficiency for the experimental group using CORELAP, with material transfer distances reduced by 31.75%, production time decreased by 30%, and equipment downtime lowered by 13.8%. In comparison, the control group, which followed traditional layout practices, showed minimal improvements. These findings highlight the potential of the CORELAP method to enhance workflow efficiency, reduce operational costs, and improve overall productivity in industrial settings.
Conclusions: The study underscores the importance of modern layout optimization techniques in achieving both immediate and long-term operational gains, especially in resource-intensive industries such as waste management and recycling.
References
Al Bashar, M. A. H. B. O. O. B., Taher, M., & Ashrafi, D. (2024). Enhancing Efficiency of Material Handling Equipment in Industrial Engineering Sectors.
Alzoubi, K., Malkawi, H., Taha, A., & Dawelbait, Z. E. (2024, April). The Use of CORELAP Algorithm to Improve Emergency Room Layout in Small-size Hospitals. In 2024 5th International Conference on Industrial Engineering and Artificial Intelligence (IEAI) (pp. 61-65). IEEE. https://doi.org/10.1109/IEAI62569.2024.00019
Bach, T. M., Dalazen, L. L., da Silva, W. V., Ferraresi, A. A., & da Veiga, C. P. (2019). Relationship between innovation and performance in private companies: systematic literature review. Sage Open, 9(2), 2158244019855847. https://doi.org/10.1177/2158244019855847
Bendul, J. C., & Blunck, H. (2019). The design space of production planning and control for industry 4.0. Computers in Industry, 105, 260-272. https://doi.org/10.1016/j.compind.2018.10.010
Borchardt, M., Wendt, M. H., Pereira, G. M., & Sellitto, M. A. (2011). Redesign of a component based on ecodesign practices: environmental impact and cost reduction achievements. Journal of Cleaner Production, 19(1), 49-57. https://doi.org/10.1016/j.jclepro.2010.08.006
Kassa, A. S. E. F. A. (2015). The Role Of Machine Layout On Reduction Of Through Put Time For Gear Manufacturing (Case Study On Hibret Manufacturing And Machine Building Industry) (Doctoral Dissertation, St. Mary’s University).
Kulkarni, V. V. (2024). Industrial Engineering And Management Systems. Academic Guru Publishing House.
Marchi, B., & Zanoni, S. (2017). Supply chain management for improved energy efficiency: Review and opportunities. Energies, 10(10), 1618. https://doi.org/10.3390/en10101618
Pattanaik, L. N., & Sharma, B. P. (2009). Implementing lean manufacturing with cellular layout: a case study. The International Journal of Advanced Manufacturing Technology, 42, 772-779. https://doi.org/10.1007/s00170-008-1629-8
Santos, J., Wysk, R. A., & Torres, J. M. (2015). Improving production with lean thinking. John Wiley & Sons.
Seth, D., Seth, N., & Dhariwal, P. (2017). Application of value stream mapping (VSM) for lean and cycle time reduction in complex production environments: a case study. Production Planning & Control, 28(5), 398-419. https://doi.org/10.1080/09537287.2017.1300352
Shukla, P., Sharma, P. K., Pandey, S., & Kunwer, R. (2024). Optimizing municipal solid waste recovery through density-based waste plastic segregation. Journal of Material Cycles and Waste Management, 1-21.
Sim, K. L. (2001). An empirical examination of successive incremental improvement techniques and investment in manufacturing technology. International Journal of Operations & Production Management, 21(3), 373-399. https://doi.org/10.1108/01443570110364696
Siswoyo, G. N., Mulyatno, I. P., & Santosa, A. W. B. (2023). Design Interior dan Re-layout Ruang Akomodasi dengan Metode CORELAP pada Kapal Ro-Pax 10000 GT. Jurnal Teknik Perkapalan, 11(4).
Stephens, M. P., & Meyers, F. E. (2013). Manufacturing facilities design and material handling. Purdue University Press.
Vallander, K., & Lindblom, M. (2014). Lean line layouts in highly automated machining environments: ensuring consideration to important aspects when designing line layouts.
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