Journal of Biosystems Engineering

Korean Society for Agricultural Machinery (한국농업기계학회)
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The Study for Optimal Layout of the Eleutherococcus Senticosus Sap Production Line Analyzed by Simulation Model

시뮬레이션 모델 구축과 분석을 통한 가시오가피 액즙 가공 라인의 최적 배치에 관한 연구

  • Kim, Young-Jin (Dept. of Bio-Mechatronic Engineering, Sungkyunkwan University) ;
  • Park, Hyun-Joon (Dept. of Bio-Mechatronic Engineering, Sungkyunkwan University) ;
  • Mun, Joung-Hwan (Dept. of Bio-Mechatronic Engineering, Sungkyunkwan University)
  • 김영진 (성균관대학교 바이오메카트로닉스) ;
  • 박현준 (성균관대학교 바이오메카트로닉스) ;
  • 문정환 (성균관대학교 바이오메카트로닉스)
  • Received : 2011.10.19
  • Accepted : 2011.11.22
  • Published : 2011.12.31
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Abstract

The purpose of this study is basically for the use of simulations to enhance productivity. In this paper, the optimal number of allocation in a small and medium industry which produces eleutherococcus senticosus sap, is performed using simulations. The simulation model was developed under considerations of production layout, process & operation, process time, total work time, work in process (WIP), utilization, failure rate, and operation efficient as inputs, and was validated with careful comparisons between real behaviors and outputs of the production line. Therefore, we can evaluate effects and changes in productivity when some strategies and/or crucial factors are changed. Although too many workers and machines could decrease productivity, the eleutherococcus senticosus sap production line in this paper has been maintained many machines. To solve this problem, we determined the optimal number of workers and machines that could not cause any interrupt in productions using simulations. This simulation model considers diverse input variables which could influence productivity, and it is very useful not only for the production line of Eleutherococcus Senticosus Sap, but also for other production lines with various purposes, especially, in the small and medium industries.

Keywords

References

  1. Bae, J. U. 2003. A Simulation Study on Buffer Yard in a Container Terminal. Journal of the Korean Institute of Plant Engineering 8(4):95-105.
  2. Ha, J. W. 2003. Analysis of the Paint Shop Layout and Operation Policy Using Simulation. Journal of the Korean Institute of Plant Engineering 8(1):185-196.
  3. Boyd L. 1998. Digital factories. Computer Graphics World 21(5):45-53.
  4. Buzacott, J. A. 1967. Automatic Transfer Lines with buffer stocks. The International Journal of Production Research 5(3):183-200. https://doi.org/10.1080/00207546708929751
  5. Han, M. S. and D. J. Park, 2002. Optimal buffer allocation of serial production lines with quality inspection machines. Computers & Industrial Engineering 42(1):75-89. https://doi.org/10.1016/S0360-8352(02)00004-9
  6. Spedding T. A. and K. K. Chan, 2001. System level improvement using discrete event simulation. International Journal of Quality & Reliability Management 18(1):84-103. https://doi.org/10.1108/02656710110365296
  7. Hong, Y. S. and D. H. Seong, 1992. The analysis of an unreliable two-machine production line with random processing times. European Journal of Operational Research 68(2):228-235. https://doi.org/10.1016/0377-2217(93)90305-7
  8. Siemens. 2011. Plant Simulation. Siemens. Available at: www.siemens.com. Accessed 10 August 2011.
  9. David K, W. 2005. Simulation with Arena 3rd ed., McGrawHill.
  10. Park, Y. H. and Miller, D. M. 2002. Multi-Factor Analysis of Firm-Level Performance Through Feed-Forward, Feed-Back Relationships. The Korea Society For Simulation 11(1):59-70.
  11. Seong D. H. 1997. A Simulation Model for the Analysis of Newly Constructed Coil Center. The Korean Production And Operations Management Society 8(1):75-88.
  12. Mehra S., R. Anthony I., Gregory T. 2006. simulation-based comparison of batch sizes in a continuous processing industry. Production Planning & Control 17(1):54-66. https://doi.org/10.1080/09537280500363883

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