Journal of the Korea Academia-Industrial cooperation Society (한국산학기술학회논문지)

The Korea Academia-Industrial cooperation Society (한국산학기술학회)
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A Study to Develop a Multiple Container Transportation System

대용량 컨테이너 이송장치 기술개발 전략 연구

  • Received : 2013.10.02
  • Accepted : 2014.02.05
  • Published : 2014.02.28
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Abstract

This paper presents results of a study for development and application of container massive transportation system. The system is aimed to improve competing power of Korean container ports. This paper selects Double stack Multi-Trailer System (DMTS) under consideration of pros-con analysis between three systems alternatives as well as operation process of existing Korean container terminal companies. An analysis of turning radius is undertaken for applying the system. Key elementary technologies was derived by patent analysis. DMTS has no problems in utilization to existing Korean container ports. Further, the system is expected to highly potential to improve operational efficiency in the container ports thanks to its high unit transportation capacity.

컨테이너 물동량 증대에 따라 항만 내 타부두 간 환적 물동량 수요가 크게 증대되었으나, 기존 YT 방식의 타부두 환적은 이를 효율적으로 뒷받침하지 못하고 있다. 본 논문은 컨테이너항만의 경쟁력 향상을 위한 컨테이너 대용량 이송장치 개발방안을 제시하였다. 시스템 대안의 장단점 분석과 국내 터미널 운영형태를 고려하여 2단적재 다중 편성시스템(DMTS)을 최종 대안으로 선정하였다. DMTS 회전반경은 13.5m로, 국내 기존 항만의 layout에서 즉시 운용 가능할 것으로 판단된다. 특허분석을 통하여 DMTS 핵심기술 항목으로서 현가 조향장치 최적설계, 동력 및 동력전달 장치, 주행제어 및 안전감시장치, 그리고 트레일러 간 연결기 등을 도출하였다. DMTS는 국내 수출입 항만에 적용하는데 문제가 없으며 단위 수송용량이 높아 운영 효율성 개선에 기여할 것으로 판단된다.

Keywords

References

  1. World Shipping Council, Top 50 World Container Ports, http://www.worldshipping.org/about-the-industry/global-trade/top-50-world-container-ports. (accessed Sep., 2013)
  2. S. H. Choi, S. &, K. S. Shim, W. S. Kim, T. Y. Ha, A Study on the Establishment of the Technology Road Map for Container Ports in Korea, Korea Maritime Institute(KMI) Research Project Report, 2007. 12.
  3. S. M. Oh, S. H. Choi, K. L, Ahn, etc., A Planning Research of Inter-Terminal Container Transportation System, Korea Institute of Marine Science & Technology Promotion(KIMST), 2013. 2.
  4. A. H. Boezeman, K. F. Drenth, The Use of Multi-Trailer Systems, 6th International Symposium on Heavy Vehicle Weights and Dimensions, 2000. 6.
  5. Jaap A. Ottjes, Mark B. Duinkerken, Joseph J. M. Evers, Robotised Inter Terminal Transport of Containers a Simulation Study at the Rotterdam Port Area, Proceedings of the 8th European Simulation Symposium, 1996. 10.
  6. Mark B. Duinkerken, Rommert Dekker, Stef T. G. L. Kurstjens, Jaap A. Ottjes, Nico P. Dellaert, Comparing Transportation Systems for Inter-Terminal Transport at the Maasvlakte Container Terminals, OR Spectrum Vol. 28, 2006, pp. 469-493. DOI: http://dx.doi.org/10.1007/s00291-006-0056-1
  7. A. M. C. Odhams, R. L. Roebuck, D. Cebon, Implementation of Active Steering on a Multiple Trailer Long Combination Vehicle, Working Paper.
  8. Andri Riid, Jaakko Ketola, Ennu Rustern, Fuzzy Knowledge-Based Control for Backing Multi-Trailer System, Working Paper.
  9. Alex Goussiatiner, Efficiency of multi-trailer systems for ship to stacks container transportation, Port Technology International, pp. 78-82.
  10. C. B. Winkler, Innovative Dollies: Improving the Dynamic Performance of Multi-Trailer Vehicles, Working Paper.
  11. W. C. A. Rademaker, Container Terminal Automation, Haskoning UK Ltd. Maritime Final Report, 2007. 3.
  12. Y. A. Saanen, An Approach for Designing Robotized Marine Container Terminals, Ph.D Dissertation Technical University Delft, 2004. 12.
  13. Mathias Dobner, Armin Wieschemann, Heinz Eichner, Automatic Guided Vehicles Development and Applications, Gottwald Port Technology Presentation.