集装箱环球航线的枢纽区位优化
收稿日期: 2007-06-29
修回日期: 2008-01-07
网络出版日期: 2008-06-25
基金资助
国家自然科学基金重点项目(40635026); 国家自然科学基金项目(40701045)
Optimization of the Locations of Hub- ports in Round- the- world Container Service
Received date: 2007-06-29
Revised date: 2008-01-07
Online published: 2008-06-25
Supported by
National Natural Science Foundation of China, No.40635026; No.40701045
徐骅, 金凤君, 王成金 . 集装箱环球航线的枢纽区位优化[J]. 地理学报, 2008 , 63(6) : 593 -602 . DOI: 10.11821/xb200806004
Under the background of economic globalization, container shipping, which has the character of pronounced scale economy, is an indispensable link of a modern economy. Since the container ships become larger and larger, the expansion of Panama Canal has been put to agenda, therefore "round-the-world service", which can exploit economy of scale most, will reappear soon, hence forming a world-wide hub-spoke network eventually. This study analyses shipping cost to find the best locations of hub-ports of the container service which is based on Ashar's Equatorial Round-The-World Service (ERTW Service). How to choosing hub-ports en route will affect the world regional economic development in the future, so this study is quite meaningful. The result of this study differs slightly from Ashar's ERTW Service, for example, the locations of ports of Chinese Taiwan are quite superior, while those of Chinese Mainland, especially those along the coast of Yellow Sea and Bohai Sea, are not so good comparatively. Although this study is from a new aspect which is pure economical and makes the result somewhat deviate from the status quo, it introduces a new quantitative method to analyse transportation geography. The result of this study reveals the disadvantages of the locations of ports of Chinese Mainland. The emergency is to reinforce the construction and management of these ports to attract more container services to meet the future challenges.
[1] Slack S. Across the pond: Container shipping on the North Atlantic in the era of globalisation. GeoJournal, 1999, 48: 9-14.
[2] Trace K. Globalisation of container shipping: Implications for the north-south liner shipping trades. The 8th World Congress of Economic History, July, 2002.
[3] Peng Chuansheng. The long-term development perspective of container liner shipping system. Containerization, 2000, (7): 9-12.
[彭传圣. 集装箱班轮运输系统的远期发展前景. 集装箱化, 2000, (7): 9-12.]
[4] Slack B, Comtois C, Sletmo G. Shipping lines as agents of change in the port industry. Maritime Policy and Management, 1996, 23: 289-300.
[5] Li Weiguo, Li Chao, Zhou Honghai. The trend of enlargement of container carriers and its effects. Containerization, 2005, 1: 10-12.
[李卫国, 李超, 周洪海. 集装箱船大型化趋势及其影响. 集装箱化, 2005, 1: 10-12.]
[6] Cullinane K, Khanna M. Economies of scale in large container ships: Optimal size and geographical implications. Journal of Transport Geography, 2000, 8: 181-195.
[7] Zhang Rongzhong. The expansion of Panama Canal for very large container carriers. Container Transport, 2006, 11: 22-24.
[张荣忠. 为超大型、巨无霸型集装箱船开道: 扩建巴拿马运河. 集装箱运输, 2006, 11: 22-24.]
[8] Notteboom T E. Container shipping and ports: An overview. Review of Network Economics, 2004, 3: 86-106.
[9] Chang H Y. The impact of bigger vessels on shipping and ports. Workshop on Shipping and Port Development Policy: A course of Koran Maritime Institute. April 13, 2004.
[10] Ashar A. Revolution #4. Containerisation International. 2006, 12: 46-49.
[11] O'Kelly M E, Miller H J. The hub network design problem. Journal of Transport Geography, 1994, 2(1): 31-40.
[12] Bodin L D, Golden B I, Schuster A D et al. A model for the blocking of trains. Transportation Research B, 1980, 1/2: 115-120.
[13] Chestler L. Overnight air express: Spatial pattern, competition and the future in small package delivery services. Transportation Quarterly, 1985, 39: 59-71.
[14] Shaw S L. Hub structures of major US passenger airlines. Journal of Transport Geography, 1993, 1: 47-58.
[15] O'Kelly M E, Bryan D, Skorin-Kapov D et al. Hub network design with single and multiple allocation: A computational study. Location Science, 1996, 4: 125-138.
[16] O'Kelly M E. A quadratic integer program for the location of interacting hub facilities. European Journal of Operational Research, 1987, 3: 393-404.
[17] O'Kelly M E, Skorin-Kapov D, Skorin-Kapov J. Lower bounds for the hub location problem. Management Science, 1995, 41: 713-721.
/
〈 | 〉 |