摘要
沪通长江大桥是新建沪通铁路及通苏嘉城际铁路的控制性工程,建成后将成为世界上跨度最大的公铁两用斜拉桥。初步选定十二圩、十三圩和西界港作为备选桥位,随后通过河床演变分析,从岸线、等高线、深泓线和断面的变化4个方面对桥位进行了深入比选。分析结果认为:工程河段具备建桥的宏观河势条件;十二圩河段较为稳定,十三圩河段次之,西界港河段变化较大。综合考虑岸线资源利用,推荐十三圩桥位方案,研究成果可为拟建桥梁的设计与决策提供更为充分的技术依据。
Hutong Changjiang River Bridge, a key project of the newly-built Shanghai-Nantong railway and Nantong-Suzhou-Jiaxing inter-city railway, will be the longest span high way-railway bridge in the world and 3 bridge sites of Shier-wei, Shisanwei and Xijiegang in Chengtong reach of Changjiang River were primarily selected and compared from aspects of river-bed evolution,including the variation of shoreline, contour line, talweg and cross-sections. The results show that the selected river reach is qualified to bridge construction in general, the Shierwei cross-section is the most stable while Xijiegang cross-section is poorest in stability;taking account of the shoreline resources utilization, Shisanwei cross-section is recommended as the bridge site. Relevant study results provide technical basis to the design and decision making of Hutong Yangtze River Bridge.
出处
《人民长江》
北大核心
2014年第7期52-56,共5页
Yangtze River
关键词
河床演变
深泓线
桥位比选
横港沙
沪通长江大桥
riverbed evolution
talweg
bridge site comparison and selection
Henggang Shoal
Hutong Yangtze River Bridge
