Taizhou Yangtze River Bridge
History
The concept of a passage over the Yangtze was developed in 1998. It was not until December 2007 when the construction of the bridge began. It would become the first 1,000-meter-span and 3-tower-continuous-span suspension bridge. The idea of multiple towers and the pylon suspension lines to connect them was to decrease the impact that river flow can have on the structure. Being the first of its kind, the bridge would influence and shape various studies on structural engineering. This would lead to resolutions to known issues and research proposals in the engineering field. For example, a reasonable method of a wind resistance test was developed based on the unique structural integrity of the bridge. As a result, the Ministry of Communication of China recognize the bridge as a symbol of innovation in bridge technology.
The bridge has provided many functional contributions as well. With the daily traffic flow being at 30,000 on the bridge, the commute between Taizhou, Jiangsui and Changzhou has been reduced from 2 hours to 1. The structural achievement is seen as a promoter for the areas as it connects east to west. This progress is predicted to help accelerate development of the surrounding cities, especially Taizhou.
Bridge components
Altogether the Taizhou Bridge construction project was 62.088 km (38.580 mi) long. The north bridge is 6,821 m (22,379 ft), including a three-tower suspension bridge with a pair of 1,080 m (3,540 ft) suspension spans, and 4,661 m (15,292 ft) of connecting approaches. The south bridge is 2,905 m (9,531 ft) with box-girder spans of 85+125x3+85 = 545 m (1,788 ft) and 85+125x2+85=420 m (1,380 ft). The north bank has 8 km (5.0 mi) of connecting highway. Yangzhong Island has 2.94 km (1.83 mi) of highway and the south bank has 40 km (25 mi) of connecting highway.
The north bridge's double suspension spans are among the longest in the world.
The structural integrity of the bridge is dependent on the main lines. However, these main lines are constantly exposed to harsh weathers which can affect its strength and longevity through erosion. To address this issue, The Jiangsu Province Communications Planning and Design Institute Limited Company established a "dehumidification system". This system involves humidity and temperature sensors so maintenance groups can have "real-time visibility of the condition of critical areas and can conduct analysis based on historical data to ensure science-based decision-making in the maintenance of the bridge’s main cables".
Awards
- 2013 Institution of Structural Engineers Supreme Award for structural engineering
- 2014 IABSE Outstanding Structure Award.
- American Society of Civil Engineers 2014 Outstanding Civil Engineering Achievement Award
- Front cover appearance on Bridge Design and Engineering magazine
See also
- List of bridges in China
- Yangtze River bridges and tunnels
- List of longest suspension bridge spans
- List of tallest bridges in the world
References
- ^ (Chinese) 泰州长江大桥简介 2012-11-23
- ^ "The Taizhou Bridge" (PDF). koti.kontu.la. Archived from the original (PDF) on 2016-03-03.
- ^ "Taizhou Yangtze River Bridge sets 5 world records". jschina.com.cn. Archived from the original on 2014-02-19.
- ^ "Taizhou Yangtze River Bridge to open in E China". xinhuanet.com. 2012-11-21. Archived from the original on November 28, 2012. Retrieved 2012-12-01.
- ^ "Taizhou Yangtze River Highway Bridge | International Federation of Consulting Engineers". fidic.org. Retrieved 2018-05-08.
- ^ "Taizhou Bridge (China)" (PDF). Mageba Project Information.
- ^ Zhang, Min; Wan, Tianbao; Wang, Yingliang (March 2015). "Design and static analysis of the Taizhou Yangtze River Bridge, China". Proceedings of the Institution of Civil Engineers - Bridge Engineering. 168 (1): 52–63. doi:10.1680/bren.12.00017. ISSN 1478-4637.
- ^ "Taizhou triple - Bridge Design & Engineering". Archived from the original on 2013-12-20.
- ^ "China's World-Famous Taizhou Bridge Uses HMT330 Humidity Transmitters to Extend Service Life". Vaisala. Retrieved 2018-05-03.
- ^ Institution of Structural Engineers (2013). Winners, Structural Awards. Accessed on October 25, 2015.
- ^ "The Taizhou Bridge, Jiangsu, China". IABSE. Archived from the original on 2015-06-28. Retrieved 2015-05-22.