Twin River Bridges (Chongqing) Explained

Twin River Bridges
Carries:Trains, motor vehicles, pedestrians and bicycles
Crosses:Yangtze,
Yuzhong peninsula, & Jialing River
Locale:Chongqing, China
Owner:Chongqing City Construction Investment Corporation and Chongqing Rail Transit Corporation
Designer:China Merchants Chongqing Communications Research & Design Institute Co., Ltd.
and T. Y. Lin International
Cost:1.37 billion ¥
(US$208.2 million)
Opening:-->
Dongshuimen Bridge
Native Name:东水门大桥
Coordinates:29.5608°N 106.5872°W
Crosses:Yangtze River
Design:Combination girder and cable-stayed bridge
Material:Steel
Material2:Concrete
Length:8580NaN0
Mainspan:4450NaN0
Number Spans:3
Piers In Water:2
Open:April 1, 2014
Qiansimen Bridge
Native Name:千厮门大桥
Native Name Lang:Simplified
Coordinates:29.5682°N 106.5756°W
Crosses:Jialing River
Design:Combination girder and cable-stayed bridge
Material:Steel
Material2:Concrete
Length:7200NaN0
Mainspan:3120NaN0
Number Spans:4
Piers In Water:1
Opening:-->

The Dongshuimen Bridge and the Qiansimen Bridge, known collectively as the Twin River Bridges, are a pair of bridges that form a road and rail connection in Chongqing, China. Consisting of two cable-stayed bridges and a tunnel across the Yuzhong peninsula where the heart of Chongqing's commercial & financial district Jiefangbei CBD is located, the connection opened in 2014.

Planning

Planning for the Twin River Bridges dates to 1947, when the alignment of the connection appeared in planning documents for Chongqing. Right of way for planned connection has been preserved since then. The plan for the crossings has always included transit rail.[1]

By the time design of the Twin River Bridges began in 2008, it had been determined that the bridges could not be identical. Crossing of the Yangtze on the south side of the Yuzhong peninsula would require a longer main span and allow for two tower in the water. A deep shipping channel in the Jialing River would not allow a second tower. The plan called for a double deck design with four vehicular lanes and pedestrian walkways on the top and two rail tracks beneath.

Design

A design competition held in July 2008 sought signature long-span bridges which would complement the surrounding landscape. A team of China Merchants Chongqing Communications Research & Design Institute Co., Ltd. and T. Y. Lin International, led by Man-Chung Tang, won the competition. The constructed design has been called visually impactful.[2]

The design team considered and ruled out several bridge types. A conventional cable-stayed bridge design was determined to require the towers to be 170 meters above the deck. The towers would have been taller than surrounding buildings when the 60-meter deck height was added. This was considered visually overpowering. The span requirements were too long for a conventional girder bridge. A suspension bridge design would have required anchorages that interfered with the foundations of buildings along the sides of the rivers.

The selected design combined cable-stayed bridges with a truss girder for both bridges. This option, called partially cable-stayed, "draws half of its support from the girders and half from a cable-stayed system that can rely on (shorter towers)."

Bridges

The Twin River Bridges have consistent design elements and were constructed in the same timeframe (opening in 2014). The bridges have two decks. The lower deck carries two railways carrying Line 6 of Chongqing Rail Transit.[3] The upper deck carries four lanes for motor vehicles and two pedestrian walkways.

The bridges are structurally a combination of a girder design and a cable-stayed design. The bridges use a box-girder cross section where the box girder is trussed in the elevation (or side) view). The box girder is 130NaN0 tall and 150NaN0. The pedestrian walkways cantilever from the top of the box girder, making the top deck 240NaN0 wide.

Stay cables are in a single plane. Cables connect in the center of the top deck of the box girder.

The towers are reminiscent of an ancient Chinese weaving shuttle and can also be described as needle shaped. The deck passes through the tower at its widest part, what might be considered the eye of the needle. The towers are constructed of cast-in-place concrete. The towers are 18 meters wide at the bottom, spread to a maximum width of 35 meters at the level of the upper deck, and narrow to 7 meters at the top. The water level of the rivers varies 39 meters between wet and dry seasons, controlled mainly by discharges from the Three Gorges Dam which is 570 kilometers away. At low water levels, the deck is approximately 60 meters above the water and the tower top is 100 meters above the deck.

Dongshuimen Bridge

The Dongshuimen Bridge crosses the Yangtze River with a cable-stayed main span that is 4450NaN0 long, connecting the Yuzhong and Nan'an Districts. The bridge is 8580NaN0 long, with asymmetric cable-stayed back span lengths of 190.50NaN0 on the Yuzhong end and 222.50NaN0 on the Nan'an end. There are nine pairs of cables connecting each tower to the deck. At the time of its opening, the length of the main span ranks the Donshuimen Bridge among the longest one hundred in the world.

The substructure was built by China Railway Construction Bridge Engineering Bureau Group Co. Ltd. The superstructure was built by China Railway Eighth Civil Engineering Group Corporation (Beijing). The bridge opened to both road and rail traffic in April 2014.

Qiansimen Bridge

The Qiansimen Bridge (sometimes Qianximen Bridge) crosses the Jialing River with a cable-stayed main span that is 3120NaN0, connecting the Jiangbei and the Yuzhong Districts. The placement of the single tower means that the cable-stayed back span of 2400NaN0 provides a secondary channel for shipping. The bridge has a total length of 7200NaN0 as it includes girder spans of 880NaN0 and 800NaN0. The bridge has nine pairs of cables. The Qiansimen Bridge has the longest stay cable of both bridges, measuring 256.850NaN0 long. The bridge was shortlisted for an award by the Institution of Structural Engineers.[4]

The substructure was built by China Railway Construction Bridge Engineering Bureau Group Co. Ltd. The superstructure was built by CCCC Second Harbor Engineering Co., Ltd. The bridge opened to rail traffic in April 2014 and opened to road traffic in April 2015.

Notes and References

  1. Tang. Man-Chung. Man-Chung Tang. March 2016. Split Decision. Civil Engineering. American Society of Civil Engineers. 86. 3. 58–63.
  2. Web site: Twin River Bridges: Qianximen Jialing River Bridge. . Institution of Structural Engineers. March 26, 2016. Designing a long span structure that serves both highway and transit systems brings significant complexity and the judges were impressed with the way these challenges had been overcome in creating a cost effective and visually impactful structure.. dead. https://web.archive.org/web/20160413021722/https://www.istructe.org/structuralawards/the-shortlist/highway-or-railway-bridge/twin-river-bridges-qianximen-jialing-river-bridge. April 13, 2016.
  3. Web site: Twin River Bridges . 2022-07-13 . TY Lin International Group . en.
  4. Web site: Designing for China's Bridge Capital. . Institution of Structural Engineers. April 2, 2016.