The Chenab Bridge is an Indian railway steel and concrete arch bridge under construction between Bakkal and Kauri in the Reasi district of Jammu and Kashmir in India. When completed, the bridge will span the Chenab River at a height of above the river, making it the world's highest rail bridge. In November 2017 the base supports were declared completed allowing for the start of the construction of the main arch. Key technical data of the bridge include:
Deck height :, :
Bridge length:, including the long viaduct on the northern side
The bridge with the widest span in the Indian broad gauge railway network
Introduction and topography
Northern Railway has undertaken the mega-project of constructing a new railway line across the Indian union territory of Jammu and Kashmir between the towns of Udhampur near Jammu and Baramulla on the northwestern edge of the Kashmir Valley. This project was declared a national project in 2002. It is directed by the Northern Railway. The extraordinary challenge lies in a large number of tunnels and bridges to be implemented in highly rugged and mountainous terrain, with the difficult Himalayan geology. The most difficult part is believed to be the crossing of the deep gorge of the Chenab River, near Salal Hydro Power Dam, by the Chenab Bridge. Another, smaller, arch bridge proposed on the new railway line was the long, high Anji Khad Bridge between Katra and Reasi over the Chenab river tributary river. This proposal was abandoned by the railway due to the specific geology of the location and a cable-stayed bridge is proposed.
Design
After many deliberations, taking into account aesthetics, economy, and availability of local expertise and construction materials, the Chenab Bridge was designed as a large span single arch steel bridge with approach viaducts on either side. The arch is two-ribbed, fabricated from large steel trusses. The chords of the trusses are sealed steel boxes, internally stiffened and filled with concrete to assist in controlling wind-induced forces on the bridge. Another advantage of concrete filling is that internal painting will not be required. The number of bearings has been minimized, particularly on the approach viaduct, through the use of continuous construction. This is advantageous, as it reduces the maintenance and inspection efforts, and improves the riding quality. The viaduct piers are of concrete, while the piers near the arch are steel. The design of major arch rail bridges requires considerations of a number of additional parameters, such as fatigue, global stability, second order effects, composite action, etc. It also requires that such a bridge is designed to achieve a consistent level of reliability for all load cases, and that the design standards match the construction standards. Indian construction standards such as the Indian Railway Standards, the Indian Road Congress and the Indian Standards were found inadequate for the large spans of the Chenab Bridge. For example, the Indian Railway Standards is primarily intended for simply supported bridges with spans up to 100m. The spans for the Chenab Bridge greatly exceed this limit, and are continuous. Therefore, to assure a safe design, Indian national standards have been supplemented with International standards such as British Standards, International Union of Railways and Euro. Also, many global experts with versatile and relevant experience, have been involved in order to facilitate making the project a success. Following are some of the design considerations taken into account:
Provision of Euro code 8 for ductility detailing of very tall and hollow rectangular RCC piers
Provision of long welded rail over the bridges and resulting force calculation as per UIC – 774-3R guidelines
Blast resistant design used
Design checking for fatigue as per BS codes
Deformation limits as per comfort criteria of UIC – 776-2R and UIC 776 -3R guidelines
Redundancy provided in the structures, for lower level of operation during mishaps and against collapse in extreme cases of one pier failure
The Quality aspect has been emphasised, as the quantum of fabrication and welding is colossal. Mostly indigenous material compliant to IS codes has been planned to be used, whereas for the design, international codes have been referred, which means the Quality Control work is still difficult.
Construction
The Chenab Bridge was originally intended to be completed in December 2009. However, in September 2008 the project was halted due to fears over the bridge's stability and safety. Work on the bridge restarted in 2010 with the plan to complete it in 2015. The construction was awarded to Afcons Infrastructure Limited, a part of the Shapoorji Pallonji Group, the third-largest construction group in India. The erection scheme for the bridge is a project in itself. Two pylons were erected on either side of the river, and two auxiliary self-propelled cable cranes were used to tow temporary auxiliary ropes across these pylons. The ropes were used to support the partly finished arch parts. After arch completion, the trusses will be added, finally the girder will be constructed as a horizontal sliding type platform.
Jul 2017: construction work resumes.
Nov 2017:The Work On Arch Bridge To Completed By "May 2019".
Nov 2018: Bridge under active construction.
Dec 2018: Project may not complete by end of 2019.
Aug 2019: 80% work completed. To be opened in mid of 2020.
Nov 2019: 83% work completed. To be opened in March 2021.
Jan 2020: To be opened in December 2021.
Maintenance
Regular painting of large bridges is an intimidating task; hence, a painting scheme was developed, having renewal of over 15 years, compared to approx. 5 to 7 years in most other Indian railway bridges.
