Chenab Rail Bridge

The Chenab Rail Bridge, is a railway bridge over the Chenab River in Reasi district of the Indian territory of Jammu and Kashmir. It is a steel and concrete spanning 1,315 m (4,314 ft) across the river gorge. The structure consists of an approach bridge which is 530 m (1,740 ft) long and a 785 m (2,575 ft) long deck arch bridge. With a deck height of 359 m (1,178 ft) from the river bed, the arch bridge is the highest rail bridge and arch bridge in the world. It is located between Kauri and Bakkal on the Jammu–Baramulla line.

Chenab Rail Bridge
Chenab Rail bridge in 2023
Coordinates	33°9′3″N 74°52′59″E
Carries	trains
Crosses	Chenab River
Locale	Reasi district, Jammu and Kashmir
Owner	Indian Railways
Maintained by	Indian Railways
Characteristics
Design	Deck arch bridge
Material	Steel and concrete
Total length	1,315 m (4,314 ft)
Width	13.5 m (44 ft)
Height	359 m (1,178 ft)
Longest span	467 m (1,532 ft)
No. of spans	17
History
Designer	WSP Leonhardt, Andrä und Partner Indian Institute of Science Vienna Consulting Engineers
Constructed by	Afcons Infrastructure Ultra Construction VSL India
Construction cost	₹14.86 billion (US$170 million)
Opened	19 April 2025
Inaugurated	13 August 2022
Location

Udhampur–Srinagar– Baramula Rail Link (USBRL)
Legend
km 324 Baramulla Uri(in progress)   Kupwara Line (in progress)   Kupwara Bandipora Line (proposed) 316 Sopore 309 Hamre 301 Pattan 293 Mazhom 287 Nadigam Halt 279 Budgam 267 Srinagar 261 Pampore Jhelum Bridge 255 Kakapora 252 Ratnipora Halt 245 Awantipora 238 Panzgom Shopian Line (in progress)   231 Bijbehara to Pahalgam (in progress) 225 Anantnag 217 Sadura 206 Qazigund 202 Hillar Shahabad Halt Banihal-Qazigund Railway Tunnel (11.215 km) 189 Banihal Tunnels T53-T55 Tunnel T52 (8.61 km) 175 Khari Tunnel T51 Tunnel T50 (12.775 km) 160 Sumber Tunnel T49 (10.178 km) Tunnels T45-T48 141 Sangaldan Tunnel T44 (11.13 km) Tunnel T43 (6.292 km) 123 Sawalkote Tunnel T42 (9.316 km) 114 Dugga Tunnels T38-T41 Tunnel T37 (3.493 km) Chenab Rail Bridge 102 Bakkal Tunnel T36 (5.941 km) 95 Reasi Tunnel T35 (3.007 km) Anji Khad Bridge Tunnel T34 (5.098 km) Tunnel T33 (3.209 km) Tunnels T31-T32 78 Shri Mata Vaishno Devi Katra Tunnel T30 Jhajjar Khad Bridge Tunnels T25-T29 69 Chak Rakhwal Tunnel T24 Tunnel T23 (3.12 km) Tunnels T21-T22 Bhadarwah Line (planned) 53 Udhampur 43 Ram Nagar Tunnels T14-T20 Tawi Bridge 32 Manwal billawar Line (planned) Tunnels T10-T13 22 Sangar Tunnels T4-T9 11 Bajalta Tunnels T1-T3 Poonch line (planned) 0 Jammu Tawi Jalandhar–Jammu line km
This diagram: view talk edit

The bridge was constructed at a cost of ₹14.86 billion (US$170 million). The project was overseen by Konkan Railway Corporation of the Indian Railways. While the project was approved in 2002, the construction work started only in 2017. The base supports were completed in November 2017 with the arch constructed by April 2021. The bridge was fully completed and was inaugurated in August 2022. The first trial runs were conducted in June 2024. Prime Minister Narendra Modi to inaugurate Vande Bharat train service between Katra - Srinagar on 19th April 2025 which will pass over Chenab Bridge and Anji Khad Bridge.^[1]

Background and planning

In the late 1970s, the Government of India planned to establish a railway line to connect Jammu with the Kashmir valley. The line would connect Kashmir with the rest of the Indian railway network and aid in the economic activity of the region.^[2][3][4] It would also serve as a strategic link to the Kashmir region all round the year as the road is often cut off by snowfall during winters.^[5] Though the foundation stone for the project was laid in 1983, constructed started only when the funds were allocated only in the mid 1990s.^[6][7][8] The Jammu–Udhampur section was opened in April 2005.^[2][7] Subsequently, a railway line was established between Baramulla and Banihal in Kashmir in phases from 2008 to 2013, and the planned Jammu-Baramulla line would extend beyond Srinagar to connect to the new line.^[6][9] The section between Udhampur and Katra was opened for traffic in July 2014.^[10]

Meanwhile, a survey was conducted in 1997 to study the feasibility for extending the railway line from Udhampur to Srinagar in the valley.^[7][8] The line would have to pass through the Pir Panjal range of the Himalayas,^[6] which necessitated multiple tunnels and bridges.^[2][4][9] The line between Katra and Srinagar necessitated a crossing of a deep gorge formed by the Chenab River.^[2][11][12] A high altitude rail bridge was approved to cross the river between Kauri and Bakkal, about 23 km (14 mi) north of Katra.^{[2][13][14][15]}

Design

The Indian Railways assigned the bridge construction project to Konkan Railway Corporation on behalf of Northern Railways.^[2][16] The bridge was declared a national project due to its national importance in connecting Kashmir to the existing lines of Indian Railways.^[13][14] Konkan railway invited tenders for the project in November 2003.^[15] The area was located in a major seismic zone (zone V) with a fractured geology,^[15] and in a conflict prone zone.^[5] WSP Finland served as the main designer of the bridge, with Leonhardt, Andrä und Partner designing the bridge arches, and Vienna Consulting Engineers aiding in the design of the pylons.^[2][3][16] Indian Institute of Science helped with the study of the protection of the foundation of the bridge.^[16]

A 1,315 m (4,314 ft) was planned at a cost of ₹14.86 billion (US$170 million).^[9][13][16] The main deck of the bridge was planned at a height of 359 m (1,178 ft) above the river bed, making it the highest rail bridge and arch bridge in the world.^[9][13][16] The bridge consists of two parts– an approach bridge which is 530 m (1,740 ft) long and the 785 m (2,575 ft) long deck arch bridge.^[12] The arch bridge consists of a two-ribbed arch design and prefabricated steel boxes filled with concrete used in chords of the trusses.^[2][12] The bridge consists of 17 spans, with the main span measuring 467 m (1,532 ft) linearly.^[2][16] The spans are supported by steel piers, the highest of which measures 133.7 m (439 ft).^[9] The super structure consists of 161 girder plates each of 8 m (26 ft) length and 8 mm (0.31 in) thickness.^[9][12][14] The bridge is about 13.5 m (44 ft) wide,^[12] and can accommodate double railway tracks with a separation of 1.2 m (3 ft 11 in) in the center.^[2][13] The main bridge arch structure weighs 10,619 tonnes and is supported by two cable-attached pylons measuring 130 m (430 ft) and 100 m (330 ft) respectively.^[2][16]

The design and construction is compliant with various national and global standards and codes, including Indian Standards, Indian Railway Standards, Indian Road Congress, British Standards, and International Union of Railways.^[2][12][15] The bridge is designed to have a life of 120 years and is designated to handle rail speeds of up to 100 km/h (62 mph).^[2][3][16] The bridge was designed to withstand earthquakes up to a magnitude of eight on the Richter scale, high-intensity blasts equivalent to about 40 tonnes of TNT, temperatures up to −20 °C (−4 °F) and wind speeds of up to 266 km/h (165 mph).^{[13][14][16][17]}

Construction and opening

Piers of the approach bridge in 2013

The construction contract was awarded to Chenab Bridge Project Undertaking, a joint venture between Indian companies Afcons Infrastructure, VSL India, and South Korean company Ultra Construction.^[16][18][19] Though the project was initially slated for completion by 2009,^[12] construction was halted in late 2008 due to concerns with the safety and stability of the bridge.^[2][9][14] The construction work re-started in 2010,^[9][14][20] after a modification to the main span design.^[12] The base supports of the bridge were completed in November 2017.^[21] Construction progressed actively in 2018 with initial plans to complete the bridge by May 2019.^[22][23][24] However, the progress was slower than expected and missed several deadlines.^[25][26] Only about 83% of the construction was deemed to be completed by January 2020, with a subsequent planned opening in 2021.^[14][27] The arches were completed by April 2021, with the new deadline set for 2022.^[28][29] The bridge was fully completed and was inaugurated on 13 August 2022.^[30][31] In February 2023, laying of railway tracks on the bridge commenced,^[32][33][34] with the commencement of traffic expected in early 2024.^[35] Full scale trial runs across the entire line commenced in June 2024, and expected date to be opened for traffic pushed to late 2024.^[36][37]

Aerial view of Chenab Bridge during construction of the arch

The viaduct piers are made of self compacting concrete filled into steel boxes.^[14] The construction used about 28,660 tonnes of steel, 66,000 m³ of concrete and 84 km (52 mi) of bolts and cables.^[3][13][16] The steel was supplied by the Steel Authority of India.^[9][14] Cabling for the pylon was installed by Jochum Andreas Seiltransporte.^[2] After the steel columns were built, a derrick crane was used to install the arch sections and deck spans in place, with temporary cables holding them in place.^[12] Specially designed high strength friction grip bolts were used for joining the two ends of the bridge arches.^[38] Due to the extreme location of the bridge, a new corrosion resistant painting scheme was developed, having a longer life time of about 15 years, compared to five to seven years in most other Indian railway bridges.^[14][39] The painting contract was awarded to AkzoNobel.^[2]

As the construction site was located amidst the Himalayas, the construction involved several logistical challenges.^[5][12] Due to limited connectivity, workshops were set up at select locations on either side of the river valley.^[12] The electricity used was generated locally, and the water was transported using pipes from the river.^[12] Proofing of the foundation, and viaduct and arch was done by the British companies URS and COWI respectively.^[16] Stability analysis was done ITASCA along with IIT Delhi.^[16] Seismic analysis was done with IIT Delhi and IIT Roorkee.^[16] The Defence Research & Development Organization aided in developing the blast proofing of the bridge.^[3][40]

See also

• Anji Khad Bridge
• Geostrategic rail lines in India
• India-China Border Roads
• List of bridges in India