Tbilisi cable car crash

Last updated
Tbilisi cable car crash
Tbilisi Ropeway to Mtatsminda Park.jpg
A cable car like the one in the 1990 accident.
Date1 June 1990 (1990-06-01)
Time15:15
Location Tbilisi, Soviet Georgia
Coordinates 41°41′57″N44°47′18″E / 41.69917°N 44.78833°E / 41.69917; 44.78833
CauseUnknown.
Deaths19
Non-fatal injuriesat least 42

The Tbilisi cable car crash was an aerial tramway accident in Tbilisi, the capital of Soviet Georgia, on 1 June 1990, resulting in 19 deaths and at least 42 injuries.

Contents

The accident involved two gondolas on a ropeway route between Rustaveli Avenue and Mount Mtatsminda. [1] Red gondola number 1 was on its way down from the slope of the mountain, nearing the lower supporting tower, and red gondola number 2 was nearing an upper tower, when the hauling rope broke inside the coupler of the upper gondola. Both gondolas rolled down simultaneously. The lower gondola slammed into the wall of the lower station, killing four and injuring many others. The upper gondola generated a higher speed (the length of ropeway was 863.3 metres or 2,832 feet); on reaching the lower support tower, it struck the broken hauling rope, which was hanging on the tower, causing the cable to tear the gondola apart.

A cut-open gondola was hanging above the rooftops as a result of the collision's extreme force, which caused the track cable to fall off the tower. Additionally, this led to the cabin sliding down and colliding with the roof of a six-story building below. This caused even further destruction to the gondola and caused people to fall 20 metres (66 ft) onto the rooftops and ground below. Nineteen people were killed [2] [3] and at least 15 badly injured. Most were children on a sightseeing tour to Tbilisi from School Number 5 of the regional town of Akhaltsikhe, to celebrate Children's Day. [3] [4] Surviving witnesses from both gondolas say that the brakes did not work in either of the gondolas, despite the desperate attempts of guides and passengers who helped them to pull the brakes.

Panoramic view from Mt. Mtatsminda down on Rustaveli Avenue in 2009 View of Tbilisi from Mt Mtatsminda (1).jpg
Panoramic view from Mt. Mtatsminda down on Rustaveli Avenue in 2009

In 1988, two years prior to the accident, the cable car underwent major reconstruction under the lead of head engineer Vakhtang Lejava. Originally the cable car used three supporting towers. Redesigning this meant replacing the 20-metre-high (66 ft) lower mast with a new 25-metre-high (82 ft) mast. Two short upper masts (10 to 12 m or 33 to 39 ft high) were also replaced by one 20-metre-high (66 ft) mast. Prior to this change, the gondolas had a slight climbing angle on the two upper masts. Using a single higher mast caused the new gondolas to run from the upper station horizontal to the mast and then, with a sharp angle, head down. The standard oval Georgian gondolas (with a capacity of 25 per gondola), produced in Tbilisi by Tbilisi Aircraft Manufacturing, were replaced by Italian larger rectangular ones built by "Lovisolo" and provided by "Ceretti & Tanfani", providing greater passenger capacity (40 per gondola). The braking system of the new gondolas did not function properly – while climbing over the upper mast, the braking system would incorrectly engage. The service staff would have to climb on top of the gondola and turn it off manually when this occurred. To avoid this inconvenience, the brakes were just turned off. Additionally, on the day of the accident, both gondolas were over-capacity: the lower gondola had 46 passengers on board, the upper gondola held 47 passengers.

Accident investigation documentation does not identify the cause of the hauling rope breaking inside the coupler. Many unanswered questions still remain, and the cause of the accident is not known.

The track and hauling cables were dismantled while the damaged gondolas were dismantled after three years. The masts and the stations were kept intact. The aerial tramway was never restored. In 2014, the upper station and both supporting masts were dismantled due to planned restoration of the tramway as a reversible gondola cable car, running from a relocated lower station. However, the upper station location remained the same. The old lower station, due to its unique architecture, is a cultural heritage object. The planned restoration was abandoned due to local opposition and visual flaws of the new lower station on one of the main squares of the city in front of Radisson Hotel. Another issue with the restoration was the oversized five supporting masts, two of them being located on hilly streets, causing already narrow streets to reduce even more in width.

Disused cablecar station as seen in 2015 Gruzugol building internal tower.JPG
Disused cablecar station as seen in 2015

From 2012 until 2021 plans to reconstruct the aerial tramway have failed to materialize. In 2012 Austrian-Swiss Doppelmayr Garaventa Group was contracted to produce parts, which it did. However, renovation works stalled because of the high density small housing which appeared in the backyard of the lower station. According to Tbilisi mayor Kaladze residents living near the Rustaveli Avenue station refused to relocate caused the delay. New construction tenders initiated in 2020-2021 and failed twice. [5] Prior to his reelection as mayor in October 2021, Kaladze said the cable car line will be operational by the end of 2022, while reconstruction work allegedly started on both stations. The reconstruction is expected to cost $16 million. [6] The major challenge is to adapt the lower station backyard for a monocable detachable gondola infrastructure, because the lower station was only designed for aerial tramway type of cable car in 1958.

See also

Related Research Articles

<span class="mw-page-title-main">Cable transport</span> Class of transport modes

Cable transport is a broad class of transport modes that have cables. They transport passengers and goods, often in vehicles called cable cars. The cable may be driven or passive, and items may be moved by pulling, sliding, sailing, or by drives within the object being moved on cableways. The use of pulleys and balancing of loads moving up and down are common elements of cable transport. They are often used in mountainous areas where cable haulage can overcome large differences in elevation.

<span class="mw-page-title-main">Aerial tramway</span> Aerial lift in which the cars are permanently fixed to the cables

An aerial tramway, aerial tram, sky tram, aerial cablecar, aerial cableway, telepherique, or seilbahn is a type of aerial lift which uses one or two stationary ropes for support while a third moving rope provides propulsion. With this form of lift, the grip of an aerial tramway cabin is fixed onto the propulsion rope and cannot be decoupled from it during operations. In comparison to gondola lifts, aerial tramways generally provide lower line capacities and higher wait times.

<span class="mw-page-title-main">Gondola lift</span> Aerial transport by cable

A gondola lift is a means of cable transport and type of aerial lift which is supported and propelled by cables from above. It consists of a loop of steel wire rope that is strung between two stations, sometimes over intermediate supporting towers. The cable is driven by a bullwheel in a terminal, which is typically connected to an engine or electric motor. It is often considered a continuous system since it features a haul rope which continuously moves and circulates around two terminal stations. In contrast, an aerial tramway operates solely with fixed grips and simply shuttles back and forth between two end terminals.

<span class="mw-page-title-main">Chairlift</span> Type of aerial lift

An elevated passenger ropeway, or chairlift, is a type of aerial lift, which consists of a continuously circulating steel wire rope loop strung between two end terminals and usually over intermediate towers, carrying a series of chairs. They are the primary on-hill transport at most ski areas, but are also found at amusement parks and various tourist attractions.

<span class="mw-page-title-main">Aerial lift</span> Method of cable transport

An aerial lift, also known as a cable car or ropeway, is a means of cable transport in which cabins, cars, gondolas, or open chairs are hauled above the ground by means of one or more cables. Aerial lift systems are frequently employed in a mountainous territory where roads are relatively difficult to build and use, and have seen extensive use in mining. Aerial lift systems are relatively easy to move and have been used to cross rivers and ravines. In more recent times, the cost-effectiveness and flexibility of aerial lifts have seen an increase of gondola lift being integrated into urban public transport systems.

<span class="mw-page-title-main">Singapore Cable Car</span> Gondola link near Sentosa, Singapore

The Singapore Cable Car is a gondola lift in Singapore, providing an aerial link from Mount Faber on Singapore Island to the resort island of Sentosa across the Keppel Harbour.

<span class="mw-page-title-main">Material ropeway</span>

A material ropeway, ropeway conveyor is a subtype of gondola lift, from which containers for goods rather than passenger cars are suspended.

<span class="mw-page-title-main">Seilbahn Zugspitze</span>

The Seilbahn Zugspitze is an aerial tramway running from the Eibsee Lake to the top of Zugspitze in Bavaria, Germany. It currently holds the world record for the longest freespan in a cable car at 3,213 metres (10,541 ft) as well as the tallest lattice steel aerial tramway support tower in the world at 127 metres (417 ft). Construction of the system began in 2015 and it opened on 22 December 2017.

<span class="mw-page-title-main">Aerial lift pylon</span> Type of supporting structure

An aerial lift pylon is a pylon construction bearing the cables of an aerial lift such as an aerial tramway or gondola lift. Large pylons of aerial tramways usually consist of a steel framework construction, smaller pylons of gondola lifts are made of tubular steel. Early aerial tramways often had pylons of reinforced concrete and ropeway conveyors had timber pylons, if they were cheaper than steel pylons.

<span class="mw-page-title-main">Norsjö ropeway</span> Aerial tramway in Sweden

Norsjö aerial tramway is a 13.2 kilometre long aerial tramway between Örträsk and Mensträsk in the Norsjö Municipality in Sweden.

<span class="mw-page-title-main">Cologne Cable Car</span> Gondola lift in Cologne, Germany

The Cologne Cable Car is a gondola lift that runs across the river Rhine in Cologne, Germany. It connects the two banks of the Rhine at the height of Cologne's Zoo Bridge (Zoobrücke).

<span class="mw-page-title-main">Schauinslandbahn</span>

The Schauinslandbahn is a gondola lift in the Black Forest area of Baden-Württemberg, Germany. It links a lower station in the municipality of Horben, near the city of Freiburg im Breisgau, with an upper station near the summit of the Schauinsland mountain. The line is operated by VAG Freiburg, the city transport operator for Freiburg. The same company operates that city's tram and bus network, including bus route 21 that links the lower station of the Schauinslandbahn to the terminus of tram route 2 at Günterstal.

<span class="mw-page-title-main">Tricable gondola lift</span> Cable car system introduced in 1991

The tricable gondola lift, also known as the 3S gondola lift, is a cable car system that was developed by the Swiss company Von Roll transport systems in Thun to unite the benefits of a gondola lift with those of a reversible cable car system. '3S' is an abbreviation of the German word dreiseil, meaning 'tricable'.

<span class="mw-page-title-main">Peak 2 Peak Gondola</span> Doppelmayr ski lift connecting two ski resorts in British Columbia, Canada

The Peak 2 Peak Gondola is a tricable gondola lift at Whistler Blackcomb Resort in Whistler, British Columbia, linking Whistler Mountain's Roundhouse Lodge with Blackcomb Mountain's Rendezvous Lodge. It is the first lift to join the two side-by-side mountains. It held the world record for the longest free span between ropeway towers at 3.03 kilometres until 2017 when the Eibsee Cable Car exceeded it by 189 metres. It is still the highest point above the ground in a gondola at 436 metres, although a temporary aerial tramway in Switzerland used between 1979 and 1986 had larger span. The gondola was built by the Doppelmayr Garaventa Group in 2007 and 2008 at a cost of CDN$51 million. The Gondola is the first Doppelmayr "3S" tri-cable lift in North America; there are four similar but smaller lifts in Europe which were built in 1991, 1994, 2002, 2004 and 2010 in Switzerland, Austria, France and Germany. Whistler Blackcomb has touted the gondola as an iconic attraction and uses it to transport skiers in the winter months as well as sightseers year round.

<span class="mw-page-title-main">Port Vell Aerial Tramway</span>

The Port Vell Aerial Tramway is an aerial tramway in Barcelona, Catalonia, Spain. It crosses Port Vell, Barcelona's old harbour, connecting the Montjuïc hill with the seaside suburb of Barceloneta.

<span class="mw-page-title-main">Eyüp Gondola</span>

The Eyüp Gondola, a.k.a. Eyüp–Piyerloti Aerial Cable Car, is a two-station gondola-type line of aerial lift passenger transport system located in Eyüp district of Istanbul, Turkey. Opened on November 30, 2005, the 420 m (1,380 ft) long line serves the Piyerloti Hill from Eyüp at the coast of Golden Horn. It is operated under the line number TF2 by Metro Istanbul. The fare is paid by the contactless smart card Istanbulkart, which is valid for all public transport in Istanbul.

<span class="mw-page-title-main">Awana Skyway</span> Aerial lift in Pahang, Malaysia

The Awana Skyway, also referred to as the new Awana Skyway, is a gondola lift system connecting Awana Transport Hub, Chin Swee Temple and SkyAvenue in Genting Highlands, Pahang, Malaysia since December 2016. The Awana Transport Hub terminus consists of the new Awana Bus Terminal, the station building and a new 8-storey car park while the other terminus is located at SkyAvenue.

<span class="mw-page-title-main">Stresa–Mottarone cable car crash</span> 2021 cable car disaster in Piedmont, Italy

On 23 May 2021, an aerial tram on the Stresa–Alpino–Mottarone Cable Car crashed to the ground after a traction or haulage cable snapped about five metres (16 ft) from the summit of Mottarone, a mountain near Lake Maggiore in northern Italy. Normally, a hydraulic safety brake would have stopped the runaway car immediately but the cable car was operating illegally with the brake disabled. The crash killed fourteen passengers in the cable car, and seriously injured one child.

References

  1. "Tbilisi Ropeways". Civil Georgia. 25 June 2012. Retrieved 29 November 2021.
  2. Taylor, Alan. "Stalin's Rope Roads". The Atlantic. Retrieved 2 May 2017.
  3. 1 2 "Cable car break kills 20 at Soviet Union tourist site". Wilmington Morning Star. June 2, 1990. Retrieved 2 May 2017.
  4. "Soviet Tram Falls". San Jose Mercury News. June 2, 1990. Retrieved 2 May 2017.
  5. "Why Tbilisi's last Soviet-era ropeway can't get off the ground again". Investor Georgia. 22 April 2021. Retrieved 29 November 2021.
  6. "Cable Car Comeback: Tbilisi To Restore 'Ropeway' 30 Years After Deadly Accident". Radio Free Europe/Radio Liberty. 24 October 2021. Retrieved 29 November 2021.
This page is based on this Wikipedia article
Text is available under the CC BY-SA 4.0 license; additional terms may apply.
Images, videos and audio are available under their respective licenses.