2012 Stuttgart Derailments
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During 2012, three trains derailed at Stuttgart Hauptbahnhof,
Germany Germany,, officially the Federal Republic of Germany, is a country in Central Europe. It is the second most populous country in Europe after Russia, and the most populous member state of the European Union. Germany is situated betwe ...
, all nearly at the same place and for nearly the same reasons. Nobody was injured during the first derailment on 24 July. The second accident on 29 September caused injuries, high material damages and a major train service disruption. The third accident on 9 October happened when an empty train was used for tests during the investigation.


Background

Stuttgart Hbf is a terminus railway station, except for
S-Bahn The S-Bahn is the name of hybrid urban-suburban rail systems serving a metropolitan region in German-speaking countries. Some of the larger S-Bahn systems provide service similar to rapid transit systems, while smaller ones often resemble c ...
(commuter rail) trains and underground trams. It is to be replaced by an underground through station, called '' Stuttgart 21'', a much-debated project that is already under construction. To make room for the construction site, the platforms had to be moved away from the current station building. This required the points area to be moved to confined space, too. Construction activity and infrastructure changes are still happening. All the trains mentioned here were
push–pull train Push–pull is a configuration for locomotive-hauled trains, allowing them to be driven from either end of the train, whether having a locomotive at each end or not. A push–pull train has a locomotive at one end of the train, connected via ...
s and consisted of eleven passenger cars (including one control car) and a trailing, pushing
electric locomotive An electric locomotive is a locomotive powered by electricity from overhead lines, a third rail or on-board energy storage such as a battery or a supercapacitor. Locomotives with on-board fuelled prime movers, such as diesel engines or g ...
. All vehicles with German traditional coupling must pass force (here: ''
tractive effort As used in mechanical engineering, the term tractive force can either refer to the total traction a vehicle exerts on a surface, or the amount of the total traction that is parallel to the direction of motion. In railway engineering, the term t ...
'') either by the
coupling A coupling is a device used to connect two shafts together at their ends for the purpose of transmitting power. The primary purpose of couplings is to join two pieces of rotating equipment while permitting some degree of misalignment or end mov ...
(pulling force) or the buffers (pushing force). A pushing engine must not exceed certain force levels (that depend on points, curves, train length, mass and vehicle types), or the train may be distorted, e.g. pushed outwards in a curve. In extreme cases as these, derailment may happen.


Derailments


First

On 24 July 2012, IC 2312 departed from track 10. It consisted of one leading ''Steuerwagen'' (
Control car A control car, cab car (North America), control trailer, or driving trailer (UK and Ireland) is a non-powered rail vehicle from which a train can be operated. As dedicated vehicles or regular passenger cars, they have one or two driver compartm ...
), nine more passenger cars, a dining car (last car) and a trailing
DB Class 101 The DB Class 101 is a class of three-phase electric locomotives built by Adtranz and operated by DB Fernverkehr in Germany. 145 locomotives were built between 1996 and 1999 to replace the 30-year-old and aging DB Class 103, Class 103 as the fla ...
electric locomotive to push the train. The engine and the two cars next to it derailed. Construction work to rectify distortions on the tracks was about to begin after the train's departure. The 40 km/h speed restriction, as commanded by signal aspect '' Hp 2'', was respected, 29 km/h were reached. In addition to findings that affected all trains (see below), the driver has been blamed for accelerating the train too fast, so the force applied throughout the sequence of buffers was too large (191 kN instead of the 150 kN limit). Nobody was injured. The damage was determined as €370,000. Three tracks of the station had to be closed.


Second

On 29 September 2012, IC 2312 departed from track 10 (same as above). It consisted of one leading control car, seven more passenger cars, one dining car, two other passenger cars and a trailing DB Class 101 engine. The speed limit of 40 km/h (on signal Hp 2) was fully utilized. The engine and the three adjacent cars derailed. The train took down two catenary support masts, thus tearing down part of the catenary, which had then to be switched off. The tracks also had to be closed for the rescue to begin, and both actions separated the entire station from the network for hours. Several tracks were reopened on the same day, allowing to return to service, but many long distance trains had to bypass the station on this day. Eight persons received minor injuries. The damage was determined as €6,482,000.


Third

On 9 October 2012, three test runs were initiated in addition to software-based simulations to support the investigation, and indeed, the last try reproduced the derailments. The train resembled the one of the second accident in type and sequence. The last three cars (those in front of the engine) derailed. The tests were meant to prove that track 10 and the following points were safe to be used, but the opposite happened. Again, long distance trains had to be rerouted.


Aftermath

The accidents' immediate cause was determined: The exceptional length of the type of dining car used and the position of its bogies resulted in a greater horizontal buffer misalignment than the other car types. It lacked buffers that were broad enough to handle this offset, so buffers slipped past each other and jammed, preventing the required lateral movement. The report recommended reviewing the buffers used and replacing them if necessary. The track layout was shown to have some deficiencies regarding the sequence of curves, specifically straight elements inside S-curves. The combination of track elements within a small area had taken them to the allowable limits, increasing wear and reducing stability. The report discussed different layouts. Also, track distortions and wear had been found before the first accident, but had not been rectified, or had not been recognized due to errors.


References

{{DEFAULTSORT:Stuttgart Derailments Railway accidents in 2012 Derailments in Germany 2012 in Germany Rail transport in Stuttgart Accidents and incidents involving Deutsche Bahn Lists of railway accidents and incidents in Germany Railway accidents and incidents in Germany