Zürich Selnau railway station under the River Sihl

Posted on December 7, 2023 by Marcus Wong

I’ve written about a few different railway stations located under mountains, but this is something new – one located under a river!

Bahnhof Zürich Selnau.jpg

Photo by Allie_Caulfield, via Wikimedia Commons

The station is Zürich Selnau on the Zürich S-Bahn system in Switzerland, and has an underground platform located beneath the River Sihl.

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Photo by NAC, via Wikimedia Commons

With the station entrance emerging from the middle of the water.

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Photo by Bobo11, via Wikimedia Commons

Some history

The original Bahnhof Selnau was the above-ground terminal station for the Sihltalbahn, made up of the Uetliberg line which opened in 1875, and the Sihltal line which opened in 1892.


Photo via Ortsmuseum Wiedikon

However the terminus lacked a direct connection to the city’s main station of Zürich Hauptbahnhof, and the private railway operator could not afford to acquire a surface route or build an underground connection, and so the two railways were left disconnected.


Photo via Ortsmuseum Wiedikon

The construction of a U-Bahn system in Zurich was seen as a way to fix this, but after the project was voted down in 1973, the Zurich City Planning Office began studying options to extend the Sihltalbahn to form part of an expanded S-Bahn system.

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Photo by Spoorjan, via Wikimedia Commons

And in 1983 a decision was finally made – an underground extension along the River Stil, reusing an unused underground platform already built at Zürich Hauptbahnhof for the rejected U-Bahn scheme.


Photo from Swiss Engineer and Architect No. 18, May 2, 1991


Photo from Swiss Engineer and Architect No. 18, May 2, 1991

Swiss Engineer and Architect No. 18 describing the selected route:

The extension of the SZU
The long-awaited connection Selnau-Hauptbahnhof
By R. Theo Balz

Overview of the new line:

The new route begins on the western side edge of the former and now disused Zurich-Selnau train station. In a covered steep ramp the route reaches a 5% incline to the level of the new Selnau station under the Sihl bed between the Stauffacher and Sihl bridges.

The double track railway line continues underneath the Sihlbett on the right edge of the river to the Gessner Bridge and leads then over a tight curve in two single-lane tubes under the pedestrian level of Zurich Hauptbahnhof. The new route is a total of 1592 meters.

The Selnau underground station replaced the previous Selnau terminus. The central platform is accessible from the Stauffacher and Sihl bridges.

Concerns about drainage:

Sihl floods as well as the urban planning aspects had to guide this solution.

Based on model tests on the Research Institute for Hydraulic Engineering, Hydrology and Glaciology from ETH Zurich, it could be proven that a staircase 5.35 m wide through the drainage profile of the Sihl directly onto the Sihlbrücke is possible without significantly hindering the flood flow.

Work started in March 1986, and by 1987 work on the new underground railway was well underway.


Photo from Swiss Engineer and Architect No. 18, May 2, 1991

Sheet pile walls separated the excavation pit from the rest of the river during construction. To reduce the cost of construction, it was decided that these walls would not be unnecessarily high, but that the construction site would be allowed to floor if the river rose – a scenario which happened once during the project, without causing any major damage.

Other innovate design features included the use of ballastless track laid on on spring-loaded concrete slabs to minimise noise and vibration transmission to nearby buildings; and low-maintenance solid conductor bars for the supply of overhead power to trains.

On 4 May 1990 original terminus at Selnau was closed, when the new rail extension and station under the River Stil was opened, which now form lines S4 and S10 of the Zürich S-Bahn.

Today the site of the original terminus at Selnau is a housing estate, with the original station building built in 1892 having been demolished.

ETH-BIB-Zürich, Baustelle Börse, Erweiterung SZU bei Bahnhof Selnau, Alter Botanischer Garten Com FC24-8000-0865 (cropped).jpg

Photo by Jules Vogt, via Wikimedia Commons

Footnote: a literal ‘underground’ music festival

By the autumn of 1988 the concrete shell of the new Selnau station had been completed, and so it was used as the venue for a two day folk festival.


Swiss Social Archives photo F 5107-Na-31-109-005

Temporary stairs proving access to the platform.


Swiss Social Archives photo F 5107-Na-31-108-031

Where a beer hall had been set up.


Swiss Social Archives photo F 5107-Na-31-108-011

Sources

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Underground trams in Vienna

Posted on November 2, 2023 by Marcus Wong

Like many cities the Austrian capital of Vienna has both a Straßenbahn (tram) system alongside their underground U-Bahn rail system, but it also has something in between – the untergrundstrassenbahn or “underground tramways”.

E2 tram 4047 and trailer arrives into the underground tram stop

Under the beltway

The first section of Vienna’s underground tramways is located under the southern beltway – Wiener Gürtel Straße. The 3.4 kilometer long tunnel opened in 1969, and has six underground stations used by four tram lines and the Wiener Lokalbahn service.

Wiener Lokalbahnen GT8 tram 118 heads for Wien Oper station

There are also two underground at-grade junctions.

E2 tram 4059 and trailer passes through the junction at Matzleinsdorfer Platz

A full triangular junction at Matzleinsdorfer Platz, and a branching junction at Kliebergasse.

USTRAB Wien.png

Photo by User:My Friend, via Wikimedia Commons

Converted to U-Bahn

In 1966 the tramway along Zweierlinie between between the Secession Building and Landesgerichtsstrasse north of Friedrich-Schmidt-Platz was relocated into a 1.8 km long tunnel with four underground stations.

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Photo by TARS631, via Wikimedia Commons

It it then decided to incorporate this tunnel into U-Bahn line U2, with the conversion completed over two months in 1980. The most visible change was the raising of the platforms.

Staggered platforms at Volkstheatre station on line U2

To allow metro trains to use the stations.

Staggered platforms at Rathaus station on line U2

And underground tram stops

At Schottentor is the ‘Jonas- Reindl’ – a two level tramway terminus loop, with above and below ground tram tracks.

Schottentorpassage und Schleife Schottentor, sog. Jonasreindl (94171) IMG 1394.jpg

Photo by Tokfo, via Wikimedia Commons

And Erzherzog-Karl-Straße railway station is located atop an underground tram stop.

Wien Erzherzog-Karl-Straße.JPG

Photo by NÖLB Mh, via Wikimedia Commons

Footnote: signalling

Rather than driving on sight like a conventional tramway, block signals have been installed in the tunnels.

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Photo by Linie29, via Wikimedia Commons

Germany-language Wikipedia explaining how the lineside signals work:

Fluorescent tubes are installed every 20 meters on each side, offset from one another. These help drivers estimate distances as there is a light every ten meters.

Block signals are used with two green and two yellow light points arranged one below the other using light-emitting diodes, which show the driver the status of the next two track sections. Shortly before the stations, the distance between the individual signals is smaller to enable faster entry into the station.

The track vacancy notification is carried out by track circuits. If the following two sections are clear, two green lanterns light up and the driver is allowed to drive at the local maximum speed. If the first section is free and the following section is occupied, a green and a yellow light point will light up and the speed must be reduced to 30 km/h. However, if the first section is occupied, both yellow lamps light up, regardless of the status of the section after that. This means that you can continue driving at 15 km/h.

As well as the junction signals.

An expanded system is used at the Matzleinsdorfer Platz and Kliebergasse junctions. As soon as a train enters the station, the desired direction is sent to the system; as confirmation, a white arrow appears in the corresponding direction on the stop signal. Now it is automatically checked whether the track sections to be traveled on are free. If this is the case, the switches are changed and secured if necessary, then the signal goes into the driving position and the driver is allowed to continue driving.

Sources

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Car vs steam train on the streets of Germany

Posted on October 5, 2023 by Marcus Wong

The other day on Twitter I found a video of an odd scene – a steam train driving along a narrow street, then crashing into a Mercedes Benz after the driver decided to pull out from the curb.

After a bit of digging around I found the the video was originally posted over at /r/IdiotsInCars on Reddit, who supplied an article to this (paywalled) article in the German newspaper Ostsee-Zeitung.


Ostsee-Zeitun photo

The photo was taken in Bad Doberan, a city in northern Germany, and the railway in question is the Molli Bahn – a 900 mm gauge steam railway.

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Photo by Torsten Maue from Magdeburg, Deutschland, via Wikimedia Commons

Which runs through the middle of Bad Doberan.

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Photo by Torsten Maue from Magdeburg, Deutschland, via Wikimedia Commons

The railway stretching 15.4 km from Bad Doberan to Heiligendamm and Kühlungsborn West, with a running time of 40 minutes

Karte-Baederbahn-Molli.png

Photo by Muns based on OpenStreetMap contributors, via Wikimedia Commons

The history of the railway can be found over at Wikipedia:

On 19 June 1886, Frederick Francis III, Grand Duke of Mecklenburg granted a licence for the construction and operation of a narrow gauge railway from Doberan station to Heiligendamm, this first section going into operation on 9 July 1886. Services on the 6.61-kilometre (4.11 mi)-long route, which was worked by a steam tram and later classified as a light railway or Kleinbahn, initially only ran during the summer season from 1 May to 30 September.

On 18 December 1908, it was decided to extend the line as far as the Baltic seaside resort of Arendsee, which was merged in 1938 with the neighbouring communities of Brunshaupten and Fulgen to form the Baltic Sea resort of Kühlungsborn (Ostseebad Kühlungsborn). This extension was opened on 12 May 1910, in the same year, goods services were started; and trains now ran all year round.

The transhipment of goods from the Wismar–Rostock standard gauge line to the narrow gauge railway proved to be costly and unprofitable. The carriage of standard gauge wagons on narrow gauge transporter wagons as was common, for example, on the Saxon narrow gauge railways, was ruled out from the outset because of the narrow urban section through Bad Doberan. Thus, on 31 May 1969, goods services were withdrawn.

The route was worked daily by 13 pairs of trains. In 1976, the then district of Rostock added the train to the district’s list of heritage monuments. On 1 October 1995, an operating company, consisting of Bad Doberan district and the towns of Kühlungsborn and Bad Doberan, took over the line from the Deutsche Bahn.

Today the public-private company, operating under the name of Mecklenburgische Bäderbahn Molli (Mecklenburg Seaside Resort Railway Molli) is based in Bad Doberan. The terminus of Kühlungsborn West is home to the Molli Museum and the depot.

Footnote: more crashes

It appears Germany has quite the supply of stupid motorists, if this article from Ostsee-Zeitung is anything to go by.


Ostsee-Zeitung photo

Further viewing

A video by @TheTimTraveller on YouTube on the Molli Bahn.

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ÖBB switching from left to right hand running across Austria

Posted on September 7, 2023 by Marcus Wong

Trains switching between left and right hand running has been a theme on this blog for some time, and here is one example I’d missed – Austria.

ÖBB Class 1116 'EuroSprinter' electric locomotive 1116 029 on a short freight train in Vienna

When I visited Austria I only found trains running on the right hand side, but thanks to German-language Wikipedia I’ve learnt that some lines run some trains on the left.

During the Danube monarchy there was quite a bit of confusion regarding the driving regulations as a result of construction by different companies each having their own driving regulations. In the course of the annexation to the German Reich in 1938, the right-hand traffic regulations were introduced in Austria, but this project got stuck in the Second World War.

After the war, the Federal Railways in Vienna and Villach drove on the left, and in the Federal Railways in Linz and Innsbruck they drove on the right, which meant that Westbahn trains stopped at Amstetten station changed from driving on the left to driving on the right. Since in Tyrol there was also left-hand operation between Wörgl and Brenner for historical reasons, all trains in Wörgl main station and the Arlberg trains in Innsbruck main station had to change the regular track. In the meantime, regular operation on the left only existed between Innsbruck and Brenner. In 1993 the Wörgl – Brenner route was converted to right-hand traffic.

But a big switch to right hand running occurred in 2012 with the opening of Wien Hauptbahnhof.

Trains in Wien Hauptbahnhof, 2019 (02).jpg

Photo by Bahnfrend, via Wikimedia Commons

German-language newspaper ‘Die Presse’ describing the changeover.

ÖBB are switching to right-hand traffic in the east
August 6, 2012
Klemens Patek

The opening of Wien Hauptbahnhof casts its shadow: today the southern, northern and S-Bahn lines are switching to right-hand traffic. The trains will then arrive on different platforms than before.

Anyone expecting the usual North, South and S-Bahn trains at the usual platform from August 6 will miss it. Because this Monday, the railway lines mentioned will be switched from left-hand traffic to right-hand traffic. The trains thus depart from a different track, mostly from the previously different direction track.

The reason for the change is the new Vienna Central Station and the Lainzer Tunnel. Because this connection of the right-hand Western and Eastern Railway and the left-hand Southern and Northern Railway would have lost track capacity. Trains would have to cross tracks before entering the station, which would make handling the trains more difficult. If everything drives on the right, the ÖBB can create practical transfer options on the same platform and save track capacity. ÖBB emphasizes that if the trains were only partially driven on the right as before, the main station would lose around 30 percent of its capacity.

Specifically, the following routes will be converted to right-hand traffic:

– Nordbahn from Vienna Floridsdorf to Bernhardsthal
– S7 ( Airport Expressway ) from Vienna Rennweg to Vienna Schwechat Airport
– Pottendorf Line from Wampersdorf to Wr. New town Civitas Nova
– Southern Railway from Vienna Central Station to Payerbach Reichenau
– Connecting railway from Vienna Hütteldorf to Vienna Meidling
– S-Bahn trunk line from Vienna Meidling to Vienna Floridsdorf
– Northwest Railway from Vienna Floridsdorf to Stockerau
– Laaer Ostbahn from Vienna Süßenbrunn to Wolkersdorf

Detailing criticism of the change.

According to ÖBB, the costs for the change amount to a total of around 16 million euros. Of this, 13.2 million euros go to laying new tracks (“overtaking tracks”) in the Brunn-Maria Enzersdorf and Baden train stations. A measure “that would definitely have come about,” explains Ofner. The immediate renovations to the platforms, such as new waiting bunks and signage, will cost 2.7 million euros.

Ofner rejects criticism of the change: “It would have cost a lot more if we hadn’t made the change.” A three-digit million sum would have been due for conversions to overpass structures. These would make it possible to change lanes through bridges or underpasses without trains having to cross a track.

Critics like to refer to a report from the consulting firm Basler+Partner commissioned by ÖBB. The study came to the conclusion in December 2008 that the negative effects of maintaining the current driving regulations would be “less in scope and number than if there were uniform right-hand traffic,” as the experts wrote (Die Presse reported ). The experts therefore recommended “maintaining the driving regulations as they are today”.

However, this study is being misinterpreted, says ÖBB spokesman Ofner, it was “not made for the future”. The planning assumes that far more trains would use the route near the main station in the future than was taken into account at the time, Ofner points out possible route conflicts at Vienna Central Station.

They also sections of route that had previously switched sides.

For the most part, traffic has been switched to right-hand traffic as part of necessary modernization work, such as renovations or new construction projects. This was last the case in 1991, when the section between Wien Westbahnhof and Amstetten was switched to driving on the right.

And sections of left hand running still in place in Austria.

Three sections will continue to operate in left-hand traffic after August 6:

– Vienna Central Station – Stadlau – Süßenbrunn (conversion to right-hand traffic is planned for 2015)
– Franz-Josefs-Bahn (according to ÖBB, a change is still uncertain at the moment)
– Southern Railway from Payerbach-Reichenau via Bruck an der Mur and Graz to Maribor. In Payerbach-Reichenau, the Southern Railway trains continue to have to change tracks.

With Wikipedia picking up on progress since.

On December 13, 2015, the Vienna Central Station – Vienna Süßenbrunn section was converted to right-hand traffic.

The southern railway section between Payerbach-Reichenau and Bruck an der Mur followed on December 15, 2019.

Thus, regular operation on the left track currently only exists on the Vienna Franz-Josefs-Bahnhof – Absdorf-Hippersdorf and Bruck an der Mur – Werndorf routes.

Leaving one last route to capture ÖBB trains running on the left hand track.

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Photo by Yugoserbian Mapper, via Wikimedia Commons

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Caissons and underground vestibules on the Kyiv Metro

Posted on August 3, 2023 by Marcus Wong

I’ve written about Arsenalna (Ukrainian: Арсенальна) station on the Kyiv Metro in Ukraine before – at 105.5 metres below ground, it takes two flights of escalators to reach the surface, passing through an underground vestibule at the halfway point. But how did they build such an elaborate chamber so deep underground?

Five minutes after leaving the train, we're finally at the surface!

The two escalator tunnels are 55.8 metres and 46.6 metres long respectively.

Looking up a ~50 metre long flight of escalators

And meet at the intermediate vestibule 22.6 metres in diameter and 18.7 metres tall.

What do you mean: another set of escalators to reach the surface?

Due to local ground conditions, it was decided to build the concrete vestibule on the surface.


Photo via Олег Тоцкий

And then lower it to the design depth.


Photo via Олег Тоцкий

By slowly excavating the ground beneath it, and letting it sink down.


Photo via Олег Тоцкий

Олег Тоцкий describing the process:

Due to difficult hydrogeological conditions, about 400 wells (1) were drilled along the vestibule contour before starting work, and soil was frozen through them.

The intermediate vestibule (2) was built of monolithic reinforced concrete and had a bell-shaped shape without a bottom. The lower edge of the “bell” was made in the form of a knife, which, under the weight of the vestibule, crashed into the ground as it was pulled out. Thus, the vestibule, under its own weight, fell down as the soil underneath was excavated.

Almost the entire area of ​​the soil was developed by an excavator (3), and only along the edges of the “bell” under the knives, the soil was removed manually.

With the help of a bucket (4), through a pit (5) previously passed through the center of the vestibule, the soil fell down, where through the transport adit (6) with the help of a belt conveyor (7) it was fed to the skip hoist (8) and then went up through the shaft.

As the vestibule descended, the space above the dome was covered with soil, and due to the increase in external pressure on the dome, the rate of lowering of the vestibule also increased.

Less than 4 months after the start of the descent, the vestibule reached the design depth (9) and rested with knives against the pre-cast foundation concrete ring (10).

After that, the bottom of the vestibule was concreted and the construction of the lower inclined passage began.

Because freezing was also used for its construction; guides for freezing wells were pre-laid in the body of the intermediate vestibule.

After lowering the vestibule, a drilling rig was dragged inside, with which wells were drilled along the lower slope, then a freezing was carried out and a lower slope was built from the intermediate vestibule.

In the diagram, we also see the adjoining of the upper inclined passage (11) to the intermediate vestibule.

I’ve seen caissons used to excavate bridge piers underwater, but using them for underground structures is ingenious!

Footnote:Zoloti Vorota station

Zoloti Vorota station also has an underground vestibule.

Станція метро DSC 4463.jpg

Photo by SergKh78, via Wikimedia Commons

And was built in a similar way:

Since its entrance is located on a hillside, two separate escalator tunnels had to be created, connected by an underground station vestibule. The upper tunnel is 35 m (115 ft) long, while the lower tunnel is 56 m (184 ft) long.

The vestibule was first completed at ground level, and then lowered to its final location underground. The vestibule is a 20 m (66 ft) tall monolithic dome with an approximately similar diameter.

The installation began in November 1987 and was completed by 1988, lowered at a pace of half a meter a day. Since the construction took place in water-saturated soils, over 200 frozen wells had to be formed so it could be lowered to its proper location. In addition, over 250 m2 (300 sq yd) of rock had to be removed to make way for the vestibule. After it was finally installed, construction work began on the lower escalator tunnel.

Further reading

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Turning trains on the Wuppertal Schwebebahn

Posted on July 6, 2023 by Marcus Wong

The Wuppertaler Schwebebahn is a suspension railway in the German city of Wuppertal, where trains hang from a single rail built underneath a supporting steel frame. But how do the trains turn around at the end of the line?

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Photo by Max Grobecker, via Wikimedia Commons

Oberbarmen

The first reversing loop is found at Oberbarmen – eastern terminus of the 13.3 km long track, and also a small depot facility.

WSW GTW 72 22, Oberbarmen, 2016 (06).jpg

Photo by Bahnfrend, via Wikimedia Commons

The reversing loop is located beyond the station platforms.

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Photo by © Ra Boe / Wikipedia, via Wikimedia Commons

Where trains pass through the depot building.

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Photo by Atamari, via Wikimedia Commons

And a second reversing loop is located beyond the stabling tracks.


Open Street Map

Vohwinkel

The next reversing loop is found at the western terminus of Vohwinkel, and home of the main workshops and depot.

Wuppertal-090619-8529-Vohwinkel-Endstelle-Schwebebahn.jpg

Photo by Mbdortmund, via Wikimedia Commons

The station has a reversing loop beyond the station platforms.

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Photo by Atamari, via Wikimedia Commons

Allowing trains to go back the way they came.

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Photo by Roehrensee, via Wikimedia Commons

And beyond is the depot.

Dia von Wuppertal, Wagenhalle an der Schwebebahnendstation Vohwinkel.jpg

Photo by Im Fokus, via Wikimedia Commons

Where trains are parked.

Wuppertal Schwebebahn depot.jpg

Photo by Benste, via Wikimedia Commons

Inside is a second reversing loop.

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Photo by Alan Murray-Rust, via Wikimedia Commons

Bringing the total to four.


Open Street Map

A set of points can be used to send trains into the depot.

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Photo by Atamari, via Wikimedia Commons

Sliding from the diverge to the straight route.

And a sliding piece of track leads into the depot tracks.

Wuppertal Samuel fährt Schwebebahn 040.JPG

Photo by Atamari, via Wikimedia Commons

Directing trains into an empty track.

And then moving back to the diverge route so trains are sent around the reversing loop.

And a former reversing loop – Kluse

The first 4.59 kilometre long stage of the Wuppertaler Schwebebahn opened in March 1901, between Kluse in the east and and Zoological Garden in the west in March 1901, with the line extended 2.97 kilometers west to Vohwinkel in May 1901, and 5.74 kilometers east to Oberbarmen in June 1903.

Image via Wikipedia

The intermediate terminus of Kluse was provided with a reversing loop, which was used between 1901 and 1903.


Photo via die-schwebebahn.de

Following the extension of the line east the loop became superfluous, but it remained in place until after World War II, when it was demolished along with the damaged Kluse station.


Photo via die-schwebebahn.de

Zoo/Stadion

The intermediate terminus of Zoo/Stadion was also provided with a reversing loop. The tracks passed beneath the mainline route, with a gradient so steep that only single carriage trains could operate along it.

Image via Wikipedia

The loop remained in place until 1945, when it was dismantled to provide spare parts for the rest of the system.

And a turntable!

In 1974 it was decided to provide a new reversing facility at Zoo/Stadion station, but this time something different was chosen – a turntable! A rotating track segment was provided beneath a circular support structure, along with a short siding for the stabling of trains.


Photo via die-schwebebahn.de

However operation of the turntable was time consuming, through trains delayed whenever it was in use, and trains needed to stop with centimetre precision before they could be turned. As a result, in 1992 the turntable was taken out of use, and the tracks later welded closed, with the support structure removed in 2002 as part of a track renewal program.

Footnote: rail noise and breakdowns

Turns out sending trains around sharp curves is quite noisy – from Solinger Tageblatt in 2014:

Good news for noise-sensitive suspension railway users and residents: According to Stadtwerke spokesman Holger Stephan, the hairpin bend in front of the Wagenhalle in Oberbarmen has now been upgraded to such an extent that the turning of the vehicles can hardly be heard. Accordingly, Wuppertal’s landmark is almost squeak-free at this point.

“The built-in lubrication system, but above all the water spray mist, does the job excellently,” assures Holger Stephan.

The Wuppertal public utility company has invested a good 15,000 euros in the new suspension railway noise protection in Oberbarmen alone: ​​A spray system covers the track at the hairpin bend with a combination of grease and water droplets, which prevents squeaking. For comparison: A total of 28 million euros went into the renewal of the wagon hall in Oberbarmen.

The spray system to suppress the squeaking noise is also to be installed in Vohwinkel, the turning point at the other end of the 13.3-kilometer route. Probably later this year, they say. However, there is no exact date yet.

The junctions at each depot can also breakdown – this 2011 piece from Westdeutsche Zeitung describes the troubles at Vohwinkel.

Without them, the landmark stands: The electronically controlled switch system at the terminus in Vohwinkel is still moody — and caused problems with the operation of the suspension railway again on Monday morning. In order to prevent the points from being blocked again, the Wuppertal public utility company replaced a sensor there on Tuesday night.

Small cause, big effect: The component of the system monitors the position of the so-called locking lever in the points. If this electronic sensor fails, the system is blocked and thus paralyzes the entire train operation at the interface of the suspension railway in Vohwinkel: The trains are routed via the switch to the workshop hall at the final stop or back on the track on a hairpin bend.

“If you like, the points system is the Achilles’ heel of the suspension railway,” explains operations manager Thomas Kaulfuss when asked by WZ. As reported, the opening of the new terminus in Vohwinkel in October 2007 also involved the installation of the electronic points system.

Since it was commissioned, there have always been technical problems there, most recently also related to the severe winter: when the temperatures were below zero, the WSW had to deal with a point motor that water had gotten into and frozen solid there. A blocked switch wagon also caused operational disruptions in winter.

In the meantime, the system had to be operated manually in order to prevent the train traffic from collapsing completely. This in turn brought the timetable out of sync, since the points cannot be set as quickly with a crank as with electronic means.

Kaulfuss emphasizes that basically every disruption is “annoying”. “But one mustn’t forget that the old switch also had its technical quirks.”

While there was initial talk of “teething troubles” in the system after commissioning, the switch system in Vohwinkel was technically overhauled again last summer.

The current problems were due to the sensor control, which was checked last Friday during troubleshooting and has now been replaced overnight. According to the WSW, the sensor costs a three-digit amount — and is part of the fixed spare parts inventory.

But those to the east at Oberbarmen have also caused problems – from 2015.

Train strikes, traffic jams, late buses — the people of Wuppertal accept all of this with enviable composure. But when the suspension railway isn’t running, the fun is over. Up to 80,000 passengers use the most famous means of transport in the world every day. It’s all the worse when it doesn’t float, but stands. That seems to have been the case more often in the past few days and weeks.

“We are in the situation that the suspension railway is now down every other day due to an operational disruption. This situation has existed for months now. Sometimes the suspension railway also fails several times a day,” a reader of our newspaper vented his anger yesterday. Others joined him, albeit a little more relaxed.

The Wuppertaler Stadtwerke (DSW) are the operators of the suspension railway. The WZ readers’ criticism comes as no surprise to the WSW. “We have problems in Oberbarmen,” explains company spokesman Holger Stephan. “The train stood from 11.05 a.m. to 11.40 a.m.”

Footnote: signalling

The current signalling system on the line dates to 1962 – with one control panel responsible for the bulk of the line, and a second for the depot at Vohwinkel.

Further reading

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Chapels on the tracks of Russia

Posted on June 1, 2023 by Marcus Wong

Russia is a massive country, which combined with a religious population has resulted in an odd sight – Вагон-храм – railway carriages converted into mobile chapels.

Church car in the name of St. Olga (construction of the Putilov factory)
Photo via Журнал «Всемирная иллюстрация»

Chapel of St. Olga (1896)

Construction of the first chapel carriage in the Russian Empire commenced in 1895:

The head of the educational department of the Ministry of Railways of the Russian Empire, Yevgeny Volkov, in a report to the head of the Ministry of Railways, Prince Mikhail Khilkov, wrote that a mobile church carriage would best suited to serve railway employees working in sparsely populated areas. According to him, moving from place to place and stopping at the places where railway employees lived, such a church could gather both railway employees and inhabitants from nearby villages on holidays and fasting days. As a result, it was decided to transfer such experience to the Siberian Railway.

Built to commemorate the birth of Grand Duchess Olga Nikolaevna, construction commenced at the Putilov factory on 14 November 1895, the day of her christening. The carriage was completed eight months later, and was consecrated on 11 July 1896 in New Peterhof, in the presence of Grand Duchesses Olga Alexandrovna and Olga Nikolaevna.

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Photo by Иван Робертович Томашкевич, via Wikimedia Commons

Chapel in honor of the icon of the Mother of God “Hodegetria”

Donated to the Russian Orthodox Church by workers from the Voitovich Moscow Carriage Repair Plant, the chapel consisted of two carriages – the first being the chapel; the second a refectory, a church library and two office compartments. The chapel was consecrated on 18 October 2000 at the Kievsky railway station in Moscow.

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Photo by Sok Os, via Wikimedia Commons

Chapel of St. Nicholas the Wonderworker

Part of a special missionary train operated by the charity group «За духовное возрождение России» (“Spiritual Revival of Russia”) along the West Siberian Railway, the chapel was consecrated on 10 August 2001 by Archbishop Tikhon of Novosibirsk and Berdsk.


Photo via Чановские вести

Chapel of St. Innocent

Operated by the Irkutsk diocese over the Eastern Siberian Railway, the chapel was consecrated in the name of St. Innocent of Irkutsk on 4 August 2005, to mark the 200th anniversary of finding the relics of this saint.


Photo via Журнал Московской Патриархии и Церковный вестник

Chapel of St. Olga (2009)

A second ‘Chapel of St. Olga’ carriage was consecrated on 2 October 2009 at the Krasnoyarsk railway station as part of the medical train “Saint Luke the Blessed Surgeon”. The carriage remained in service until December 2018, when it was retired to Kansk-Yeniseisky station of the Trans-Siberian Railway, where it is now a stationary church.

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Photo by Petr Adam Dohnálek, via Wikimedia Commons

Further reading

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Vladimir Putin’s private railway stations

Posted on May 4, 2023 by Marcus Wong

For heads of state around the world private aircraft are a common model transport. But for Russian president Vladimir Putin, he also has a private armoured train, and a network of private railway stations.


Photo by Mikhail Korotkov

The train

Putin’s armoured train was assembled in 2014-2015, but his usage of the train took off from August 2021, shortly before Russian troops commenced their ‘special operation’ into Ukraine.

Novo-Ogaryovo

Novo-Ogaryovo is the country home of the President of Russia, located 30 km west of the city of Moscow. Completed in the 1950s as the “state dacha”, it was officially recognised as a presidential residence in 2000, with Putin using it as a permanent workplace from 2012. In 2014 a private railway station was located 400 metres away from the residence, at the end of a short branch line from Usovo station.


Google Maps

The railway station is surrounded by a tall steel wall.


Google Maps

With gates preventing access into the compound.


Google Maps

Bocharov Ruchey

Bocharov Ruchey (Бочаров Ручей) is the summer residence of the President of Russia, located in the Black Sea resort of Sochi, completed in 1955. In 2017 a private railway station opened on a short siding off the main line.


Google Maps

Dolgiye Borody

Dolgiye Borody is a residence of the President of the Russia, located about 400 km north-west of Moscow. Construction started for Stalin in 1934, with the complex being expanded in the 1980s. A private railway siding was extended to the complex in 2019, ending at a railway station with helipad.


Google Maps

Footnote: Правительственный вокзал (Government Station)

Правительственный вокзал (Government Station) is a private railway platform located just north of Kalanchyovskaya station in Moscow. The station was built in 1974 for the use of trains transporting the leaders of the USSR.


Google Maps

Further reading

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Porta Alpina – a railway station beneath The Alps

Posted on April 6, 2023 by Marcus Wong

I’ve written about a number of railway stations located deep beneath mountain ranges before, and here is another one – Porta Alpina, which was to be located in the middle of the Gotthard Base Tunnel in Switzerland.

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Photo by KlausFoehl, via Wikimedia Commons

The proposal

Porta Alpina station would have served the Alpine village of Sedrun in Switzerland.

The location selected was the site of a ventilation shaft, located near a crossover between the northbound and southbound tunnels.

A platform would have been located on each track.

And access to the surface would be via a 800 metre deep lift shaft, connected to a 1 km long access tunnel.

The station was proposed as both a potential tourist attraction, and as a transport link to areas around Sedrun, with the Swiss parliament approved CHF 7.5M of startup funding in 2005.

However, further studies raised concerns about the feasibility of the elevators, the negative impact on rail capacity through the tunnel, and the cost of operating the station. The project was put on hold as uneconomical in 2007, and then indefinitely shelved in 2012.

And what got built

Never the less, the emergency platform, crossover and exhaust shaft at Sedrun was completed as part of the Gotthard Base Tunnel.

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Photo by Zacharie Grossen, via Wikimedia Commons

Along with emergency exits.

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Photo by Kecko, via Wikimedia Commons

Fire doors that weigh 700 kilograms – strong enough to resist a temperature of 200°C for 45 minutes.

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Photo by 80686, via Wikimedia Commons

And four caverns for future waiting rooms – each a 38 metres long, 10 metres wide and 5.5 metres tall.

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Photo by Kecko from Rural area, Eastern Switzerland, via Wikimedia Commons

The whole complex was opened to the public in 2016.


BZ Berner Zeitung photo

Who reached the station by special train.

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Photo by 80686, via Wikimedia Commons

Footnote: a visit to Porta Alpina station

A Wikipedian posted a trip report from the 2016 open day online.

After 17 years of construction, the Gotthard Base Tunnel was opened in 2016. An opportunity for our group to take a close look at the construction of the century. The SBB offered special trips with the special train “Gottardino” through the tunnel, stopping at the Sedrun emergency stop and an exhibition in the side tunnel.

On Sunday, November 20th, the three of us set out on a journey across Switzerland. Decorated with a white locomotive with the inscription “Gottardo 2016” we were welcomed as “pioneers”. The special trips are very popular, the train was fully booked even though it was a booster train that was used at short notice.

At 2:20 p.m. we left Flüelen in the direction of the Gotthard base tunnel. On the way there was information about the tunnel and the operating concept. The express trains are accelerated to 200 km/h on the route near Rynächt. At Altdorf, freight trains are stopped before entering the tunnel and collected while passenger trains pass. Up to three freight trains then enter the tunnel behind a passenger train. The tunnel is approved for a speed of up to 249 km/h, passenger trains are to run at 200 km/h and freight trains at up to 160 km/h.

After just a few minutes we reached the Sedrun emergency stop at km 21, where the train stopped and we got off shortly afterwards and were able to look around the tunnel system for 45 minutes. An exhibition was prepared, there was a video presentation of the construction and opening of the tunnel, a lot of information and a stamp in the “pioneer pass” that the SBB had issued to the passengers.

The temperature in the mountain was around 32 °C. Due to the natural draft, the air was pleasantly dry. An employee told us that during construction the temperatures were higher and, due to the reduced ventilation and water leakage, the humidity was very high, so that the climate was uncomfortably humid and warm. If the natural ventilation provided by the chimney effect and the piston effect of the flues is not sufficient, fresh air can be blown in through the access tunnels in Sedrun and Faido. Exhaust air ducts were installed in the tunnel ceiling above the driving tubes in the area of ​​the emergency stops, another tunnel system with a diameter of several meters. In an emergency, smoke can be extracted from the driving tube via this exhaust air tunnel.

In the event of an accident in the tunnel, both tunnel tubes will be closed. An evacuation train is provided in the “healthy tube” into which passengers can change through cross passages between the tubes. In addition, trains can stop at the Sedrun and Faido emergency stops and evacuate their passengers in side tunnels. There is an escape route through the side tunnels to the multifunction stations in Sedrun and Faido. The walking distances from the end of the side tunnel or the emergency stops to the multifunction stations are almost 2 km. An evacuation through the access tunnels to the multifunction stations is not planned.

After the tour through the side tunnels of the Sedrun emergency stop, we continued in the Gottardino. After about ten minutes we reached the second emergency stop, at the Faido multifunction station. As under Sedrun, there is also a high-speed switch and a connecting tunnel between the two driving tubes, so that it is possible to change tracks in the tunnel.

Sources

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Crossing over on the Charleroi Metro

Posted on March 2, 2023 by Marcus Wong

The Belgium city of Charleroi is home to the Charleroi Metro – a curious light rail system, with 33-kilometres of track circling the city centre in an underground tunnel, and forming three above ground branches to the surrounding suburbs, along with a fourth branch line that has never opened. It is on this line that this bizarre looking crossover exists – so what is the story behind it?

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Photo by Nenea hartia, via Wikimedia Commons

Some history

Like many cities, Charleroi once had an extensive tramway network, with trams that ran on the right hand side of the road with other traffic. It was made up of lines run by the STIC through the city itself, and others by the SNCV which extended into the surrounding rural countryside.

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Photo by Meredith, via Wikimedia Commons

Then in the 1960s the city planned to build a 52 km long pre-metro network to replace the legacy tram system, with eight branch lines radiating from a central downtown loop, and 69 stations.

Image via Wikipedia

The first section opened on 21 June 1976, with subsequent stages opened throughout the 1980s. Each time a new section was completed, the existing tram network would be modified to use the new pre-metro, then return to the street for the remainder of the route.

Image via Wikipedia

A fleet of bi-directional articulated light rail vehicles was then acquired to operate the new network, supplied by La Brugeoise et Nivelles (BN) between 1980 to 1982.

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Photo by EveryPicture, via Wikimedia Commons

By 1985, work has been completed on branch lines to Gilly and Centenaire, but they were never commissioned.

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Photo by Matthias Hintzen, München (Germany)Upload durchgeführt von Maximilian Dörrbecker (Chumwa), 27. Juli 2013, via Wikimedia Commons

But it took until 1992 for the line to Gilly to see passengers, when route 54 was created to serve the new branch.

Stadtbahn Charleroi, Gleisplan 1992.png

Photo by Matthias Hintzen, München (Germany)Upload durchgeführt von Maximilian Dörrbecker (Chumwa), 27. Juli 2013, via Wikimedia Commons

And things get weird

With bi-directional trams it doesn’t matter which side of the platform is on, but for the Charleroi pre-metro it wasn’t that simple.

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Photo by Mmkay, via Wikimedia Commons

The western half of the network was to be managed by SNCV who wished to keep right hand running so the new new lines could be integrated with their existing street running system, while STIC running the eastern half wanted to run on the left, so that their fleet of legacy unidirectional trams would be able to use the island platforms at underground stations.

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Photo by IIVQ / Tijmen Stam, via Wikimedia Commons

This meant the branch lines in the east to Gilly and Centenaire had to be provided with crossovers before joining the central loop, to get the left hand running trams back to the right hand side, and vice versa.

Stadtbahn Charleroi, Gleisplan 1997.png

Photo by Matthias Hintzen, München (Germany)Upload durchgeführt von Maximilian Dörrbecker (Chumwa), 27. Juli 2013, via Wikimedia Commons

The crossover on the never-opened line to Centenaire is located between Waterloo and Neuville stations, next to the N90/R9 highway.

Tronson Waterloo–Neuville 02.jpg

Photo by Nenea hartia, via Wikimedia Commons

While the crossover on line M4 to Soleilmont is located in the tunnel west of Samaritaine station.

Footnote: why not swap sides?

The legacy unidirectional trams have since been decommissioned, so why haven’t the new left hand running lines controverted to match the system of the system? The reason – signalling.

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Photo by Smiley.toerist, via Wikimedia Commons

The light metro sections of the system was equipped with signalling that matches the existing running direction of trams, so switching sides would require the resginalling of the affected sections of line.

Further reading

Wikipedia has the complete history of the Charleroi Metro.

London Reconnections has a photo essay titled ‘The surreal Métro of Charleroi‘.

Over at Urbex.nl they have a tour of the abandoned line to Centenaire.

And ‘The Tim Traveller’ has put together a video on crossovers of Charleroi.

Posted in Trams | Tagged , , , , , , , | 2 Comments