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Rastatt Tunnel

October 15, 2023

The Rastatt Tunnel is a railway tunnel that is currently under construction on the Karlsruhe–Basel high-speed railway under Rastatt in the German state of Baden-Württemberg. Once complete, the line will be used by long-distance passenger services and freight.[1] It will form part of the RotterdamGenoa corridor; the tunnel is also part of the Main line for Europe (Magistrale für Europa in German and Magistrale européenne in French; ParisBudapest).

Rastatt Tunnel
Overview
LineKarlsruhe–Basel high-speed railway
LocationRastatt, Germany
CoordinatesNorth portal:
48°52′22″N 8°14′9″E / 48.87278°N 8.23583°E / 48.87278; 8.23583
South portal:
48°50′39″N 8°12′52″E / 48.84417°N 8.21444°E / 48.84417; 8.21444
StartÖtigheim
EndNiederbühl
Operation
Work begunMay 2016
Opened2024 (planned)
OwnerDeutsche Bahn
Character2 bores
Technical
Design engineerDB ProjektBau
Length4,270 m (14,010 ft)
No. of tracks2
Track gauge1,435 mm (4 ft 8+12 in) standard gauge
Electrified15 kV/16.7 Hz AC overhead catenary
Operating speed250 km/h (160 mph) (max)

Having been under consideration since the 1970s, and given planning approval during 1996, the tunnel's construction was delayed by decades due to a lack of financing.[2] During 2013, construction finally commenced with the awarding of a contract to Arbeitsgemeinschaft Tunnel Rastatt ("Rastatt tunnel construction community"). In 2012, it was projected that Rastatt Tunnel should be opened during 2022.[3] Being financed by the German federal government, early projections forecast a total cost of around €693 million.

On 12 August 2017, there was a collapse during the construction of the tunnel's eastern bore. This collapse not only affected the tunnel, but also stopped operations on the Rhine Valley Railway, disrupting international rail traffic; the line was not reopened until on 2 October 2017. While construction work on the unaffected western bore was resumed during September 2017, the eastern bore was intentionally sealed with concrete as a measure to stabilise the ground. The project was re-planned to account for the collapse; as of August 2019, the eastern bore is intended to be dug out using traditional cut-and-cover construction methods, while the tunnel's overall completion date has been set back to 2025. The Rhine Valley Railway will also be relocated during the renewed construction phase to minimise the potential impact of further instability.

Route Edit

The 4,270-metre-tunnel (2.7 mi) will pass under the entire Rastatt urban area, the existing Rhine Valley Railway and the Federbach flats.[4] It is the largest tunnel in terms of cross-section to be built on the high-speed line[5] and begins east of Ötigheim and ends at Niederbühl. The distance between the track-centres of the two single-track tunnels is 26.5 metres (87 ft) and they are linked at 500-metre (1,600 ft) intervals by cross passages.[6] To the north and south are trough structures with a length of 800 or 895 metres (2,625 or 2,936 ft) connecting to the rail tracks on the surface.[7]

The gradient descends from both portals towards the centre of the tunnel. The two tracks are largely in circular tunnels with an inner radius of 4.80 metres (15.7 ft) in sections with an open design a rectangular cross-section has been chosen with an equivalent cross-sectional area.[8]

The planned cover of the tunnels is between 3 and 20 metres (10 and 65 ft). The tunnels will run through sandy-gritty subsoil, mostly under the water table.[6] The tunnel is the centerpiece of a 17-kilometre-long (11 mi) section of new line, which is designed for operations at 250 km/h (160 mph). The long-distance passenger services and part of the rail freight traffic passing through the corridor are expected to use it.[9]

The local geology largely comprises sedimentary rock, while various underground rivers are also present in the vicinity; the Rhine itself is roughly seven kilometres west of Rastatt. It has been observed that there is a high presence of ground water around the tunnel's route, which is particularly concentrated around the sandy sediments found up to 10 metres below surface level.[2]

History Edit

Planning Edit

Between 1970 and 1983, more than 20 above ground options for section 1, to which the tunnel belongs, were considered. Under planning procedures introduced in 1983, five main above or underground options in the area Rastatt with different design speeds were examined.[1] In its spatial planning assessment, the administration of the Karlsruhe region called on Deutsche Bundesbahn to discard the aboveground options and to provide for a tunnel under Rastatt. As there is mainly rail-freight operating on the line and to achieve permissible noise levels for the local residents and avoid noise mitigation at the vehicles and tracks a tunnel was planned in the sandy plains of the Rhine valley. Also to avoid construction noise a construction in mining technique was foreseen instead of cut and cover what would be much simpler in this environment.[10] The initially planned route of the new line through Durmersheim, Bietigheim and Ötigheim was fought intensely by local residents. Under political pressure, the new route was eventually moved to follow the already planned deviation of federal highway 36. According to Deutsche Bahn (DB), this transfer was possible at no additional cost, taking into account the need to resolve local issues if the previously considered route was chosen.[11] According to DB, the selected tunnel solution is more economical, has greater capacity, would allow more efficient operations and would allow shorter journey times.[12] As a result, the regional planning process was launched in July 1986 with the proposed route following the proposed new federal highway closely and then passing through a tunnel.[1] In the middle of 1987, Deutsche Bundesbahn intended to initiate the planning approval process in late 1987.[11] The B36 bypass was built between 2002 and 2004.[9]

The planning process for section 1 was launched on 27 June 1990. Due to the high cost of the tunnel solution, possible savings were investigated in 1991 and 1992, including other routes for the tunnel and a shorter tunnel. The planning approval procedure was completed on 19 March 1996.[1] After several complaints were dismissed, the decision on section 1.2, to which the tunnel belongs, was finalised on 11 August 1998.[1][6]

In the spring of 1997, the Federal Ministry of Transport commissioned Deutsche Bahn to carry out a study comparing an aboveground route with the underground route. The result was verified by the Federal Railway Authority (Eisenbahn-Bundesamt) and notified to the Baden-Württemberg state government in December 1997. The study confirmed that, an aboveground route would have a similar cost as a tunnel, but it would not provide the same increase in capacity.[1]

In 2000, the planned tunnel would have had a length of 4,540 m (2.82 mi). The northern portal would have been at federal highway 462 and the southern portal would have been near Autobahn 5.[13] In 2002, the tunnel's planned length was 4,270 m (2.65 mi). The northern and southern portals had been moved to the north.[14] In mid-2010, the length of the tunnel was quoted as 4,225 m (2.6 mi).[15]

In early 2009, it was intended to revise the planning for the Rastatt Tunnel, which was now over ten years old and to begin construction in early 2011. Both would be financed from funds from the economic stimulus package II. Because of the high financial requirements and the long duration of the project, it was later separated from the stimulus package.[16] In 2011, Deutsche Bahn proposed an amendment to the plan, with among other things, the longitudinal spacing of the cross tunnels reduced from 1,000 to 500 metres (3,300 to 1,600 ft) and special construction methods in the portal area to deal with tunnel boom.[6] Among other things, the route of the eastern tunnel was shifted slightly to give a uniform distance of 12 m (39 ft) between the airlock doors of the cross tunnels. The amended plans provided for a new safety concept over a length of 2,260 m (1.40 mi).[17] The amendment was approved in November 2012.[18] According to a media report the amendments to the plan were necessary because of new safety regulations (as of February 2012).[19]

On 24 August 2012, the Federal Ministry of Transport, Building and Urban Development concluded a financing agreement on the northernmost section of the Rhine Valley Railway. It includes a 16 km long (9.9 mi) northern section of line, which includes the Rastatt Tunnel. The section is designed for operations at up to 250 km/h (160 mph).[3] At the end of February 2012, a notice was published on the tendering of the construction contract for zoning section 1, to which the tunnel belongs. The estimated contract value was €808 million.[20] Tendering and contracting were to run from May 2013 to August 2014.[7]

Construction Edit

 
Already finished subgrade of the approach line in the Durmersheim area in September 2009
 
North portal of Rastatt Tunnel in March 2016
 
Assembly of the tunnel boring machine in March 2016
 
South portal of Rastatt Tunnel in April 2016

During 2001, the construction interval was forecast to take around six years to complete.[6] However, prior to any work commencing, the construction phase of the project was subject to multiple postponements; according to the European Commission, these delays were due to a lack of available funds.[21]

On 7 April 2011, fresh exploratory drilling for the tunnel began in the district of Niederbühl.[22] Another exploration program began between Ötigheim and Rastatt Süd on 9 May 2012. Three rigs were due to drive 40 holes to depths of up to 40 metres (130 ft) by October 2012.[23][24] Work on the ramp at the northern tunnel portal was tendered in March 2013.[25]

On 30 July 2013, the official ground-breaking ceremony was held at the future groundwater basin under Autobahn 5 in Niederbühl.[26] This was to allow construction work to commence between Basheide junction and Rastatt Süd.[9] The work was expected to be completed by 2015.[25] At the end of 2013, work began on the construction of the northern groundwater basin. As part of works worth about €13 million, a 700-metre long (2,300 ft) and up to 29-metre wide (95 ft) excavation pit was established and approximately 300,000 cubic metres (11 million cubic feet) of material and 11,400 square metres (123,000 sq ft) of sheet piles were installed. The work was expected to be completed by October 2014 (as of late 2013). It was expected that the construction of the actual groundwater basin would begin in early 2015,[27] By the end of March 2014, the earthworks for the northern groundwater basin has been completed. Starting in July 2014, sheet piles were driven into the ground in preparation of further construction activity commencing.[28]

The contract for construction of the shell of the tunnel was awarded to Arbeitsgemeinschaft Tunnel Rastatt ("Rastatt tunnel construction community"), a company founded specifically to undertake this project.[2] The technical leadership was taken by Ed. Züblin AG and the commercial leadership by Hochtief AG.[2] The tunnel contract is worth €312 million;[4] making it the biggest contract of the project in terms of value.[5] On 4 August 2014, the contract for the shell of the tunnel was signed in Berlin. Construction work was expected to start in November 2014 with the preparation of a building site area in Ötigheim. The first tunneling machine was expected to be assembled in April 2015 and the driving of the tunnel was expected to start in October 2015. The completion of the shell was intended to be achieved at the end of the first quarter of 2018. The completion of technical construction is to follow in 2020 and trial operations are scheduled to start in 2022.[4]

Due to the geological and hydrological environment of the tunnel, a large part of it is being driven by two tunnel boring machines (TBMs), which travelled its length along the north-to-south alignment. Some of its length was tunnelled through ground that has been stabilised by a combination of ground freezing (using either brine or liquid nitrogen) and concrete injections.[2] Around 3,800 m (12,500 ft) of the tunnel would be bored, about 470 m (1,540 ft) would be built using the New Austrian Tunnelling method or by cut-and-cover.[7]

In early December 2014, Deutsche Bahn provided updated details of the procurement of the two TBMs. The two 90-metre long (300 ft) and 1,750 t (1,720-long-ton; 1,930-short-ton) machines would be provided by Herrenknecht AG.[2] At the time, the first machine was to be assembled in September 2015 and excavation work was set to commence during December 2015. The assembly of the second machine would begin in early January 2016 and the excavation would begin in April 2016. With a 10.97-metre wide (36.0 ft) boring shield, each TBM would prepare a usable section of 9.6 m (31 ft). The contract for the two machines was estimated to be worth €36 million.[2] The structure of the tunnel was still estimated to be completed in the first quarter of 2018.[29]

According to an updated schedule of June 2015, the beginning of the tunnel drive had been delayed by three months to the spring of 2016 as the first parts of the tunneling machine would be delivered at the end of 2015. The completion of the tunnel shell is still scheduled for July 2018.[30] From the end of 2015, the first parts of the TBM were delivered at the north portal at Ötigheim and were assembled there in preparation for driving the eastern tube from early February.[citation needed]

The first TBM was symbolically launched on 8 December 2015. It was expected to start driving the eastern tunnel at the end of May 2016.[31][32]

A stretch of earthworks with a length of about 7.5 km (4.7 mi) was completed to the north of the tunnel at the end of 2006 and it has been extended at Ötigheim since early 2013.[citation needed] In April 2016, the construction of the tunnel's connections were put to tender.[33]

August 2017 collapse Edit

Sensors at the tunnel construction site at Niederbühl reported a lowering of the track on the existing line above the tunnel on 12 August 2017 at about 11:00. Signals along the line automatically set to danger, stopping all train traffic.[2][34] The track had subsided by half a metre (1.6 ft) over a section of track that was about 6 to 8 metres (20 to 26 ft) long.[35] In this area, the tunnel is covered by 5 m (16 ft) of material.[36] Over the length of the bore, the ground was intentionally frozen with cooling liquid to −33 °C (−27 °F) to stabilise it.[37] The bore was intended to run over a length of 205 m (673 ft) through completely frozen material, representing an innovation in the use of TBMs.[38] As a result of a water spill, the tunnel was not accessible at first.[39] At the time of the collapse, the breakthrough of the tunnel was believed to be close at hand.[36]

Following work to stabilise the area, DB Netze commenced work to plan the line's reopening and resumption of construction.[2] The line was initially expected to remain blocked until 26 August.[40] By 22 August, a closure of the line until 7 October was expected.[41] During the closure, an emergency bus service was established between Rastatt and Baden-Baden.[39] This service was operated at six-minute intervals from 14 August; passengers were informed to expect extensions of travel time of at least an hour.[42] The residents of four neighbouring houses were asked to leave them on 13 August.[40]

In rail freight, DB rail operations worked on alternative concepts that focused on large-scale bypasses and transfers to other modes of transport. A change in the schedule of construction sites was considered.[43] Within the framework of large-scale diversions, the Plochingen–Tübingen and Tübingen–Horb railways were temporarily operated around the clock on working days.[44] The Netzwerk Europäischer Eisenbahnen estimated the revenue loss for freight companies at €12 million per week. Even with all the large-scale diversions, insufficient capacities would be available, since several detours were also blocked.[45]

By 15 August 2017, according to DB information, work was already being carried out on the restoration of the line, although the stabilisation of the tunnel still had remaining queries to address.[43] It was anticipated that a 50 m long (160 ft) section of the eastern tube would be filled with concrete in order to stabilise the ground, allowing the re-opening of the railway line as soon as possible. This process necessitated the abandoning of the existing TBM, which was valued at €18 million, as it would remain in the ground. At the time, the means of addressing the damaged eastern bore of the tunnel, and the project's overall completion, were unclear.[46]

On 2 October 2017, the old rail line, which had been rendered unusable for nearly two months due to damage sustained from the collapse, was reopened. DB had constructed a large concrete slab, being 120 metres in length, 15 metres in width and one-metre deep, to effectively act as a bridge for the old ground level railway over the eastern bore; a second slab was built over the western bore as well to avoid any possibility of reoccurrence.[2] A section of the old railway was removed, which included the lifting of the rails, 400 sleepers, overhead line electrification (OLE), and around 2,500 tonnes of ballast, and rebuilt nearby to reposition the line to run through the site of the bores over top of the two concrete slabs. According to industry publication Rail Engineer, the costs associated with both the line's closure and the wider disruption caused to rail customers has been estimated to be as high as €2 billion.[47] Rail freight operators had sought compensation for the impact to their businesses caused by the collapse and subsequent disruption, some companies publicly criticised DB specifically for failing to provide a temporary low-speed diversionary line around the tunnel site and generally for its lack of disaster mitigation planning.[2]

Resumption of work Edit

Initially, tunnelling work on both bores was suspended on 12 August 2017 immediately following the collapse, the focus of work being switched to stabilisation efforts instead.[2] However, being sufficiently confident in the condition of the western bore, boring activity resumed in the western bore during early September 2017. Work on the eastern bore, which had been heavily affected by the collapse, remained suspended indefinitely at this point.[2] A detailed evaluation of ground conditions, which involved a total of 60 bore holes, was conducted to help ascertain responsibility for the tunnel collapse.[48]

By early October 2017, proposals had been mooted for the recovery of the TBM's remains, which had been intentionally entombed in concrete, by digging it out of the ground; however, there was no immediate plan of how to resume construction of the eastern bore.[2] By January 2018, such work was still pending and no recovery had taken place.[49] By July 2018, limited activity was happening on the eastern bore, including the creation of an opening to act as an emergency escape and to aid logistics during further construction work.[48]

During August 2019, DB Netze announced that construction activity on Rastatt Tunnel would be fully resumed during 2020, and that its completion date was now projected to occur during 2025, three years later than originally planned.[50] As agreed, Arbeitsgemeinschaft Tunnel Rastatt would continue with work to finish the remaining 200 metres of the undamaged western bore, while DB shall reposition a 700-metre section of the old line to follow the course of the completed western bore on the surface, putting it clear of the eastern bore's construction site. After the repositioning, which is anticipated by 2021, the remaining portion of the eastern bore shall be excavated using an open 'cut-and-cover' method after inserting concrete walls to the required depth.[47] Once the tunnel is complete, it shall be back filled and the old line repositioned above the eastern bore. Finishing work, including the construction of several cross passages and the entrance portals, as well as fitting-out, is projected to take until 2024.[47]

Costs Edit

In 2012, it was projected that the project would have a total cost of around €693 million, including both the route and the tunnel itself; financing was provided by the German federal government.[3][17]

References Edit

Citations Edit

  1. ^ a b c d e f Bernd Dassler; Joachim Nied (2012). "ABS/NBS Karlsruhe – Basel, Planung und Realisierung im Streckenabschnitt". Eisenbahntechnische Rundschau (in German) (12): 10–15.
  2. ^ a b c d e f g h i j k l m n Fender, Keith (3 October 2017). "Why Europe's busiest railway collapsed at Rastatt". Rail Engineer.
  3. ^ a b c "Bund stellt Finanzmittel für den Rastatter Tunnel bereit" (Press release) (in German). Bundesministerium für Verkehr, Bau und Stadtentwicklung. 24 August 2012. Archived from the original on 11 January 2013. Retrieved 5 May 2016.
  4. ^ a b c "Ausbau- und Neubaustrecke Karlsruhe Basel: Bahn vergibt Rohbauarbeiten für Tunnel Rastatt" (Press release) (in German). Deutsche Bahn AG. 7 August 2014.
  5. ^ a b "ARGE für Rohbau beauftragt" (PDF). Karlsruhe–Basel Im Fokus (in German). DB ProjektBau GmbH (3): 1. 2014. Retrieved 1 May 2016.
  6. ^ a b c d e (PDF). Karlsruhe–Basel Im Fokus (in German). DB ProjektBau GmbH (3): 1. 2011. Archived from the original (PDF; 1.2 MB) on 6 October 2014. Retrieved 1 May 2016.
  7. ^ a b c "D-Karlsruhe: Baustellenüberwachung: 2012/S 236-389074". Tenders Electronic Daily (in German). 7 December 2012. Retrieved 2 May 2016.
  8. ^ Michael Richter (2012). "Tunnel Rastatt vor der Realisierung". In DB ProjektBau (ed.). Infrastrukturprojekte 2012: Bauen bei der Deutschen Bahn (in German). Hamburg: Eurailpress. pp. 180–184. ISBN 978-3-7771-0445-4.
  9. ^ a b c Matthias Hudaff (2013). (PDF). Karlsruhe–Basel Im Fokus (in German). DB ProjektBau GmbH (2): 1. Archived from the original (PDF; 273 kB) on 5 March 2016. Retrieved 2 May 2016.
  10. ^ Hecht, M (December 2017). "Rastatt und Bahnlärm". Eisenbahntechnische Rundschau (in German) (12): 28–32.
  11. ^ a b Ernst Krittian (1987). "Die Ausbau- und Neubaustrecke Karlsruhe–Basel". Die Bundesbahn (in German). 63 (10): 911–916. ISSN 0007-5876.
  12. ^ Joachim Nied; Bernd Dassler; Thomas Zieger (September 2007). "Neu- und Ausbaustrecke Karlsruhe – Basel – aktueller Planungsstand und Bauablauf". Eisenbahntechnische Rundschau (in German) (9): 507–512. ISSN 0013-2845.
  13. ^ Streckenkarte: Ausbau - und Neubaustrecke Karlsruhe - Basel (in German). Frankfurt am Main: DBBauProjekt GmbH. (map with status of September 2000)
  14. ^ Streckenkarte: Ausbau - und Neubaustrecke Karlsruhe - Basel (in German). Frankfurt am Main: DBBauProjekt GmbH. (map with status of May 2002)
  15. ^ DB ProjektBau GmbH, ed. (2010). Infrastrukturprojekte 2010. Bauen bei der Deutschen Bahn (in German). Hamburg: Eurailpress Verlag. pp. 50 f. ISBN 978-3-7771-0414-0.
  16. ^ "Response by the Federal government to the MPs Ute Kumpf, Uwe Beckmeyer, Martin Burkert, other MPs and the SPD parliamentary group – printed matter 17/933: Menschenfreundlicher und umweltgerechter Ausbau der Rheintalbahn" (PDF; 98 kB). Records of the Bundestag (in German) (17/1306): 2–5. 6 April 2010. Retrieved 1 May 2016.
  17. ^ a b (PDF). Karlsruhe–Basel Im Fokus (in German). DB ProjektBau GmbH (4): 4. 2012. Archived from the original (PDF; 0.8 MB) on 5 March 2016. Retrieved 1 May 2016.
  18. ^ "Planänderung für den Rastatter Tunnel genehmigt" (Press release) (in German). Deutsche Bahn. 23 November 2012.
  19. ^ "Weitere Züge haben im Rheintal keinen Platz". Badische Zeitung (in German). 2 February 2012. Retrieved 1 May 2016.
  20. ^ "D-Karlsruhe: Bauarbeiten für Eisenbahnlinien: 2012/S 39-063501". Tenders Electronic Daily (in German). 25 February 2012. Retrieved 2 May 2016.
  21. ^ "Jährlicher Tätigkeitsbericht 2009-2010 für PP17" (PDF) (in German). Brussels: European Commission. August 2010. p. 5. Retrieved 2 May 2016.
  22. ^ "Deutsche Bahn: Probebohrungen für den Rastatter Tunnel". Eurailpress (in German). 8 April 2011.
  23. ^ (PDF). Karlsruhe–Basel Im Fokus (in German). DB ProjektBau GmbH (2): 3. 2012. Archived from the original (PDF; 940 kB) on 5 March 2016. Retrieved 2 May 2016.
  24. ^ "Probebohrungen im Streckenabschnitt Ötigheim - Rastatt Süd werden weitergeführt" (Press release) (in German). Deutsche Bahn AG. 8 May 2012.
  25. ^ a b "D-Frankfurt: Verbauarbeiten: 2013/S 046-074633". Tenders Electronic Daily (in German). 6 March 2013. Retrieved 3 May 2016.
  26. ^ "Staatssekretärin Splett bei Rheintalbahn-Spatenstich in Rastatt" (Press release) (in German). Baden-Württemberg Ministry for Transport and Infrastructure. 30 July 2013.
  27. ^ (PDF). Karlsruhe–Basel Im Fokus (in German). DB ProjektBau GmbH (4): 1. 2013. Archived from the original (PDF; 273 kB) on 19 November 2015. Retrieved 4 May 2016.
  28. ^ "Bauarbeiten bei Ötigheim liegen vor Zeitplan" (PDF; 0.9 MB). Karlsruhe–Basel Im Fokus (in German). DB ProjektBau GmbH (2): 5. June 2014. Retrieved 4 May 2016.
  29. ^ "Tunnel Rastatt: ARGE ordert Tunnelvortriebsmaschinen" (Press release) (in German). Deutsche Bahn AG. 5 December 2014.
  30. ^ "Tunnel Rastatt: Vortrieb startet im Frühjahr 2016" (Press release) (in German). Deutsche Bahn AG. 19 June 2015.
  31. ^ "Tunnelvortriebsmaschine symbolisch abgenommen" (PDF). Karlsruhe–Basel Im Fokus (in German). DB ProjektBau GmbH (4): 4. 2015. Retrieved 5 May 2016.
  32. ^ "Tunnelbohrmaschine für Rastatt" (in German). SWR. 8 December 2015. Retrieved 5 May 2016.
  33. ^ "Deutschland-Frankfurt am Main: Bauarbeiten für Eisenbahnlinien: 2016/S 080-142881". Tenders Electronic Daily (in German). 23 April 2016. Retrieved 2 May 2016.
  34. ^ "Erdrutsch im "Rastatter Tunnel" legt Bahnverkehr lahm: Strecke wohl eine Woche gesperrt". ka-news.de (in German). 13 August 2017. Retrieved 18 August 2017.
  35. ^ "Rheintalbahn gesperrt – deutliche Verspätungen im Südwesten". welt.de (in German). 14 August 2017. Retrieved 18 August 2017.
  36. ^ a b Stefan Jehle (13 August 2017). "Rheintalbahn länger lahmgelegt". Stuttgarter-Zeitung (in German). Retrieved 18 August 2017.
  37. ^ "Vier Wohnhäuser an Bahnstrecke in Rastatt geräumt". Frankfurter-Allgemeine (in German). 2017-08-14. Retrieved 18 August 2017.
  38. ^ Martin Geiger; Marc Kemmler; Joachim Wehner; Thomas Grundhoff; Heiko Neher; Andreas Schaab; Wolfgang Orth; Gerhard Wehrmeyer (October 2016). Tunnel Rastatt: Schildvortriebe in Kombination mit Baugrundvereisung. p. 74. ISBN 978-3433031681. {{cite book}}: |work= ignored (help) -- Note: The freezing technology is being used in the construction of the U5 (Berlin U-Bahn).
  39. ^ a b (in German). Archived from the original on 13 August 2017. Retrieved 18 August 2017.
  40. ^ a b (Press release) (in German). Deutsche Bahn. 13 August 2017. Archived from the original on 13 August 2017. Retrieved 18 August 2017.
  41. ^ . Archived from the original on 2017-08-15.
  42. ^ (Press release) (in German). Deutsche Bahn. 14 August 2017. Archived from the original on 18 August 2017. Retrieved 18 August 2017.
  43. ^ a b "Bahn arbeitet mit Hochdruck an Wiederinbetriebnahme der Rheintalbahn bei Rastatt" (PDF) (Press release) (in German). Deutsche Bahn. 15 August 2017. Retrieved 18 August 2017.
  44. ^ (Press release) (in German). Deutsche Bahn. 17 August 2017. Archived from the original on 16 August 2017. Retrieved 18 August 2017.
  45. ^ (PDF) (Press release) (in German). Netzwerk Europäischer Eisenbahnen e. V. 14 August 2017. Archived from the original (PDF) on 16 August 2017. Retrieved 18 August 2017.
  46. ^ "Wieder Erdbewegungen an Bahnstrecke in Rastatt". Frankfurter-Allgemeine (in German). 15 August 2017. Retrieved 18 August 2017.
  47. ^ a b c "Work to restart on Rastatt Tunnel". Rail Engineer. 22 August 2019.
  48. ^ a b van Leijen, Majorie (2 July 2018). "Digging for answers in Rastatt Tunnel". railfreight.com.
  49. ^ "Rheintalbahn-Panne: Bergung von "Wilhelmine" nicht absehbar". Stimme (in German). 1 January 2018. Retrieved 3 January 2018.
  50. ^ Fender, Keith (14 August 2019). "Work to resume on Rastatt Tunnel". Rail Journal.

Bibliography Edit

  • Thomas Grundhoff; Dennis Edelhoff (February 2016). "Tunnel Rastatt: Hohe Anforderungen an den maschinellen Tunnelbau". Tunnel (in German). Gütersloh: Bauverlag BV GmbH (1/2016): 10–19. ISSN 0722-6241. Retrieved 5 May 2016.

External links Edit

 
Wikimedia Commons has media related to Rastatt Tunnel.
  • "Der Tunnel Rastatt" (in German). www.karlsruhe-basel.de. Retrieved 5 May 2016.

October 15, 2023
rastatt, tunnel, railway, tunnel, that, currently, under, construction, karlsruhe, basel, high, speed, railway, under, rastatt, german, state, baden, württemberg, once, complete, line, will, used, long, distance, passenger, services, freight, will, form, part,. The Rastatt Tunnel is a railway tunnel that is currently under construction on the Karlsruhe Basel high speed railway under Rastatt in the German state of Baden Wurttemberg Once complete the line will be used by long distance passenger services and freight 1 It will form part of the Rotterdam Genoa corridor the tunnel is also part of the Main line for Europe Magistrale fur Europa in German and Magistrale europeenne in French Paris Budapest Rastatt TunnelOverviewLineKarlsruhe Basel high speed railwayLocationRastatt GermanyCoordinatesNorth portal 48 52 22 N 8 14 9 E 48 87278 N 8 23583 E 48 87278 8 23583 South portal 48 50 39 N 8 12 52 E 48 84417 N 8 21444 E 48 84417 8 21444StartOtigheimEndNiederbuhlOperationWork begunMay 2016Opened2024 planned OwnerDeutsche BahnCharacter2 boresTechnicalDesign engineerDB ProjektBauLength4 270 m 14 010 ft No of tracks2Track gauge1 435 mm 4 ft 8 1 2 in standard gaugeElectrified15 kV 16 7 Hz AC overhead catenaryOperating speed250 km h 160 mph max Having been under consideration since the 1970s and given planning approval during 1996 the tunnel s construction was delayed by decades due to a lack of financing 2 During 2013 construction finally commenced with the awarding of a contract to Arbeitsgemeinschaft Tunnel Rastatt Rastatt tunnel construction community In 2012 it was projected that Rastatt Tunnel should be opened during 2022 3 Being financed by the German federal government early projections forecast a total cost of around 693 million On 12 August 2017 there was a collapse during the construction of the tunnel s eastern bore This collapse not only affected the tunnel but also stopped operations on the Rhine Valley Railway disrupting international rail traffic the line was not reopened until on 2 October 2017 While construction work on the unaffected western bore was resumed during September 2017 the eastern bore was intentionally sealed with concrete as a measure to stabilise the ground The project was re planned to account for the collapse as of August 2019 the eastern bore is intended to be dug out using traditional cut and cover construction methods while the tunnel s overall completion date has been set back to 2025 The Rhine Valley Railway will also be relocated during the renewed construction phase to minimise the potential impact of further instability Contents 1 Route 2 History 2 1 Planning 2 2 Construction 2 2 1 August 2017 collapse 2 2 2 Resumption of work 3 Costs 4 References 4 1 Citations 4 2 Bibliography 5 External linksRoute EditThe 4 270 metre tunnel 2 7 mi will pass under the entire Rastatt urban area the existing Rhine Valley Railway and the Federbach flats 4 It is the largest tunnel in terms of cross section to be built on the high speed line 5 and begins east of Otigheim and ends at Niederbuhl The distance between the track centres of the two single track tunnels is 26 5 metres 87 ft and they are linked at 500 metre 1 600 ft intervals by cross passages 6 To the north and south are trough structures with a length of 800 or 895 metres 2 625 or 2 936 ft connecting to the rail tracks on the surface 7 The gradient descends from both portals towards the centre of the tunnel The two tracks are largely in circular tunnels with an inner radius of 4 80 metres 15 7 ft in sections with an open design a rectangular cross section has been chosen with an equivalent cross sectional area 8 The planned cover of the tunnels is between 3 and 20 metres 10 and 65 ft The tunnels will run through sandy gritty subsoil mostly under the water table 6 The tunnel is the centerpiece of a 17 kilometre long 11 mi section of new line which is designed for operations at 250 km h 160 mph The long distance passenger services and part of the rail freight traffic passing through the corridor are expected to use it 9 The local geology largely comprises sedimentary rock while various underground rivers are also present in the vicinity the Rhine itself is roughly seven kilometres west of Rastatt It has been observed that there is a high presence of ground water around the tunnel s route which is particularly concentrated around the sandy sediments found up to 10 metres below surface level 2 History EditPlanning Edit Between 1970 and 1983 more than 20 above ground options for section 1 to which the tunnel belongs were considered Under planning procedures introduced in 1983 five main above or underground options in the area Rastatt with different design speeds were examined 1 In its spatial planning assessment the administration of the Karlsruhe region called on Deutsche Bundesbahn to discard the aboveground options and to provide for a tunnel under Rastatt As there is mainly rail freight operating on the line and to achieve permissible noise levels for the local residents and avoid noise mitigation at the vehicles and tracks a tunnel was planned in the sandy plains of the Rhine valley Also to avoid construction noise a construction in mining technique was foreseen instead of cut and cover what would be much simpler in this environment 10 The initially planned route of the new line through Durmersheim Bietigheim and Otigheim was fought intensely by local residents Under political pressure the new route was eventually moved to follow the already planned deviation of federal highway 36 According to Deutsche Bahn DB this transfer was possible at no additional cost taking into account the need to resolve local issues if the previously considered route was chosen 11 According to DB the selected tunnel solution is more economical has greater capacity would allow more efficient operations and would allow shorter journey times 12 As a result the regional planning process was launched in July 1986 with the proposed route following the proposed new federal highway closely and then passing through a tunnel 1 In the middle of 1987 Deutsche Bundesbahn intended to initiate the planning approval process in late 1987 11 The B36 bypass was built between 2002 and 2004 9 The planning process for section 1 was launched on 27 June 1990 Due to the high cost of the tunnel solution possible savings were investigated in 1991 and 1992 including other routes for the tunnel and a shorter tunnel The planning approval procedure was completed on 19 March 1996 1 After several complaints were dismissed the decision on section 1 2 to which the tunnel belongs was finalised on 11 August 1998 1 6 In the spring of 1997 the Federal Ministry of Transport commissioned Deutsche Bahn to carry out a study comparing an aboveground route with the underground route The result was verified by the Federal Railway Authority Eisenbahn Bundesamt and notified to the Baden Wurttemberg state government in December 1997 The study confirmed that an aboveground route would have a similar cost as a tunnel but it would not provide the same increase in capacity 1 In 2000 the planned tunnel would have had a length of 4 540 m 2 82 mi The northern portal would have been at federal highway 462 and the southern portal would have been near Autobahn 5 13 In 2002 the tunnel s planned length was 4 270 m 2 65 mi The northern and southern portals had been moved to the north 14 In mid 2010 the length of the tunnel was quoted as 4 225 m 2 6 mi 15 In early 2009 it was intended to revise the planning for the Rastatt Tunnel which was now over ten years old and to begin construction in early 2011 Both would be financed from funds from the economic stimulus package II Because of the high financial requirements and the long duration of the project it was later separated from the stimulus package 16 In 2011 Deutsche Bahn proposed an amendment to the plan with among other things the longitudinal spacing of the cross tunnels reduced from 1 000 to 500 metres 3 300 to 1 600 ft and special construction methods in the portal area to deal with tunnel boom 6 Among other things the route of the eastern tunnel was shifted slightly to give a uniform distance of 12 m 39 ft between the airlock doors of the cross tunnels The amended plans provided for a new safety concept over a length of 2 260 m 1 40 mi 17 The amendment was approved in November 2012 18 According to a media report the amendments to the plan were necessary because of new safety regulations as of February 2012 19 On 24 August 2012 the Federal Ministry of Transport Building and Urban Development concluded a financing agreement on the northernmost section of the Rhine Valley Railway It includes a 16 km long 9 9 mi northern section of line which includes the Rastatt Tunnel The section is designed for operations at up to 250 km h 160 mph 3 At the end of February 2012 a notice was published on the tendering of the construction contract for zoning section 1 to which the tunnel belongs The estimated contract value was 808 million 20 Tendering and contracting were to run from May 2013 to August 2014 7 Construction Edit nbsp Already finished subgrade of the approach line in the Durmersheim area in September 2009 nbsp North portal of Rastatt Tunnel in March 2016 nbsp Assembly of the tunnel boring machine in March 2016 nbsp South portal of Rastatt Tunnel in April 2016During 2001 the construction interval was forecast to take around six years to complete 6 However prior to any work commencing the construction phase of the project was subject to multiple postponements according to the European Commission these delays were due to a lack of available funds 21 On 7 April 2011 fresh exploratory drilling for the tunnel began in the district of Niederbuhl 22 Another exploration program began between Otigheim and Rastatt Sud on 9 May 2012 Three rigs were due to drive 40 holes to depths of up to 40 metres 130 ft by October 2012 23 24 Work on the ramp at the northern tunnel portal was tendered in March 2013 25 On 30 July 2013 the official ground breaking ceremony was held at the future groundwater basin under Autobahn 5 in Niederbuhl 26 This was to allow construction work to commence between Basheide junction and Rastatt Sud 9 The work was expected to be completed by 2015 25 At the end of 2013 work began on the construction of the northern groundwater basin As part of works worth about 13 million a 700 metre long 2 300 ft and up to 29 metre wide 95 ft excavation pit was established and approximately 300 000 cubic metres 11 million cubic feet of material and 11 400 square metres 123 000 sq ft of sheet piles were installed The work was expected to be completed by October 2014 as of late 2013 It was expected that the construction of the actual groundwater basin would begin in early 2015 27 By the end of March 2014 the earthworks for the northern groundwater basin has been completed Starting in July 2014 sheet piles were driven into the ground in preparation of further construction activity commencing 28 The contract for construction of the shell of the tunnel was awarded to Arbeitsgemeinschaft Tunnel Rastatt Rastatt tunnel construction community a company founded specifically to undertake this project 2 The technical leadership was taken by Ed Zublin AG and the commercial leadership by Hochtief AG 2 The tunnel contract is worth 312 million 4 making it the biggest contract of the project in terms of value 5 On 4 August 2014 the contract for the shell of the tunnel was signed in Berlin Construction work was expected to start in November 2014 with the preparation of a building site area in Otigheim The first tunneling machine was expected to be assembled in April 2015 and the driving of the tunnel was expected to start in October 2015 The completion of the shell was intended to be achieved at the end of the first quarter of 2018 The completion of technical construction is to follow in 2020 and trial operations are scheduled to start in 2022 4 Due to the geological and hydrological environment of the tunnel a large part of it is being driven by two tunnel boring machines TBMs which travelled its length along the north to south alignment Some of its length was tunnelled through ground that has been stabilised by a combination of ground freezing using either brine or liquid nitrogen and concrete injections 2 Around 3 800 m 12 500 ft of the tunnel would be bored about 470 m 1 540 ft would be built using the New Austrian Tunnelling method or by cut and cover 7 In early December 2014 Deutsche Bahn provided updated details of the procurement of the two TBMs The two 90 metre long 300 ft and 1 750 t 1 720 long ton 1 930 short ton machines would be provided by Herrenknecht AG 2 At the time the first machine was to be assembled in September 2015 and excavation work was set to commence during December 2015 The assembly of the second machine would begin in early January 2016 and the excavation would begin in April 2016 With a 10 97 metre wide 36 0 ft boring shield each TBM would prepare a usable section of 9 6 m 31 ft The contract for the two machines was estimated to be worth 36 million 2 The structure of the tunnel was still estimated to be completed in the first quarter of 2018 29 According to an updated schedule of June 2015 the beginning of the tunnel drive had been delayed by three months to the spring of 2016 as the first parts of the tunneling machine would be delivered at the end of 2015 The completion of the tunnel shell is still scheduled for July 2018 30 From the end of 2015 the first parts of the TBM were delivered at the north portal at Otigheim and were assembled there in preparation for driving the eastern tube from early February citation needed The first TBM was symbolically launched on 8 December 2015 It was expected to start driving the eastern tunnel at the end of May 2016 31 32 A stretch of earthworks with a length of about 7 5 km 4 7 mi was completed to the north of the tunnel at the end of 2006 and it has been extended at Otigheim since early 2013 citation needed In April 2016 the construction of the tunnel s connections were put to tender 33 August 2017 collapse Edit Sensors at the tunnel construction site at Niederbuhl reported a lowering of the track on the existing line above the tunnel on 12 August 2017 at about 11 00 Signals along the line automatically set to danger stopping all train traffic 2 34 The track had subsided by half a metre 1 6 ft over a section of track that was about 6 to 8 metres 20 to 26 ft long 35 In this area the tunnel is covered by 5 m 16 ft of material 36 Over the length of the bore the ground was intentionally frozen with cooling liquid to 33 C 27 F to stabilise it 37 The bore was intended to run over a length of 205 m 673 ft through completely frozen material representing an innovation in the use of TBMs 38 As a result of a water spill the tunnel was not accessible at first 39 At the time of the collapse the breakthrough of the tunnel was believed to be close at hand 36 Following work to stabilise the area DB Netze commenced work to plan the line s reopening and resumption of construction 2 The line was initially expected to remain blocked until 26 August 40 By 22 August a closure of the line until 7 October was expected 41 During the closure an emergency bus service was established between Rastatt and Baden Baden 39 This service was operated at six minute intervals from 14 August passengers were informed to expect extensions of travel time of at least an hour 42 The residents of four neighbouring houses were asked to leave them on 13 August 40 In rail freight DB rail operations worked on alternative concepts that focused on large scale bypasses and transfers to other modes of transport A change in the schedule of construction sites was considered 43 Within the framework of large scale diversions the Plochingen Tubingen and Tubingen Horb railways were temporarily operated around the clock on working days 44 The Netzwerk Europaischer Eisenbahnen estimated the revenue loss for freight companies at 12 million per week Even with all the large scale diversions insufficient capacities would be available since several detours were also blocked 45 By 15 August 2017 according to DB information work was already being carried out on the restoration of the line although the stabilisation of the tunnel still had remaining queries to address 43 It was anticipated that a 50 m long 160 ft section of the eastern tube would be filled with concrete in order to stabilise the ground allowing the re opening of the railway line as soon as possible This process necessitated the abandoning of the existing TBM which was valued at 18 million as it would remain in the ground At the time the means of addressing the damaged eastern bore of the tunnel and the project s overall completion were unclear 46 On 2 October 2017 the old rail line which had been rendered unusable for nearly two months due to damage sustained from the collapse was reopened DB had constructed a large concrete slab being 120 metres in length 15 metres in width and one metre deep to effectively act as a bridge for the old ground level railway over the eastern bore a second slab was built over the western bore as well to avoid any possibility of reoccurrence 2 A section of the old railway was removed which included the lifting of the rails 400 sleepers overhead line electrification OLE and around 2 500 tonnes of ballast and rebuilt nearby to reposition the line to run through the site of the bores over top of the two concrete slabs According to industry publication Rail Engineer the costs associated with both the line s closure and the wider disruption caused to rail customers has been estimated to be as high as 2 billion 47 Rail freight operators had sought compensation for the impact to their businesses caused by the collapse and subsequent disruption some companies publicly criticised DB specifically for failing to provide a temporary low speed diversionary line around the tunnel site and generally for its lack of disaster mitigation planning 2 Resumption of work Edit Initially tunnelling work on both bores was suspended on 12 August 2017 immediately following the collapse the focus of work being switched to stabilisation efforts instead 2 However being sufficiently confident in the condition of the western bore boring activity resumed in the western bore during early September 2017 Work on the eastern bore which had been heavily affected by the collapse remained suspended indefinitely at this point 2 A detailed evaluation of ground conditions which involved a total of 60 bore holes was conducted to help ascertain responsibility for the tunnel collapse 48 By early October 2017 proposals had been mooted for the recovery of the TBM s remains which had been intentionally entombed in concrete by digging it out of the ground however there was no immediate plan of how to resume construction of the eastern bore 2 By January 2018 such work was still pending and no recovery had taken place 49 By July 2018 limited activity was happening on the eastern bore including the creation of an opening to act as an emergency escape and to aid logistics during further construction work 48 During August 2019 DB Netze announced that construction activity on Rastatt Tunnel would be fully resumed during 2020 and that its completion date was now projected to occur during 2025 three years later than originally planned 50 As agreed Arbeitsgemeinschaft Tunnel Rastatt would continue with work to finish the remaining 200 metres of the undamaged western bore while DB shall reposition a 700 metre section of the old line to follow the course of the completed western bore on the surface putting it clear of the eastern bore s construction site After the repositioning which is anticipated by 2021 the remaining portion of the eastern bore shall be excavated using an open cut and cover method after inserting concrete walls to the required depth 47 Once the tunnel is complete it shall be back filled and the old line repositioned above the eastern bore Finishing work including the construction of several cross passages and the entrance portals as well as fitting out is projected to take until 2024 47 Costs EditIn 2012 it was projected that the project would have a total cost of around 693 million including both the route and the tunnel itself financing was provided by the German federal government 3 17 References EditCitations Edit a b c d e f Bernd Dassler Joachim Nied 2012 ABS NBS Karlsruhe Basel Planung und Realisierung im Streckenabschnitt Eisenbahntechnische Rundschau in German 12 10 15 a b c d e f g h i j k l m n Fender Keith 3 October 2017 Why Europe s busiest railway collapsed at Rastatt Rail Engineer a b c Bund stellt Finanzmittel fur den Rastatter Tunnel bereit Press release in German Bundesministerium fur Verkehr Bau und Stadtentwicklung 24 August 2012 Archived from the original on 11 January 2013 Retrieved 5 May 2016 a b c Ausbau und Neubaustrecke Karlsruhe Basel Bahn vergibt Rohbauarbeiten fur Tunnel Rastatt Press release in German Deutsche Bahn AG 7 August 2014 a b ARGE fur Rohbau beauftragt PDF Karlsruhe Basel Im Fokus in German DB ProjektBau GmbH 3 1 2014 Retrieved 1 May 2016 a b c d e Der Tunnel Rastatt PDF Karlsruhe Basel Im Fokus in German DB ProjektBau GmbH 3 1 2011 Archived from the original PDF 1 2 MB on 6 October 2014 Retrieved 1 May 2016 a b c D Karlsruhe Baustellenuberwachung 2012 S 236 389074 Tenders Electronic Daily in German 7 December 2012 Retrieved 2 May 2016 Michael Richter 2012 Tunnel Rastatt vor der Realisierung In DB ProjektBau ed Infrastrukturprojekte 2012 Bauen bei der Deutschen Bahn in German Hamburg Eurailpress pp 180 184 ISBN 978 3 7771 0445 4 a b c Matthias Hudaff 2013 Editorial PDF Karlsruhe Basel Im Fokus in German DB ProjektBau GmbH 2 1 Archived from the original PDF 273 kB on 5 March 2016 Retrieved 2 May 2016 Hecht M December 2017 Rastatt und Bahnlarm Eisenbahntechnische Rundschau in German 12 28 32 a b Ernst Krittian 1987 Die Ausbau und Neubaustrecke Karlsruhe Basel Die Bundesbahn in German 63 10 911 916 ISSN 0007 5876 Joachim Nied Bernd Dassler Thomas Zieger September 2007 Neu und Ausbaustrecke Karlsruhe Basel aktueller Planungsstand und Bauablauf Eisenbahntechnische Rundschau in German 9 507 512 ISSN 0013 2845 Streckenkarte Ausbau und Neubaustrecke Karlsruhe Basel in German Frankfurt am Main DBBauProjekt GmbH map with status of September 2000 Streckenkarte Ausbau und Neubaustrecke Karlsruhe Basel in German Frankfurt am Main DBBauProjekt GmbH map with status of May 2002 DB ProjektBau GmbH ed 2010 Infrastrukturprojekte 2010 Bauen bei der Deutschen Bahn in German Hamburg Eurailpress Verlag pp 50 f ISBN 978 3 7771 0414 0 Response by the Federal government to the MPs Ute Kumpf Uwe Beckmeyer Martin Burkert other MPs and the SPD parliamentary group printed matter 17 933 Menschenfreundlicher und umweltgerechter Ausbau der Rheintalbahn PDF 98 kB Records of the Bundestag in German 17 1306 2 5 6 April 2010 Retrieved 1 May 2016 a b Plananderung fur neues Sicherheitskonzept genehmigt PDF Karlsruhe Basel Im Fokus in German DB ProjektBau GmbH 4 4 2012 Archived from the original PDF 0 8 MB on 5 March 2016 Retrieved 1 May 2016 Plananderung fur den Rastatter Tunnel genehmigt Press release in German Deutsche Bahn 23 November 2012 Weitere Zuge haben im Rheintal keinen Platz Badische Zeitung in German 2 February 2012 Retrieved 1 May 2016 D Karlsruhe Bauarbeiten fur Eisenbahnlinien 2012 S 39 063501 Tenders Electronic Daily in German 25 February 2012 Retrieved 2 May 2016 Jahrlicher Tatigkeitsbericht 2009 2010 fur PP17 PDF in German Brussels European Commission August 2010 p 5 Retrieved 2 May 2016 Deutsche Bahn Probebohrungen fur den Rastatter Tunnel Eurailpress in German 8 April 2011 Probebohrungen in Rastatt PDF Karlsruhe Basel Im Fokus in German DB ProjektBau GmbH 2 3 2012 Archived from the original PDF 940 kB on 5 March 2016 Retrieved 2 May 2016 Probebohrungen im Streckenabschnitt Otigheim Rastatt Sud werden weitergefuhrt Press release in German Deutsche Bahn AG 8 May 2012 a b D Frankfurt Verbauarbeiten 2013 S 046 074633 Tenders Electronic Daily in German 6 March 2013 Retrieved 3 May 2016 Staatssekretarin Splett bei Rheintalbahn Spatenstich in Rastatt Press release in German Baden Wurttemberg Ministry for Transport and Infrastructure 30 July 2013 Baugrube fur Grundwasserwanne Nord wird erstellt PDF Karlsruhe Basel Im Fokus in German DB ProjektBau GmbH 4 1 2013 Archived from the original PDF 273 kB on 19 November 2015 Retrieved 4 May 2016 Bauarbeiten bei Otigheim liegen vor Zeitplan PDF 0 9 MB Karlsruhe Basel Im Fokus in German DB ProjektBau GmbH 2 5 June 2014 Retrieved 4 May 2016 Tunnel Rastatt ARGE ordert Tunnelvortriebsmaschinen Press release in German Deutsche Bahn AG 5 December 2014 Tunnel Rastatt Vortrieb startet im Fruhjahr 2016 Press release in German Deutsche Bahn AG 19 June 2015 Tunnelvortriebsmaschine symbolisch abgenommen PDF Karlsruhe Basel Im Fokus in German DB ProjektBau GmbH 4 4 2015 Retrieved 5 May 2016 Tunnelbohrmaschine fur Rastatt in German SWR 8 December 2015 Retrieved 5 May 2016 Deutschland Frankfurt am Main Bauarbeiten fur Eisenbahnlinien 2016 S 080 142881 Tenders Electronic Daily in German 23 April 2016 Retrieved 2 May 2016 Erdrutsch im Rastatter Tunnel legt Bahnverkehr lahm Strecke wohl eine Woche gesperrt ka news de in German 13 August 2017 Retrieved 18 August 2017 Rheintalbahn gesperrt deutliche Verspatungen im Sudwesten welt de in German 14 August 2017 Retrieved 18 August 2017 a b Stefan Jehle 13 August 2017 Rheintalbahn langer lahmgelegt Stuttgarter Zeitung in German Retrieved 18 August 2017 Vier Wohnhauser an Bahnstrecke in Rastatt geraumt Frankfurter Allgemeine in German 2017 08 14 Retrieved 18 August 2017 Martin Geiger Marc Kemmler Joachim Wehner Thomas Grundhoff Heiko Neher Andreas Schaab Wolfgang Orth Gerhard Wehrmeyer October 2016 Tunnel Rastatt Schildvortriebe in Kombination mit Baugrundvereisung p 74 ISBN 978 3433031681 a href Template Cite book html title Template Cite book cite book a work ignored help Note The freezing technology is being used in the construction of the U5 Berlin U Bahn a b Betriebssituation bei DB Regio Baden Wurttemberg Streckensperrung zwischen Karlsruhe Hbf und Offenburg nach Tunnelbauarbeiten in German Archived from the original on 13 August 2017 Retrieved 18 August 2017 a b Sperrung der Rheintalbahn zwischen Rastatt und Baden Baden Ersatzfahrplan gilt ab Montag Press release in German Deutsche Bahn 13 August 2017 Archived from the original on 13 August 2017 Retrieved 18 August 2017 Sperrung der Rheintalbahn Archived from the original on 2017 08 15 Sperrung der Rheintalbahn Ersatzfahrplan lauft bislang stabil Press release in German Deutsche Bahn 14 August 2017 Archived from the original on 18 August 2017 Retrieved 18 August 2017 a b Bahn arbeitet mit Hochdruck an Wiederinbetriebnahme der Rheintalbahn bei Rastatt PDF Press release in German Deutsche Bahn 15 August 2017 Retrieved 18 August 2017 Nachtlicher Zugverkehr auf der Neckar Alb Bahn Strecke Horb Tubingen Reutlingen Plochingen Press release in German Deutsche Bahn 17 August 2017 Archived from the original on 16 August 2017 Retrieved 18 August 2017 Rastatt Delle verursacht zwolf Millionen Euro Umsatzausfall pro Woche PDF Press release in German Netzwerk Europaischer Eisenbahnen e V 14 August 2017 Archived from the original PDF on 16 August 2017 Retrieved 18 August 2017 Wieder Erdbewegungen an Bahnstrecke in Rastatt Frankfurter Allgemeine in German 15 August 2017 Retrieved 18 August 2017 a b c Work to restart on Rastatt Tunnel Rail Engineer 22 August 2019 a b van Leijen Majorie 2 July 2018 Digging for answers in Rastatt Tunnel railfreight com Rheintalbahn Panne Bergung von Wilhelmine nicht absehbar Stimme in German 1 January 2018 Retrieved 3 January 2018 Fender Keith 14 August 2019 Work to resume on Rastatt Tunnel Rail Journal Bibliography Edit Thomas Grundhoff Dennis Edelhoff February 2016 Tunnel Rastatt Hohe Anforderungen an den maschinellen Tunnelbau Tunnel in German Gutersloh Bauverlag BV GmbH 1 2016 10 19 ISSN 0722 6241 Retrieved 5 May 2016 External links Edit nbsp Wikimedia Commons has media related to Rastatt Tunnel Der Tunnel Rastatt in German www karlsruhe basel de Retrieved 5 May 2016 Retrieved from https en wikipedia org w index php title Rastatt Tunnel amp oldid 1154406798, wikipedia, wiki, book, books, library,

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