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Vereina Tunnel

The Vereina Tunnel is a 19,042-meter-long railway tunnel in the canton of Graubünden, , serving as the core component of the Vereina railway line that connects in the Prättigau valley to Sagliains near Lavin in the lower Engadine. Operated by the (RhB), it facilitates year-round, weather-independent transit for passengers and vehicles via a unique car shuttle service, where automobiles are loaded onto for transport through the tunnel in approximately 18 minutes. As the world's longest meter-gauge railway tunnel, it replaced the avalanche-prone Flüela Pass road, enhancing regional connectivity. Construction of the Vereina Tunnel began on April 18, 1991, following planning in the 1970s and federal approval in 1988, with the breakthrough achieved on March 26, 1997, and full track connection by December 10, 1997. The project, which took eight years to complete, addressed longstanding transportation challenges in the by providing a reliable alternative to seasonal road closures. The tunnel officially opened on November 19, 1999, and has since handled around 500,000 passengers annually (as of 2019) via regional services, in addition to freight transport. Technically, the single-track tunnel features a maximum of 1.48% ascending and 0.48% descending, reaching a highest of 1,463 meters, with short double-track sections at the portals and midpoint for overtaking. The line integrates additional , such as the 2,172-meter Zugwald Tunnel and the Landquart , to form a cohesive route spanning the Prättigau and Engadine regions. Since its inception, the tunnel has boosted local economies by supporting , , and hourly regional trains from Scuol-Tarasp to , while mitigating environmental risks associated with mountain road travel.

Geography and Route

Location and Regional Context

The Vereina Tunnel is situated in the Canton of Graubünden in , serving as a vital link between the Prättigau region to the north and the Lower to the south. It connects the Upper Rhine Valley, accessed via the Prättigau, with the Valley, facilitating efficient north-south travel through the . This positioning establishes the tunnel as a key axis for regional connectivity, particularly by circumventing high-altitude passes such as the Flüela Pass, which often become impassable due to snow. The surrounding topography consists of rugged Alpine terrain within the Rhaetian Alps, characterized by steep valleys and glaciated landscapes typical of the Swiss Eastern Alps. The north portal near Selfranga, outside , lies at approximately 1,180 meters above , while the south portal at Sagliains is at about 1,430 meters, reflecting the moderate elevation changes across the structure amid forested slopes and mountain ridges. This setting underscores the tunnel's role in navigating the challenging of Graubünden, where narrow valleys and high peaks dominate the landscape. Within the broader Swiss transport network, the Vereina Tunnel integrates with the (RhB) system, enhancing links to the national rail grid at points like Landquart and providing an all-weather alternative near the Austrian border. It plays a crucial role in mitigating seasonal disruptions, such as road closures over mountain passes during winter, thereby supporting year-round mobility for passengers and freight in this border-adjacent alpine region.

Tunnel Alignment and Portals

The Vereina Tunnel follows a curved alignment over its 19 km underground length, traversing beneath the Flüela Pass to connect the Prättigau and Lower valleys while adapting to the rugged terrain. This path allows the tunnel to navigate geological challenges, including varying rock formations and , without requiring steep inclines that could compromise operations. The design prioritizes a smooth trajectory to maintain consistent speeds for both passenger and vehicle services along the Vereina railway line. The north portal is situated near Klosters-Selfranga at an elevation of approximately 1,180 m, emerging in the Prättigau region where it integrates with local rail infrastructure. Access to this portal occurs via the nearby , enabling efficient entry for originating from Landquart or . In contrast, the south portal lies near Sagliains at an elevation of approximately 1,430 m, within the Lower valley, and connects through the to the broader network. These portal locations facilitate the tunnel's role as a vital link in the system, supporting year-round transport between the northern and southern regions. The tunnel's gradient profile features a maximum gradient of 14.8‰ ascending from the north portal and 4.8‰ descending to the south portal. This configuration rises from the north portal to a summit elevation of 1,463 m before descending to the south, ensuring operational efficiency for loaded car shuttles. At its deepest point, the tunnel reaches approximately 800 m below the surface, primarily under higher elevations like the Flüela Pass, which underscores the engineering adaptations to the mountainous overburden.

Technical Specifications

Dimensions and Engineering Features

The Vereina Tunnel spans 19,042 meters, rendering it the longest meter-gauge railway tunnel globally and a critical component of the Rhätische Bahn network in . This length accommodates both passenger services and car shuttle operations, with the alignment briefly referencing the portals at Klosters-Selfranga and Lavin for contextual orientation. The tunnel's single-bore configuration features a cross-section of approximately 40 m², varying slightly between segments excavated by (45.8 m²) and drill-and-blast methods (39 m²), optimized for meter-gauge tracks while incorporating emergency niches spaced every 500 meters to facilitate evacuation and maintenance access. Engineering solutions address environmental and safety demands through a longitudinal ventilation system employing jet fans distributed along the tunnel to ensure adequate , particularly vital for mixed traffic including vehicle-laden trains. management relies on systematic , with isolated inflows captured via drainage layers, drains, and half-pipes connected to a longitudinal collection , mitigating water ingress in this high-overburden setting (up to 1,500 meters). Geological conditions presented significant challenges, as the tunnel crosses fault zones primarily in gneiss and schist formations, including mica schist, feldspathic , and , necessitating robust measures. In weaker areas, a single-shell lining of wet-sprayed was applied, reaching thicknesses up to 30 cm, supplemented by rock bolting with glass-fiber-reinforced plastic bolts and occasional arch supports to stabilize the rock mass and prevent deformation. These features underscore the tunnel's innovative adaptation to narrow-gauge constraints while prioritizing structural integrity and operational safety.

Track Configuration and Electrification

The Vereina Tunnel utilizes a 1,000 mm meter-gauge track configuration, aligning with the (RhB) network's narrow-gauge standard to navigate the challenging efficiently. The layout consists of a single track extending the full length of the tunnel, classified as the world's longest single-track narrow-gauge tunnel at 19.1 km, which optimizes space while supporting mixed passenger, freight, and car shuttle operations. To accommodate bidirectional traffic on this single-track design, three passing loops are incorporated, totaling 1,200 m in length, allowing trains to pass or overtake as needed without requiring full double-tracking. Electrification is provided by the RhB's standard 11 kV, 16.7 Hz overhead , ensuring consistent power delivery for electric locomotives and multiple units traversing the tunnel. Substations positioned at both tunnel portals supply and regulate this high-voltage , mitigating voltage drops over the extended distance and maintaining operational reliability in the enclosed environment. This setup supports the tunnel's role as a vital link in the RhB , powering diverse types from regional services to heavy freight hauls. Train movements are governed by an automatic block signaling system employing axle counters for precise occupancy detection along the track sections, enhancing safety by preventing collisions in the single-track sections between passing loops. Centralized traffic control is managed from the RhB Operations Control Center in Landquart, where dispatchers monitor and coordinate all operations in real time to optimize flow through the tunnel.

Construction

Planning and Design Phase

The initial proposal for the Vereina Tunnel was presented in 1975 by the Rhaetian Railway (RhB) to its administrative board and the government of the canton of Graubünden, aiming to establish a year-round rail connection between the Prättigau and Engadin regions to bypass the seasonal closures of the Flüela Pass. This initiative addressed the need for reliable regional connectivity in southeastern Switzerland, where winter weather frequently disrupted existing routes. During the 1980s, comprehensive feasibility studies were undertaken, encompassing geological surveys to assess the challenging terrain, environmental impact evaluations, and cost-benefit analyses that projected total project costs at approximately CHF 670 million. These assessments confirmed the tunnel's viability as a single-track narrow-gauge railway link spanning about 19 kilometers, balancing economic benefits against potential ecological disruptions in the Vereina valley. Federal approval was granted in 1988, though legal challenges delayed final cantonal and federal permits until 1990. Key design milestones were achieved in 1989, when the final tunnel alignment was selected following detailed evaluations. The approval process culminated in 1990 with the granting of cantonal and permits, which incorporated measures to mitigate concerns regarding impacts on the local and .

Excavation and Building Techniques

Excavation of the Vereina Tunnel commenced on April 18, 1991, employing distinct methods from the north and south portals to accommodate the geological variations along the 19 km alignment. From the north portal at , the drive reached the breakthrough at approximately 7.4 km, with a (TBM) deployed on May 12, 1995, for about 9.5 km using an open-gripper TBM with a 7.64 m diameter, achieving advance rates varying from 4 to 30 m per day (average around 15-20 m/day in stable conditions including and ). From the south portal at Sagliains, the approximately 11.6 km drive was excavated via conventional , applying the (NATM) to ensure progressive support in weaker, faulted zones. Support and lining were implemented systematically to maintain stability during advance. In both TBM and NATM sections, initial stabilization relied on rock bolts spaced at regular intervals and layers of sprayed concrete () applied directly behind the face or cutterhead, typically 15-25 cm thick with steel fiber reinforcement for enhanced tensile strength. Secondary linings of were installed in the invert and crown, providing and load distribution, with the TBM sections featuring bolted precast segments initially before enlargement where needed. Significant challenges arose from water inflows in fractured and karstic zones, peaking at up to 250 l/s, which threatened advance rates and . These were mitigated through systematic pre-excavation grouting with cementitious mixtures to seal fissures ahead of the face, combined with probe drilling and galleries that reduced inflows to manageable levels below 50 l/s in most areas. The two drives met successfully on March 26, 1997, marking the breakthrough with a precise alignment deviation of only 50 mm longitudinally and 48 mm vertically, demonstrating the effectiveness of geodetic monitoring and adjustment during excavation.

History

Background and Development

Prior to the development of the Vereina Tunnel, transportation between the Prättigau and regions in relied heavily on the seasonal Flüela Pass road, which was frequently closed during winter due to heavy snowfall and risks, severely limiting year-round and economic activity. This dependence exacerbated supply chain vulnerabilities in the isolated valley, contributing to depopulation concerns and hindering regional growth in Canton Graubünden. The economic motivations for a more reliable connection centered on enhancing and within Graubünden, a region heavily dependent on seasonal visitors to alpine resorts and efficient goods movement to sustain local economies. As part of the (RhB)'s broader post-World War II expansion and modernization efforts, which included network upgrades following electrification initiatives in the early , the tunnel project aligned with strategies to bolster regional infrastructure and counter economic isolation. In the , increasing traffic demands on the existing Landquart-Thusis line highlighted the need for an alternative route to alleviate congestion and provide winter resilience, setting the stage for formal proposals. By , amid the global oil crises of the that underscored the efficiency of over , the RhB submitted five variants for a winter-safe , while the canton's Tiefbauamt proposed four options, marking the tunnel's initial conceptualization as a railway solution. Political support grew from cantonal authorities in Graubünden, with federal backing from the Eidgenössisches Verkehrs- und Energiewirtschaftsdepartement and figures like Bundesrat Leon Schlumpf, emphasizing benefits. Initial debates, pitting against road alternatives like Flüela renewal, were resolved by 1985, with the federal government committing 85% of costs (estimated at 455 million CHF in 1981 prices) and the canton covering the remaining 15% via public vote, which was approved by the cantonal populace on 22 September 1985, culminating in the Grosser Rat's approval of the Vereina variant in October 1984 by a 97:4 margin.

Completion and Inauguration

The final phases of construction for the Vereina Tunnel, encompassing track laying and electrification, were completed ahead of schedule in early 1999, enabling the start of extensive testing. Trial runs began in May 1999 with locomotives and progressed to full car transporter simulations by summer, including nighttime operations to assess rolling stability, ride quality, and braking under laden and unladen conditions. These tests continued until mid-November, confirming the tunnel's readiness for operational use. The official inauguration occurred on 19 November 1999, led by Swiss Federal Councillor and Minister of Transport , who highlighted the project's national significance in his address. The ceremony marked the culmination of eight years of work, six months early, and transitioned the infrastructure from construction to service. The first car shuttle ran on the , transporting vehicles through the 19-kilometer and offering immediate relief for regional travel, particularly amid winter closures of the avalanche-prone Flüela Pass. Public access to car carriers with added passenger seating followed over the subsequent weekend. Regular scheduled services commenced on 22 November 1999, achieving full operational capacity by December. In its inaugural full year of 2000, the tunnel facilitated the transport of approximately 300,000 vehicles, underscoring its rapid adoption for reliable cross-Alpine connectivity.

Operations and Services

Passenger and Regional Trains

The Vereina Tunnel serves as a key component of the (RhB) network, enabling efficient passenger rail services that connect the Prättigau region with the valley. Regional trains operate hourly in both directions between Platz and Sagliains, completing the 19 km tunnel transit in approximately 20 minutes, which significantly reduces travel time compared to alternative routes over mountain passes. These services run year-round, ensuring reliable connectivity regardless of seasonal weather conditions in the . The primary for these passenger services consists of RhB multiple units (class ABe 8/12), modern three-car electric trains designed for meter-gauge tracks with dual-voltage capability (11 kV 16.7 Hz AC and 1 kV ). Each unit provides 24 seats in and 76 in second class, accommodating up to 100 seated passengers, with additional for standing and accessibility features including low-floor entry and areas. These trains are well-suited for the tunnel's operational demands, having achieved speed exceeding 140 km/h within its straight sections during testing. Integration with the broader RhB system positions the Vereina route as an essential link in the hourly RegioExpress service between Landquart and Scuol-Tarasp, extending from via Landquart and through the tunnel to Sagliains, and onward to and Scuol-Tarasp in the Lower . This configuration offers a faster alternative to the UNESCO-listed Albula/Bernina route during maintenance or peak periods, while maintaining compatibility with standard RhB ticketing and the Swiss Travel System. To enhance the appeal for tourists, the passenger journey incorporates scenic elements outside the tunnel: approaching from , trains pass through the verdant Prättigau valley with views of alpine meadows and villages, while departing Sagliains provides glimpses of the historic landscape, including river valleys and traditional sgraffito-adorned buildings, before connecting to further panoramic segments toward . These services not only facilitate daily for residents between eastern and southeastern Graubünden but also attract sightseers seeking efficient access to the region's natural and cultural attractions.

Car Shuttle Operations

The Vereina car shuttle service, operated by the (RhB), facilitates bi-directional transport of vehicles through the 19 km tunnel, connecting Selfranga in Prättigau to Sagliains in . Trains depart every 30 minutes, starting from 5:20 a.m. at Selfranga (with the first from Sagliains at 5:50 a.m.), operating until approximately 8:50 p.m., with additional late services up to 9:20 p.m. on weekends, varying by season (as of the 2025 timetable), accommodating around 40 vehicles per train and completing the journey in 18 minutes. This service allows drivers to remain in their vehicles throughout the transit, eliminating the need for even in winter conditions. The loading process employs a drive-on/drive-off at the dedicated terminals in Selfranga and Sagliains, where vehicles are directed onto open or covered wagons by staff. Reservations for single journeys or value cards can be made online via the RhB website or app, or purchased spontaneously at ticket counters using various payment methods including credit cards and TWINT; value cards offer discounts up to 35% and are valid for five years. Passengers must follow loading instructions, such as retracting antennas and securing loads, to ensure safe transport. Eligible vehicles include cars, motorcycles (which must use covered wagons), and small vans up to 3.2 m in height and 3.5 tonnes in weight with no more than nine seats; larger vehicles like minibuses or lorries require special permits if exceeding 3.3 m corner height or 18 tonnes. Hazardous goods are strictly prohibited, and transport of items like flammable materials or certain chemicals is not permitted. Usage has grown steadily since operations began in late 1999, with approximately 300,000 vehicles transported in the first full year of 2000, rising to an estimated 500,000 by 2019—exceeding initial projections of 400,000 annually. Demand peaks in winter, when the service becomes the primary route due to closures of high mountain passes like the Flüela, handling record volumes such as 560,415 vehicles in 2024.

Freight and Maintenance Activities

The Vereina Tunnel accommodates freight trains operated by the (RhB), which transport goods between the Prättigau and regions as part of the railway's regional services. These operations complement passenger and car shuttle trains, utilizing the tunnel's single-track layout with passing loops to maintain efficient scheduling. Freight services connect to the RhB's broader network at Landquart, where to standard-gauge lines occurs, supporting the distribution of regional commodities. RhB freight through the Vereina Tunnel supports regional distribution, contributing to the company's overall annual freight volume of approximately 750,000 tonnes as of recent years. The RhB's overall freight volume, handled by dedicated wagons and locomotives, underscores the tunnel's role in short-haul rail logistics within Graubünden. Maintenance activities for the Vereina Tunnel involve regular infrastructure checks and repairs carried out by RhB teams, primarily during off-peak and nighttime hours to minimize service disruptions. This includes the use of specialized track-laying equipment for renewals and overhauls, ensuring the longevity of the 19 km single-bore structure. Post-2020 upgrades have focused on enhancing trackwork and related systems within the tunnel, building on plans announced around its 20th anniversary to improve operational reliability for all traffic types, including freight.

Significance and Impact

Economic and Touristic Role

The construction of the Vereina Tunnel generated significant employment opportunities in the region, contributing to local economic activity during its eight-year build phase from 1991 to 1999. While exact figures vary, the project involved substantial workforce mobilization typical of major infrastructure endeavors in Switzerland's regions. Post-completion, the tunnel has become a key revenue source for the (RhB), with net revenue from its car transport service reaching approximately CHF 17.5 million in 2024, up from CHF 16.7 million in 2023, driven by record vehicle volumes exceeding 560,000 annually. The tunnel plays a pivotal role in boosting tourism by providing reliable, all-season access to the valley resorts, bypassing seasonal road closures on alternatives like the Flüela Pass. This connectivity shortens travel times by about one hour compared to road journeys from the Prättigau to the Lower , enhancing visitor convenience and encouraging extended stays. It complements iconic routes such as the by offering efficient feeder links, facilitating broader exploration of Graubünden's scenic landscapes. Regionally, the Vereina Tunnel supports indirect employment for thousands in tourism-dependent sectors, with studies indicating growing job numbers in the Lower Engadin due to increased accessibility. Since its 1999 opening, it has contributed to sustained expansion in Graubünden, underscoring its role in fostering without inducing overdevelopment or traffic overload.

Safety, Environment, and Recent Developments

The Vereina Tunnel incorporates several safety features designed to ensure passenger and vehicle safety during operations. Emergency exits are provided at regular intervals along the tunnel to facilitate evacuation in case of incidents, in line with railway standards for long tunnels. In 2022, the (RhB) inaugurated two specialized fire and rescue vehicles, known as LöReF (Lösch- und Rettungsfahrzeug), stationed at the north portal in Selfranga and the south portal in Sagliains. These vehicles include a with a 25,000-litre temperature-controlled and space for 12 firefighters, alongside a capable of transporting up to 100 people per trip, enabling the evacuation of up to 200 individuals from each side of the tunnel. The RhB conducts regular safety exercises to maintain preparedness for potential emergencies. The tunnel's design minimizes surface disruption to the surrounding landscape, preserving natural habitats with limited visible infrastructure at the portals. Since the 2010s, emerging from the north portal in has been utilized for a geothermal district-heating system, supplying heat to local buildings and reducing reliance on fossil fuels; this initiative began providing at the end of 2015 as part of Klosters' network, which includes backup woodchip heating. Compared to road traffic over mountain passes, the rail shuttle through the Vereina Tunnel significantly lowers emissions, as it avoids the environmental costs of seasonal road closures and heavy vehicle use on winding routes. systems support air quality management within the tunnel, contributing to overall operational safety. In recent years, traffic through the Vereina Tunnel has remained stable and grown slightly, with 560,415 vehicles transported in 2024, marking an all-time high and surpassing earlier forecasts of around 500,000 annually. For 2025, routine maintenance activities are planned without necessitating full closures, ensuring continuous service; these include ongoing technical upgrades such as overhead conductor rail conversions to enhance reliability. The tunnel has operated without any major incidents or accidents reported since its 1999 opening, underscoring the effectiveness of its safety protocols. Sustainability efforts by the RhB include alignment of its broader environmental strategy with global frameworks like the to track and mitigate impacts on local ecosystems. These measures reflect the operator's commitment to low-impact operations in the sensitive region.

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