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Rogfast

Rogfast, officially the Rogaland Fixed Link, is a subsea road tunnel project under construction in Rogaland County, Norway, comprising the 27-kilometer-long Boknafjord Tunnel that will connect the municipalities of Randaberg near Stavanger and Bokn across the Boknafjord.^[1]^[2] The tunnel forms a key segment of the European route E39 coastal highway, contributing to Norway's national goal of eliminating ferry dependencies along the route to enhance connectivity and reduce travel times between western Norway and the north.^[1] Upon completion, expected in 2033, Rogfast will hold the records for the world's longest and deepest subsea road tunnel, extending 26.7 kilometers with a maximum depth of 392 meters below sea level.^[3]^[4] The project involves twin tunnels with a diameter of 10.5 meters, driven through bedrock approximately 15 meters apart, employing advanced tunneling techniques to navigate challenging geological conditions at extreme depths.^[5] Construction, awarded to contractors including Skanska for a contract valued at around NOK 5 billion, began with preparatory works and is advancing through simultaneous operations from multiple access points to meet the ambitious timeline.^[2]^[5] By replacing ferry services that currently handle significant traffic, Rogfast is projected to substantially cut journey durations, boosting economic integration in the region while demonstrating Norway's engineering prowess in subsea infrastructure.^[1]

Background and Proposal

Initial Planning and Approval (2017)

The Norwegian Ministry of Transport and Communications submitted Proposition No. 105 S (2016–2017) to the Storting on April 5, 2017, outlining plans for the construction and financing of the E39 Rogfast subsea tunnel project across the municipalities of Randaberg, Kvitsøy, and Bokn in Rogaland county.^[6] This proposition detailed the tunnel's role in establishing a ferry-free connection over Boknafjorden and Kvitsøyfjorden, spanning approximately 27 kilometers to link the Stavanger region with northern Rogaland.^[7] On May 23, 2017, the Storting approved the project, committing to an initial budget of 16.8 billion Norwegian kroner for the development, which included twin tunnels with a design speed of 110 km/h and a maximum depth of 392 meters below sea level.^[7]^[8] The approval emphasized the tunnel's integration into the broader E39 coastal highway initiative, projected to reduce travel time between Stavanger and Bergen by 40 minutes by eliminating ferry dependencies.^[7] At the time of approval, completion was targeted for 2025–2026, with early procurement activities initiated to select contractors for the ambitious subsea engineering feat.^[9] The planning phase in 2017 built on prior feasibility studies, focusing on route optimization, geological assessments, and environmental impact evaluations to ensure technical viability and regulatory compliance.^[6]

Strategic Context within E39 Highway

The European route E39 constitutes Norway's principal coastal highway, extending roughly 1,330 kilometers along the western seaboard from Kristiansand to Trondheim and linking major population centers including Stavanger, Haugesund, Bergen, and Ålesund.^[10] The route currently incorporates seven ferry services within Norway to traverse fjord barriers, resulting in operational delays, limited capacity, and susceptibility to meteorological interruptions that compromise punctuality and safety.^[11]^[12] Norway's Coastal Highway Route E39 initiative, overseen by the Norwegian Public Roads Administration, seeks to render the corridor ferry-free via subsea tunnels, bridges, and upgraded roadways, targeting a reduction in end-to-end travel duration from approximately 21 hours to 13 hours while elevating transport efficiency, reliability, and capacity for both passenger and freight movement.^[13]^[14] This transformation addresses longstanding infrastructural deficiencies in the fjord-dominated terrain, promoting economic integration across western Norway's disparate municipalities and bolstering resilience against ferry-dependent vulnerabilities.^[15] Rogfast forms an integral segment of this strategy, substituting the Mortavika–Arsvågen ferry with a 26.7-kilometer twin-tube subsea tunnel linking Randaberg municipality adjacent to Stavanger with Bokn, thereby establishing uninterrupted connectivity between southern Rogaland's energy sector hubs and northern coastal extensions of E39.^[16]^[17] By circumventing this pivotal fjord crossing, Rogfast mitigates a key temporal and logistical chokepoint, facilitating swifter regional linkages essential for industrial logistics, emergency response, and tourism along the E39's southern flank.^[18]^[19]

Project Timeline and Developments

Early Construction and Halt (2018–2019)

Construction on the Rogfast subsea tunnel began on January 4, 2018, marking the initial phase of site preparation and rock blasting at the planned entrance near Randaberg.^[20] These early activities involved establishing access points and preliminary excavation for the tunnel portals, serving as preparatory steps ahead of the main undersea boring contracts.^[21] By mid-2018, contracts for these initial packages had been awarded, with focus on surface-level infrastructure to support subsequent tunnelling.^[21] Progress halted in October 2019 when the Norwegian Public Roads Administration (Statens vegvesen) canceled the tender for the primary subsea tunnelling works. The decision stemmed from updated budgetary assessments revealing potential cost overruns, prompting a comprehensive procurement review to reassess contracting strategies and identify savings.^[22] Officials indicated that without adjustments, the project's escalating expenses—initially estimated at around 16.8 billion Norwegian kroner in 2017—threatened fiscal viability, leading to an indefinite postponement of major excavation.^[23] In November 2019, Statens vegvesen launched a full-scale audit to scrutinize all aspects of the project, including design, materials, and supplier bids, with the explicit goal of reducing overall expenditures.^[23] This halt preserved resources amid concerns over tender competitiveness and economic pressures, though it delayed the transition from preparatory phases to core tunnelling operations. No significant subsea advancement occurred during this period, as contracts for the 27-kilometer underwater segments remained unawarded.^[24]

Revisions and Restart (2020–2021)

In response to the October 2019 halt prompted by projected cost overruns exceeding initial estimates, the Norwegian Public Roads Administration initiated a thorough review of the Rogfast project throughout 2020.^[24] This assessment focused on procurement challenges, budgetary inaccuracies, and contracting inefficiencies that had inflated anticipated expenses.^[16] Key revisions included restructuring the main tunnelling phase into three distinct contracts—covering northern, central, and southern sections—alongside a separate agreement for the 3.5 km Kvitsøy spur tunnel, aiming to foster greater competition, reduce reliance on large consortia, and enable bids from smaller specialized firms.^[5] The updated plan also incorporated an enhanced cost estimate, raising the total project budget (encompassing the main tunnel and Kvitsøy link) to NOK 24.8 billion, reflecting adjusted forecasts for materials, labor, and risk contingencies.^[22] These modifications received governmental approval in late 2020, addressing prior underestimations in geological complexities and supply chain demands for the 26.7 km twin-bore subsea alignment.^[22] The revisions prioritized value engineering without altering core design specifications, such as the tunnel's 10.5 m diameter bores and maximum depth of 392 m below sea level.^[5] With the restructured framework in place, construction recommenced in autumn 2021, marking the start of the first major contract for the southern tunnel section from Randaberg.^[18] This restart aligned with the broader E39 coastal highway goals, extending the projected completion to 2033 while incorporating phased operations from multiple portals to mitigate risks in the challenging Boknafjord geology.^[1] Subsequent contracts for the remaining sections followed in 2022–2024, validating the 2020 adjustments' effectiveness in stabilizing the timeline.^[16]

Ongoing Construction (2022–Present)

Following the revisions and restart in prior phases, major construction contracts for the Rogfast tunnel's primary sections were awarded starting in late 2022. On December 12, 2022, Skanska secured a contract valued at approximately NOK 5 billion (about SEK 5.2 billion) for a significant subsea portion, with work commencing in the first quarter of 2023 and targeted completion by the third quarter of 2029.^[2] This was followed by the signing of the second major contract on January 6, 2023, worth NOK 4 billion, awarded to Implenia Norge for additional tunneling works.^[25] ^[7] The third and largest contract, valued at NOK 6.238 billion, was signed on June 11, 2024, with the joint venture Implenia Norge AS and Stangeland Maskin AS for the E02 Kvitsøy section—the most complex part of the project, encompassing an 8.8 km two-way tunnel with a 10.5 m cross-section.^[26] ^[27] ^[28] Tunneling operations on this section began with the first blasting (salve) in November 2024, marking the initiation of excavation at this critical midpoint junction site.^[7] By late 2023, blasting and excavation were advancing at multiple access points along the 26.7 km route, enabling simultaneous operations across sections to accelerate progress.^[16] ^[5] In September 2025, Epiroc deployed advanced tunneling intelligence systems, including automated drilling and real-time data analytics, to enhance efficiency and safety in the joint venture's operations.^[29] As of October 2025, construction continues without reported major interruptions, with the project on track for opening in 2033, though subject to ongoing monitoring for geological challenges at depths up to 392 m below sea level.^[30] ^[31]

Design and Engineering

Route and Physical Specifications

The Rogfast project centers on the Boknafjord Tunnel, a subsea road connection spanning 26.7 kilometers under the Boknafjord in Rogaland County, Norway. It links Harestad in Randaberg municipality—near Stavanger—to Laupland in Bokn municipality, forming a key segment of the E39 coastal trunk road.^[1] This route bypasses existing ferry services across the fjord, integrating with surface roads and shorter tunnels at each end to create a continuous highway link.^[19] The tunnel comprises twin parallel tubes, each with a 10.5-meter excavated diameter and separated by approximately 15 meters of rock, designed for bidirectional two-lane traffic.^[5] ^[32] Its maximum overburden reaches 392 meters below sea level at the deepest point, surpassing previous subsea road tunnels in depth.^[19] ^[33] The overall underwater portion totals about 27 kilometers across two main sections, with an additional 4-kilometer branch tunnel serving Kvitsøy island.^[1]

Construction Techniques and Innovations

The Rogfast tunnels are primarily excavated using the drill and blast method, a standard technique in Norwegian subsea tunneling due to the favorable hard rock conditions. Jumbo rigs drill blast holes, followed by controlled blasting, with excavated material loaded by conventional machines and transported by trucks for disposal.^[34]^[13] This method is preferred over tunnel boring machines for its flexibility in navigating geological variations, though it requires rigorous safety protocols under high hydrostatic pressures reaching 392 meters below sea level.^[35] A key innovation involves simultaneous advancement from both tunnel portals, with separate teams drilling and blasting toward a central breakthrough point, optimizing progress on the 26.7-kilometer main bores. Extensive pre-drilling and pre-grouting extend 25 meters ahead of the faces to seal fractures and control water ingress, maintaining a minimum 50-meter rock cover above the tunnel to the seabed.^[34] Probe drilling up to 50 meters in various configurations further assesses and mitigates risks from weakness zones. Advanced digital tools enhance efficiency and safety, including Epiroc's Tunneling Intelligence system, which provides real-time 3D visualization, machine tracking, and operational reporting to support proactive adjustments at the faces.^[36] Construction of deep infrastructure elements, such as 250-meter ventilation shafts with 10-meter diameters, employs mine shaft sinking technology adapted for road tunnels.^[34] The project's underground junction at Kvitsøy, featuring a spiral ramp and roundabout at 250 meters depth, represents a novel engineering feat, integrated via drill and blast with precast concrete elements for the inner lining. Cross passages spaced every 250 meters facilitate emergency evacuation and ventilation.^[34]^[1] Overall, these techniques incorporate 3D BIM modeling for precise design and execution, minimizing environmental impact through targeted grouting and sustainable spoil disposal at sea.^[1]

Safety and Risk Mitigation Features

The Rogfast tunnel incorporates a twin-tube design, consisting of two parallel tubes—one for each direction of traffic—connected by safety galleries at regular intervals to facilitate emergency evacuation and cross-ventilation in the event of incidents such as fires or accidents.^[16]^[37] This configuration allows traffic in one tube to continue while the other is isolated for response, mitigating risks associated with the tunnel's extreme length of 26.7 km and maximum depth of 392 meters below sea level.^[38]^[36] Risk assessments have been integral to the project's design, addressing uncertainties in geotechnical stability, fire propagation, and user safety through quantitative analysis and scenario modeling, including probabilistic evaluations of rare events like structural failures or evacuation challenges.^[39]^[40] The maximum longitudinal gradient has been limited to 5% to reduce braking distances for heavy vehicles during descent and ascent, a revision from initial proposals to enhance controllability and prevent runaway incidents informed by lessons from prior Norwegian tunnel projects.^[39] Technical safety features include advanced tunnel ventilation systems designed for smoke extraction and air quality maintenance during emergencies, alongside emergency preparedness protocols that integrate real-time monitoring for seismic activity, water ingress, and traffic anomalies.^[1] Fire risk mitigation draws from broader road tunnel standards, emphasizing compartmentation via the twin tubes and cross passages to contain hazards and enable rapid response, with non-acceptable risks addressed through supplemental measures beyond baseline regulations.^[41]^[1] These elements collectively aim to achieve safety levels comparable to or exceeding those of existing subsea tunnels, despite the unprecedented scale.^[39]

Economic and Regional Impacts

Transportation and Time Savings

The Rogfast tunnel will establish a direct subsea road link across the Boknafjord as part of the E39 coastal highway, replacing the Mortavika–Arsvågen ferry and enabling continuous vehicular travel without interruptions.^[16] This eliminates ferry crossing times, typically 25–30 minutes plus waiting periods, and reduces route detours, thereby streamlining transportation along Norway's western coast.^[42] For regional journeys, Rogfast is projected to shorten travel time between Stavanger and Bergen by up to 40 minutes, enhancing connectivity between Rogaland and Vestland counties.^[16]^[38] In the context of the full E39 upgrades, which include multiple tunnel and bridge projects to remove all ferries, Rogfast contributes to reducing the end-to-end route time from Trondheim to Kristiansand from approximately 21 hours to 10.5–11 hours.^[42]^[10] These time savings apply to both passenger vehicles and freight transport, fostering more efficient logistics by minimizing delays from ferry schedules and weather disruptions.^[18] The all-weather reliability of the tunnel route supports increased road-based mobility, potentially diverting traffic from air and sea alternatives and promoting economic integration across fjord-divided regions.^[43]

Broader Economic Benefits and Costs

The Rogfast project is projected to enhance regional economic integration by expanding effective labor and housing markets between the Nord-Jæren and Haugalandet regions, enabling greater workforce mobility and residential options that could alleviate housing pressures in urban areas while supporting rural economies.^[44] Improved goods transport along the West Coast is anticipated to lower logistics expenses for key industries, including seafood production and oil-related activities, which dominate the surrounding economy and rely on efficient coastal connectivity to access domestic and export markets.^[16]^[3] These factors contribute to a positive socio-economic net present value of 9,338 million Norwegian kroner (in 2016 prices), as determined by external quality assurance analyses, indicating overall profitability over a 75-year lifespan despite sensitivity to traffic volumes.^[44]^[45] Additional benefits include boosted tourism through shorter, more reliable access to fjord regions and islands like Kvitsøy, potentially increasing visitor numbers and local service sector revenues by making the area more attractive for day trips and extended stays.^[16]^[18] Construction activities have generated temporary employment in engineering, tunneling, and support services, though long-term job gains are expected primarily from induced economic activity in connected industries rather than direct operational roles.^[38] On the cost side, the project demands substantial upfront capital, with recent estimates reaching 25 billion Norwegian kroner (approximately €2.3 billion), financed via government allocations and tolls that necessitate elevated rates—potentially up to 330 NOK per light vehicle crossing—to cover financing over 20 years, which could burden users and industries if traffic projections underperform.^[37]^[46] Opportunity costs arise from diverting public funds from alternative infrastructure, and while socio-economic analyses affirm net gains, they incorporate assumptions on discount rates and benefit attribution that external reviewers have scrutinized for optimism in non-time-saving effects.^[44]

Controversies and Criticisms

Financial Overruns and Funding Debates

The Rogfast project, approved by the Norwegian Storting in May 2017 for construction and financing as part of the E39 coastal highway upgrades, initially faced budgetary challenges that halted progress. In December 2019, a major contract worth billions was canceled after costs exceeded estimates by 1 billion NOK, prompting Statens vegvesen to reject the bids and delay tendering.^[47] By April 2020, updated projections revealed overruns surpassing the original 18.6 billion NOK framework by over 6 billion NOK, pushing the total toward 24.6 billion NOK or more, which led Samferdselsminister Knut Arild Hareide to suspend the project for parliamentary review.^[48] Funding for Rogfast relies on a combination of national government allocations, regional guarantees, and anticipated toll revenues, sparking debates over fiscal responsibility and inter-regional equity. Rogaland fylkeskommune provided a 16 billion NOK guarantee in April 2018 under state pressure to avert stalling, despite initial resistance, as the central government conditioned progress on such commitments.^[49] The Storting greenlit revised financing in November 2020 at 24.8 billion NOK, with state contributions covering a significant portion alongside tolls projected at approximately 350 NOK per crossing to recoup costs over decades. Critics, including opinion leaders, questioned the value of time savings—estimated at 40 minutes for key routes—against the ballooning expense, labeling it a potential "money pit" amid competing national priorities.^[50] Political contention intensified around perceived disparities in project handling, with Senterpartiet's Geir Pollestad decrying the 2020 halt as a "scandal" and arguing that equivalent overruns in Oslo-area initiatives would not trigger similar scrutiny or delays.^[48] FrP's Roy Steffensen highlighted further escalations in June 2024, noting a four-year delay and additional 2 billion NOK in costs, warning of rising tolls and urging faster execution to mitigate inflation-driven overruns.^[51] Despite these, a parliamentary majority, including cross-party support in the Transport Committee, reaffirmed commitment to rapid advancement in June 2020, prioritizing regional connectivity over immediate fiscal tightening, though Miljøpartiet De Grønne advocated stricter oversight to curb unchecked spending.^[52] By 2025, estimates stabilized around 25 billion NOK, reflecting adjustments for construction complexities but underscoring persistent risks in mega-infrastructure budgeting.^[16]

Safety, Environmental, and Operational Concerns

Safety concerns for the Rogfast tunnel stem primarily from its unprecedented length of approximately 27 kilometers and maximum depth of 392 meters below sea level, which introduce uncertainties in risk management, particularly for fire incidents and structural integrity under high hydrostatic pressure.^[39] Risk assessments conducted during the design phase have emphasized the need to quantify and mitigate these uncertainties, as deviations from standard European fire safety requirements could render certain scenarios unacceptable without compensatory measures.^[41] Norwegian emergency response personnel have demonstrated gaps in tunnel fire competencies, including pre- and post-incident handling, which could exacerbate risks in a subsea environment where external access is limited.^[53] Evacuation poses specific challenges due to the self-rescue principle relied upon in Norwegian tunnel design, with large uncertainties in smoke propagation, visibility impairment, and tenability limits over extended distances.^[54] The twin-tube configuration, with tubes 15 meters apart, enables redundancy by allowing traffic diversion during incidents in one tube, while advanced ventilation systems aim to isolate affected areas through directional airflow and smoke extraction.^[1] ^[34] Construction-phase fire risks, such as those from battery-electric dump trucks involving lithium-ion thermal runaway, have been modeled using tools like Fire Dynamics Simulator, indicating potential hazards near ignition sources but mitigable through zoning and suppression protocols.^[55] Environmental concerns during construction include temporary marine sediment disturbance from tunneling and blasting, though the enclosed design minimizes long-term ecological disruption compared to ongoing ferry operations it replaces.^[31] Approximately 20 million cubic meters of excavated rock will be repurposed for coastal land reclamation, reducing waste disposal impacts and aligning with Norwegian sustainability practices in tunneling.^[18] ^[56] The project incorporates recycled materials, such as steel fibers for concrete reinforcement, to lower the carbon footprint of construction elements.^[57] Operationally, maintaining ventilation and air quality over the full length presents ongoing challenges, requiring robust systems for both routine traffic emissions and emergency smoke control, with the tunnel's scale demanding real-time monitoring and automated adjustments.^[1] The inclusion of a roundabout at the island of Kvitøy offers potential for enhanced maintenance access and traffic management, but the extreme depth complicates routine inspections and repairs, necessitating specialized subsea intervention techniques.^[58] Twin-tube redundancy supports continuous operation during closures for upkeep in one tube, though high traffic volumes post-completion—projected to exceed 10,000 vehicles daily—could strain capacity without adaptive controls.^[38]

Nomenclature

Origin and Meaning of "Rogfast"

"Rogfast" derives from the Norwegian term Rogaland fastforbindelse, where "Rogaland" denotes the southwestern county encompassing the project's endpoints, and fastforbindelse signifies a permanent infrastructural linkage.^[59] This nomenclature emerged during early planning phases in the 2010s as part of Norway's broader initiative to eliminate ferry dependencies on the E39 highway, emphasizing durable subsea alternatives over seasonal maritime routes.^[59]^[60] The term fastforbindelse literally translates to "fixed connection" or "fixed link" in English, highlighting the tunnel's role in providing a reliable, weather-independent crossing beneath the Boknafjord and Kvitsøyfjorden, in contrast to existing ferry operations that connect Randaberg near Stavanger to the island of Bokn.^[59]^[16] This fixed-link concept underscores causal engineering priorities: reducing transit vulnerabilities to fjord conditions while integrating regional economies through consistent vehicular access.^[1] Similar abbreviations appear in proximate Norwegian projects, such as Ryfast (Ryfylke fastforbindelse), a completed subsea tunnel system operational since 2019, reflecting a standardized terminological pattern for fixed coastal infrastructure in fjord-dominated terrains.^[59] The adoption of "Rogfast" thus encapsulates both geographic specificity and functional intent, with formal approval tied to the Norwegian Public Roads Administration's (Statens vegvesen) project designation in national transport plans post-2010.^[37]

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[45]
Prop. 54 S (2020–2021) - Regjeringen.no
Statens vegvesen har sommaren 2020 gjennomført ein ny berekning av kostnader for prosjektet E39 Rogfast. Det er gjennomført nokon mindre endringar i ...Missing: stopp | Show results with:stopp
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E39 Rogfast er samfunnsøkonomisk lønnsom, men krever høye ...
Dec 21, 2016 · Finansieringen av prosjektet krever uvanlig høye bomsatser. Det er lav sannsynlighet for å få finansiert prosjektet i løpet av en 20 års ...
[47]
Milliard Rogfast-kontrakt er avlyst - Samferdsel & Infrastruktur
Dec 2, 2019 · Rogfast-prosjektet koster èn milliard mer enn det Statens vegvesen regnet med. Vegdirektøren har derfor sagt nei til Rogfast-kontrakten og ...Missing: budsjett overskridelser finansiering
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Sprekk på 6 mrd. utsetter Rogfast: – Skandale, mener Senterpartiet
Apr 29, 2020 · Pollestad fra Sp mener tilsvarende overskridelser i prosjekter nærmere hovedstaden aldri hadde ført til stans i arbeidet og ny ...Missing: budsjett finansiering
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Bøyer seg for staten: Gir milliardgaranti til Rogfast – NRK Rogaland
Apr 17, 2018 · Byggingen av verdens lengste undersjøiske tunnel sto i fare for å stoppe opp, da staten ikke ville garantere 16 milliarder til prosjektet.Missing: budsjett overskridelser finansiering
[50]
Trenger vi å spare et kvarter gjennom pengesluket Rogfast? Nei
Dec 9, 2020 · Med Rogfast snakkes det om en investering på rundt 25 tusen millioner. Da må det være legitimt å stille spørsmålet: Bilistene får svi.Missing: finansiering | Show results with:finansiering
[51]
Veien blir 4 år forsinket og 2 milliarder dyrere: – Helt uforståelig
Jun 24, 2024 · Etter over fire års ventetid er prosjektet endelig i gang igjen. Det skal koste 6,2 milliarder - over to 2 milliarder mer enn vegvesenet først ...Missing: stopp | Show results with:stopp
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Ingen Rogfast-avklaring før sommeren - men stortingsflertallet vil ...
Jun 5, 2020 · Rogfast kan kuttes med fire milliarder kroner - prosjektet må allikevel opp i Stortinget på nytt. Forsvarlig finansiering. I en pressemelding ...Missing: budsjett | Show results with:budsjett
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A review of competencies in tunnel fire response seen from the first ...
This study has revealed tunnel fire safety concerns related to the Norwegian emergency response personnel's state of competence both in the pre- and post- ...<|separator|>
[54]
Communicating Efforts in Emergencies and Tunnel Users' Learning
Current expectations to evacuation is based on the self-rescue principle. For many tunnel designs, there are large uncertainties related to evacuation in the ...
[55]
Fire risk and process impact study of battery-electric dump trucks at
Analyses at Rogfast E02 by means of the Fire Dynamics Simulator (FDS) have indicated that, tenability limits for persons located in proximity of battery- ...
[56]
[PDF] Sustainability in Norwegian Tunnelling
During early planning of new infrastructure projects and, renewal of older infrastructure, a careful evalu- ation of route is vital. The route affects not ...
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Rogfast - Case studies - Fibres | KrampeHarex - krampe harex
The Rogaland Fixed Link, commonly known as Rogfast, is one of Norway's most extensive infrastructure projects, involving the construction of a subsea road ...
[58]
UiS Brage: Maintenance Concept Study for Deep Subsea Tunnels
Rogfast will be the deepest and longest underwater tunnel in the whole world and it is currently in the middle of the project phase. The case study has focused ...Missing: concerns | Show results with:concerns
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Norwegian nous - Tunnels
Sep 19, 2016 · The name Rogfast is an abbreviation for the Norwegian name “Rogaland fastforbindelse”, translated in English as the “Rogaland fixed link”.
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400 feet underground, here is the world's deepest new tunnel ...
Sep 18, 2025 · This is the Rogfast project, for Rogaland fastforbindelse, or “Rogaland fixed link”. It involves the construction of a 26.7-kilometre-long ...