Coastal Highway Route E39 Project Overview

Project Briefing in Bergen 20 th January 2012 Coastal Highway Route E39 Project Overview Project Manager Olav Ellevset Norwegian Public Roads Administration (NPRA)

but challenges abound

The World s Longest.. Lærdal Tunnel (24.5 km) Nordhordland Floating Bridge (floating section 1246 m)

Topographic challenges require thinking «Outside the Box»

E39 Kristiansand-Trondheim about 1100 km E39 Ferry Link Kristiansand- Hirtshals in Denmark E39 connects with E45 in Aalborg, Denmark

8 Ferry Links remaining

Report No. 21 to the Storting (1994-95) Coastal Highway Kristiansand-Bergen-Trondheim Fixed links across the Boknafjord and Bjørnefjord are regarded as unrealistic in the foreseeable future A fixed link across the Sognefjord is regarded as unrealistic

The Ministry of Transport and Communications NPRA commissioned to: Establish the potential for trade and industry, employment and settlement patterns of a coastal highway with no ferry links Explore technological concepts for fjord crossings Assess renewable energy potential Implementation strategies and contracts

E39 Coastal Highway Project A knowledge project Four Components: Society Technology (Fjord Crossings) Energy Implementation Strategies and Contracts Approx 1100 km Concept approx size NOK 100 bn (Euro 13 bn)

The Society Component Managed by NPRA Central Region Good methods for estimating the impact on transport costs Harder to quantify the impact on national and regional economies larger areas of residence and employment long term structural changes

Key focuses for Society component New transport model for E39 at national and regional level Introducing new impact elements into socioeconomic analyses, like long term structural impacts of reduced travel time for Bergen-Haugesund-Stavanger (avearage wage raise) Northwestern Norway, Kristiansund-Molde-Ålesund ++ Long term changes in settlement patterns and trade and industries Searching for methods for assessing macroeconomic impacts

Travel time in hours, summary Current 20 21 New 12 13 Savings 7-9

AADT E39 Kristiansand - Trondheim

Fjord Crossings Component Managed by NPRA Western Region

Recent developments, floating bridges (Norway): Nordhordland Floating Bridge Opened 1994 End anchoring only Length of floating section: 1246 m Cable-stayed bridge across the ship channel Separate pontoons

New technology, yet not built Planned submerged floating tunnel (SFT) across the Høgsfjord Approved as the preferred link design (1998), but not built for political reasons Høgsfjord SFT: Length: 1400m Fjord depth: 155m Anchored to the seabed

Recent developments, offshore structures Ekofisk tank: 70 m depth (1973) Troll platform: 303 m depth (1995) Buoyant platforms (TLP) moored at depths of more than 1500 m

Halsafjorden Nordfjorden Moldefjorden Storfjorden Sognefjorden Bjørnafjorden Boknafjorden

E-39 Boknafjorden (ROGFAST) World s longest road tunnel (approx 25 km) Depth 380-400 m below sea level Two tubes (4 lanes) Detailed design ongoing that may enable start 2015

Halsafjorden Nordfjorden Moldefjorden Storfjorden Sognefjorden Bjørnafjorden Boknafjorden

Side-anchoring of floating bridges (Example: Bjørnafjorden 5-600m depth) Floating part Bjørnafjorden approx 5 km

Chained floating bridge accross Bjørnafjorden Aquator/Link Arkitektur, Stord Moving 2-300 m each side with tides

Corridor Concepts E39 south of Bergen

Halsafjorden Nordfjorden Moldefjorden Storfjorden Sognefjorden Bjørnafjorden Boknafjorden

Feasibility study how to cross the Sognefjord Lavik E39 Oppedal Extreme fjord crossing: Width: approx. 3.7 km Depth: over 1250 m, sudden deep waters approx. 1500 m to rock Sheltered from ocean waves Navigation channel required for large cruise ships

Objectives for the feasibility study: Determine, at the conceptual level, whether it will be technically possible to build a fixed link across the Sognefjord. Point out the most realistic solutions based on expected technological developments.

Conceptual design: Suspension bridge across the Sognefjord

Conceptual design: Suspension bridge across the Sognefjord

Conceptual design: Cable-stayed bridges on floating foundations

Conceptual design: Cable-stayed bridges on floating foundations. Anchoring of foundations.

Conceptual design: Floating bridge across the Sognefjord (mid-fjord navigation channel)

Conceptual design: Floating bridge across the Sognefjord (mid-fjord navigation channel)

Conceptual design: Floating bridge across the Sognefjord (navigation channel close to shore)

Conceptual design: Floating bridge combined with submerged floating tunnels close to shore

Conceptual design: Floating bridge combined with submerged floating tunnels close to shore

Conceptual design: Floating bridge combined with submerged floating tunnels close to shore

Conceptual design: Submerged floating tunnel across the Sognefjord

Conceptual design: Submerged floating tunnel across the Sognefjord

Further work Completing the feasibility study: Document the feasibility of the various solutions emerging from the idea phase Health and safety clarifications (construction phase, road users, shipping, structural collapse, etc.) Other factors such as costs, environmental impact, etc.

Consulting Groups Sognefjord Technical Feasibility Study Dr. ing. A. Aas Jakobsen AS, w/ Johs. Holt AS, COWI, NGI, Skanska, Tor Vinje, og Rolf Øyvind Johnsen Reinertsen/Olav Olsen Consortium, w/ Snøhetta, Rambøll, Faltinsen, Johansson, Arup og BergerABAM Sweco Norge AS, w/ Hans-Petter Brathaug AS, Instanes Polar AS og Anders Bleie Norconsult AS, w/ Haug og Blom-Bakke AS Multiconsult AS, w/ WSP Finland, Barlindhaug Consult AS, Akvator AS v/jan Soldal og L2 Arkitekter, Leonhardt, Andrä und Partner GmbH Stuttgart. LMG Marin AS, w/ Marintek, Teknisk Data AS, TDA, Smidt & Ingebrigtsen AS, SMIAS og Fondasol

The fjord crossing project Fjord crossings which were previously considered impossible without a ferry service now appear to be potential candidates for a fixed link in the reasonably near future. Progressing the project will depend on enthusiastic involvement and conscious effort invested by researchers, engineers and contractors, as well as politicians.

Halsafjorden Moldefjorden Storfjorden Nordfjorden Sognefjorden Bjørnafjorden Boknafjorden

Halsafjorden Nordfjorden Moldefjorden Storfjorden Sognefjorden Bjørnafjorden Boknafjorden

Concepts E39 Volda - Ålesund

Suspension Bridge E39 Storfjorden, Festøya-Solavågen (Fefast) Main span: 3400m Towers: 420m Separated carriageway: 2x(12,9m x 2,5m) Cost approx. 1,7 bn Euro (NOK 13,5 mrd) 420m 3400m

End-anchored floating bridge E39 Festøya- Solavågen (Fefast) accross Storfjorden Spans 3,5-4 km Cost approx. 800 mill Euro

Side-anchored floating bridge E39 Festøya- Solavågen (Fefast) the Storfjord

Suspension Bridge Sulesund-Hareid across the Sulafjord (Hafast) Lengde hovedspenn: 3100m Tårnhøgde: 390m Seglingslei: 300m x 70m Cost approx. 1,5 bn Euro (NOK 12 mrd) 390m 3100m

Conceptual design: Submerged floating tunnel with anchoring to the sea bed (Hafast) Sulafjord Tube location approx. minus 150 m

Floating Bridge accross the Sulafjord (Hafast) LMG Marine, Bergen Span 4 4,5 km

Conceptual design: Submerged floating tunnel with anchoring to the sea bed

Halsafjorden Nordfjorden Moldefjorden Storfjorden Sognefjorden Bjørnafjorden Boknafjorden

Ålesund Bergsøy Liabø KONSEPTER SOM UTREDES Susp bridge main span 1,6 km Subsea tunnel 13 km 55

Suspension Bridge Julsundet Main Span 1500 m 56

Halsafjorden Nordfjorden Moldefjorden Storfjorden Sognefjorden Bjørnafjorden Boknafjorden

Suspension Bridge Halsafjorden Main Span 2000 m

Suspension Bridge Halsafjorden Main Span 2000 m

Crossings Status Summary (1) Suspension bridges: Main spans: Hardanger bridge 1310 m Storebælt bridge 1624 m Akashi-Kaikyo Bridge 1991 m Messinastredet 3300 m Sulafjorden 3100 m Storfjorden 3400 m Julsundet 1500 m Halsafjorden 2000 m

Crossings Status Summary (2) Floating bridges: Nordhordland Bridge (Bergen): (floating part) 1246 m (separate pontoons, end-anchored) Evergreen Point Floating Bridge 2300 m (continous pontoon, side-anchored) Sulafjorden: 3700 m Storfjorden 3100 m Sekkfast 3300 m Halsafjorden 3000 m

Energy Component Managed by Road Safety, Environment and Technology Department, NPRA Headquaters Oslo Consider how bridge infrastructures can be utilised for producing energy from the renewable sources solar, tide currents, waves and winds. Explore also how the energy production potential may be utilised for the approximately 15,000 existing river bridges managed by the NPRA.

Potential for renewable energy in Norway* Wave Power is estimated 600 TWh/year Potential for development 12-30 TWh/year Tidal Power is estimated 1-2 TWh/year Wind power is estimated 14000 TWh/year The total energy consumption in Norway is: 228 TWh in 2008 (50% electricity) *Results from feasibility study report from ENOVA in 2007, Item No: 12502

La Rance Tidal Power Plant in France The world's first and also the world's second biggest tidal power Plant is a bridge Operated since 1966 Annual output 600 GWh 24x10 MW turbine 750 m long Max tide range of 13m

Examples of technological solution for various renewable energy sources

Examples of power plants for various renewable energy sources

Feasibility study The main objective is to assess the energy production potential and the accessible potentials with focus on coastal highway route E39. The study is divided in two separated part: Part 1. Technology survey for renewable energy associated to tidal power as waves and currents Part 2. Technology survey for renewable energy associated to wind and sun

The subproject Energy: Feasibility study will be performed by: Rambøll Norconsult SP (Technical Research Institute of Sweden) Workshop in Trondheim 19 th April 2012 (RERC Conference) Research topics for master students at universities (NTNU & Chalmers) PhD projects in the field at universities (NTNU & Chalmers)

Implementation Strategies and Contracts Component Consider suitable implementation strategies and types of contracts for a project of this size Financing options? PPP options? Ranking of individual projects? Contract sizes and packaging of projects? Dedicated management company for the project? Mr. Jan Eirik Henning will go into more details

Some other issues Earl stage Dialogue for implementation issues Corridor and formal planning status - huge challenge Relatively low sensitivity for road tolls Conflicts of interest Patent rights Road infrastructure combined utilization

In the 60-ies, who could imagine that structures would be located in the middle of the North Sea? The North Sea

The Ekofisk Tank: 70 m depth (1973) The Troll platform: 303 m depth (1995) Buoyant platforms (TLP) moored at depths of more than 1500 m

Thank you for your attention!