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Troll A platform

The Troll A platform is a Condeep gravity-based offshore natural gas production and processing facility located in the Troll field in the northern North Sea, approximately 65 km west of Kollsnes near Bergen, Norway, in water depths of 300-330 meters.^[1]^[2] Operated by Equinor since 1996, it serves as the central hub for gas extraction and compression from the Troll Øst reservoir, which holds about two-thirds of the field's total recoverable gas reserves of approximately 1,437 billion standard cubic meters, with overall field recoverable resources of around 1,600 billion sm³ oe.^[1]^[2]^[3] Installed in May 1995 after being towed from a Norwegian fjord, the platform stands 472 meters tall from seabed to top, making it the tallest structure ever moved by humans, with a dry weight of 656,000 tons and a ballasted towing weight of 1.2 million tons.^[4]^[1] The Troll field was discovered in 1979, with commercial viability declared in 1983 and unitization approved in 1985; the initial plan for development and operation (PDO) was submitted in 1986 and revised in 1990 to focus on gas production via Troll A.^[2]^[1] Construction of the platform's gravity base structure (GBS) began in the early 1990s at sites in Hinnavågen and Vats, Norway, using 250,000 cubic meters of concrete and 100,000 tonnes of reinforcement steel, marking it as the last such concrete gravity base built for the Norwegian Continental Shelf (NCS).^[4] The platform was towed out to sea over seven days at a speed of 1-2 knots and positioned on 17 May 1995, with gas production commencing on 19 September 1995 and first deliveries to Europe starting on 1 October 1996, processed at the onshore Kollsnes facility and exported via pipelines such as Zeepipe.^[2]^[4] Equinor assumed operatorship from Norske Shell on 19 June 1996, with ownership shared among Equinor (30.55%), Petoro (55.93%), and other partners including TotalEnergies and ConocoPhillips.^[1]^[2] Engineered as a fixed wellhead and compression platform with four massive concrete legs over 1 meter thick, Troll A features 39 subsea wells connected via manifolds and is designed for a 70-year production life from reservoirs 1,330-1,400 meters below sea level.^[2]^[1] It was the first NCS platform to be supplied with shore-based power since its startup in 1996, enabling zero CO2 and NOx emissions from operations, and has undergone upgrades including gas compression capacity increases in 2004-2005, 2015, and electrification projects for Troll B and C platforms, completed in 2024, to further reduce emissions by about 90,000 tonnes of CO2 annually.^[1]^[5] The platform's design supports pressure depletion extraction and includes four shore-powered compressors to maintain output as reservoir pressure declines.^[1]^[2] Troll A processes gas from the Troll field, which achieved a record 42.5 billion standard cubic meters of natural gas production in 2024, an increase of nearly 10% from prior years, supported by upgrades to the onshore Kollsnes processing plant raising daily capacity from 144.5 million to 156 million standard cubic meters.^[6] Peak gas production has reached 129 million standard cubic meters per day following recent investments, with oil production from the adjacent Troll Vest area historically exceeding 400,000 barrels per day in 2002 via horizontal wells.^[7]^[1] The field remains a cornerstone of Norway's energy exports, with cumulative investments of 247.7 billion NOK through 2023 and projected future spending of 38.2 billion NOK from 2024 onward, including a new gas export solution planned for 2025. This includes the new gas export solution from Troll B to the Kvitebjørn pipeline, approved in 2025, to maintain high production levels.^[2]^[8]

Background

Troll Field Overview

The Troll field is one of Europe's largest natural gas reserves, situated in the northern North Sea approximately 65 km west of Kollsnes near Bergen, Norway, in water depths of 300-330 meters.^[9]^[10] The field spans production licenses in blocks 31/2, 31/3, 31/5, and 31/6. Discovered in 1979 by well 31/2-1 drilled by Shell, it consists of two main structures: Troll Øst and Troll Vest, with reservoirs primarily in the Late Jurassic Sognefjord Formation and Middle Jurassic Fensfjord Formation sandstones at depths of around 1,330–1,360 m.^[11]^[1] The geology features a substantial gas cap up to 200 m thick overlying a thin oil column of 22–26 m in Troll Vest and 0–9 m in Troll Øst, making it a prime example of a gas-capped oil reservoir in the region.^[2] The field's recoverable reserves total 1,437 billion standard cubic meters (Sm³) of gas and 298.5 million Sm³ of oil, equivalent to approximately 1.88 billion barrels of oil, along with associated natural gas liquids of 21.5 million tonnes.^[11] These resources position Troll as holding about 40% of Norway's total gas reserves on the Norwegian continental shelf, with overall field reserves estimated at 1.8 trillion cubic meters of natural gas and 2 billion barrels of oil.^[1]^[9] About two-thirds of the recoverable gas is located in Troll Øst, while the oil is concentrated in Troll Vest. The development has proceeded in phases: Phase 1 focuses on gas recovery from Troll Øst via the Troll A platform; Phase 2 targets oil production from Troll Vest using subsea templates tied to floating platforms Troll B and C; and Phase 3 involves gas extraction from the Troll Vest gas cap since 2021, alongside continued oil production supported by pressure maintenance measures.^[11]^[2] The field is operated by Equinor Energy AS, which holds a 30.55% stake, with principal partners including the state-owned Petoro AS (55.93%), A/S Norske Shell (8.18%), TotalEnergies EP Norge AS (3.69%), and ConocoPhillips Skandinavia AS (1.64%).^[2] Troll A serves as the central processing unit for the field's gas production in Phase 1.^[1]

Project Development

The Troll field was discovered in 1979 by exploration well 31/2-1, drilled by Norske Shell in the northern North Sea.^[9] This initial find revealed substantial gas reserves underlying a thin oil layer, prompting further appraisal to assess commercial viability. Between 1980 and 1993, 20 appraisal wells were drilled, confirming the field's extensive hydrocarbon volumes and leading to its declaration as commercial in 1983.^[9] These efforts established the Troll field's connection to vast gas reserves, estimated at over 1,300 billion cubic meters recoverable, making it one of Europe's largest offshore discoveries.^[2] Development planning advanced through collaboration among licensees, including Norske Shell as operator, Statoil, and others, culminating in the submission of the initial Plan for Development and Operation (PDO) in the mid-1980s. The Norwegian Parliament approved the PDO in December 1986, greenlighting the first phase focused on gas production from Troll East. The PDO was revised in 1990 to emphasize gas production from Troll Øst using the Troll A platform.^[1] Key to this approval was the decision to employ a Condeep gravity-based structure for the Troll A platform, selected over floating alternatives due to the site's 300-meter water depth and underlying soft seabed, which demanded a stable, fixed foundation to mitigate instability risks.^[12] Engineering milestones included the signing of the Troll field unitization agreement in September 1986, formalizing resource allocation among partners. Contracts for detailed engineering and base construction were awarded to Norwegian Contractors later, with work commencing in 1991. The total project cost for Troll A development reached approximately $4.79 billion (about NOK 36 billion at 1996 exchange rates), reflecting the scale of investment in this pioneering deepwater installation.^[13] Planning addressed significant challenges, including seabed instability from soft clay layers, necessitating deep skirts on the gravity base for secure penetration—ultimately achieving 36 meters into the soil upon installation.^[14] Environmental impact assessments were integral to the PDO process, evaluating potential effects on North Sea marine ecosystems, water quality, and fisheries from drilling, construction, and operations, in line with Norway's regulatory framework for offshore activities.^[15]

Design and Engineering

Structural Design

The Troll A platform employs a Condeep gravity-based structure (GBS), characterized by a concrete substructure topped with steel processing facilities, forming a four-legged tower configuration supported by 19 concrete caisson cells for foundational stability. This design leverages the inherent mass of the concrete base to provide resistance against overturning forces, making it suitable for fixed installations in challenging marine environments. The Condeep concept, developed by Norwegian engineering firms, emphasizes modular concrete construction that allows for on-site ballasting and precise positioning.^[16]^[17] A key innovation in the platform's architecture is its slender base profile, optimized for deepwater deployment with a towing draft of approximately 226 m, which facilitates towing to the installation site while minimizing hydrodynamic drag during transit. Upon arrival, a seawater ballast system fills dedicated cells within the base, increasing displacement to sink the structure onto the seabed and achieve geotechnical stability on the Troll field's soft, silty clays. This approach incorporates concrete skirts beneath the base to penetrate and anchor into the soil via suction and friction, extending the viability of GBS designs to sites with poor foundation conditions where driven piles would be impractical or costly. Seismic and ice loading were given minimal emphasis in the design due to the North Sea's relatively low tectonic activity and absence of significant ice cover.^[18]^[19] The structural design incorporates load-bearing calculations tailored to extreme North Sea conditions, rated for 100-year return period storms with maximum significant wave heights up to 20 m and wind speeds of 42 m/s, ensuring operational integrity under combined hydrodynamic, aerodynamic, and gravitational forces. Damping mechanisms within the cells further mitigate wave-induced motions. The concrete base directly supports integrated steel topsides modules for gas compression, separation, and initial treatment, enabling efficient processing of up to 120 million cubic meters of gas per day before export through a dedicated subsea pipeline to the Kollsnes onshore facility. This integrated architecture optimizes space and weight distribution, enhancing overall platform efficiency in the field's 303 m water depth and variable soil profile.^[20]^[1]

Dimensions and Specifications

The Troll A platform stands as an engineering marvel with an overall height of 472 meters, making it the tallest structure ever moved by humankind. Its gravity-based substructure features a base diameter of 93 meters and four concrete legs forming a substructure approximately 369 meters tall from the base to the topsides interface, designed to reach the seabed in 303 meters of water depth. The topsides module rises 36 meters high and weighs approximately 30,000 tons. These dimensions enable the platform's legs to penetrate the soft seabed, providing necessary stability against environmental loads.^[1]^[21]^[4] The platform's dry weight totals 656,000 metric tons, while its fully ballasted displacement reaches 1.2 million tons to facilitate towing and installation. The concrete volume in the gravity base structure (GBS) is 250,000 cubic meters, contributing to its massive scale and load-bearing capacity.^[22]^[4]^[23] In terms of production capacity, Troll A is equipped to process up to 121 million standard cubic meters of gas per day, with provisions for handling up to 100,000 barrels of oil per day, though its primary role focuses on gas and associated condensate. The platform includes facilities supporting efficient export operations.^[7] The base utilizes high-strength concrete with a compressive strength exceeding 50 MPa—specifically achieving at least 75 MPa in modified normal density mixes—to withstand deep-water pressures and long-term durability. The topsides employ corrosion-resistant steel alloys to combat the harsh North Sea environment, ensuring operational integrity over the platform's 70-year design life.^[24]^[25]

Construction and Installation

Construction Process

The construction of the Troll A platform's gravity base structure (GBS) commenced in the summer of 1991 at the Hinnavågen yard in Stavanger, Norway, under the direction of Norwegian Contractors—a consortium now integrated into Aker Solutions—for operator Norske Shell.^[26] The project utilized a dry dock for the initial pouring of approximately 250,000 cubic meters of reinforced concrete, forming the platform's innovative Condeep design with 19 cylindrical cells arranged in a ring configuration for buoyancy and stability.^[4] This phase, spanning 1991 to early 1995, involved meticulous vertical assembly of the four massive legs and central shafts, each exceeding 300 meters in length, to support the platform's extreme draft requirements in 303 meters of water depth.^[19] Parallel to the GBS work, the topsides—comprising processing modules for gas compression, separation, and utilities—were fabricated in separate modules at facilities including Aker Stord, with integration planned for later mating.^[26] The GBS was towed from Stavanger to the Yrkesfjord at Vats in Rogaland for final outfitting and loadout preparations, where the structure underwent rigorous testing and ballast adjustments.^[21] At its peak, the construction effort employed around 2,000 workers, highlighting the scale of coordination required for this landmark engineering endeavor.^[19] Key milestones included the completion of the GBS concrete works by 1994 and the full platform assembly at Vats later that year, setting the stage for subsequent offshore operations.^[21] Significant challenges arose during construction, particularly in achieving precise alignment of the 19 cells to ensure structural integrity under immense loads, as even minor deviations could compromise the platform's stability.^[26] Additionally, quality control for concrete curing proved demanding in Norway's harsh coastal weather, necessitating advanced monitoring techniques to prevent defects from temperature fluctuations and moisture exposure while maintaining the high-strength properties essential for deepwater deployment.^[19]

Towing and Installation

The towing operation for the Troll A platform began on May 10, 1995, from its construction site in Yrkesfjorden, Norway, marking one of the most ambitious marine transports in offshore engineering history. The fully assembled structure, measuring 472 meters in height and weighing approximately 1.2 million tons when ballasted, was maneuvered over roughly 200 kilometers to the Troll field using a fleet of 10 tugboats—eight for primary pulling and two for steering—at speeds of 1 to 2 knots to maintain precise control through the fjords and open sea. The towing was delayed by concerns following the sinking of the Sleipner A platform in 1994, but proceeded after rigorous safety reviews.^[26]^[21] To achieve stability during the transit, the platform was progressively ballasted, with significant flooding occurring on May 15 to submerge over 278 meters below the wave surface, reducing the visible height from about 245 meters to approximately 194 meters and minimizing wind exposure. This careful ballasting ensured the structure's low center of gravity, preventing excessive rolling or yawing in North Sea conditions. The operation proceeded ahead of schedule, with the platform reaching its destination on May 17, 1995, without incident.^[26] Installation commenced immediately upon arrival in 303 meters of water depth. Deballasting initiated a controlled descent using dynamic positioning systems aboard support vessels, allowing the gravity base's skirts to make initial contact with the seabed before full penetration of 36 meters into the underlying soil layers of soft to firm clay and silt. Engineers monitored soil resistance in real-time through pressure sensors on the skirt walls, adjusting ballast rates to overcome differential pressures between the platform's cellular compartments and ensure even settling without structural overload. This process, completed within days, embedded the base securely, requiring no additional mooring due to the inherent stability of the gravity-based design.^[26]^[27] The topsides, including processing modules and living quarters, were pre-mated to the gravity base at the Vats construction yard before towing, enabling the entire integrated unit to be transported and installed as one. Post-sinking leveling and hook-up operations, including subsea connections and system testing, extended through the summer, with physical installation finalized by September 1995. First gas production commenced on 19 September 1995 following commissioning.^[26]^[2]

Operations

Production History

The Troll A platform initiated gas production in the first half of 1996, with the first commercial deliveries commencing on 1 October 1996 via the 65-kilometer pipeline to the Kollsnes processing plant.^[1] Production rapidly escalated in the early years, reaching a peak of 66 million standard cubic meters per day in 1999, establishing the platform as a cornerstone of Norway's gas export infrastructure.^[2] By 2020, cumulative gas production from the Troll field had exceeded 1 trillion standard cubic meters, underscoring the platform's long-term productivity.^[1] In recent years, the platform has maintained high output levels, achieving a record annual production of 42.5 billion standard cubic meters of gas in 2024, surpassing previous benchmarks and accounting for a significant portion of Europe's gas supply.^[6] Ongoing expansions, including Troll Phase 3, approved in 2018 with production starting in 2021, incorporate subsea tie-backs to enhance oil and gas recovery from the Troll West gas cap, adding up to 20 million standard cubic meters per day of capacity.^[28] Gas and condensate from Troll A are transported through multiphase pipelines to the Kollsnes processing plant, where the condensate is separated and further processed.^[2] In June 2025, Equinor submitted the PDO for the Fram Sør development, which will tie gas production to Troll A, expected to start in 2029. Additionally, in September 2025, a new export solution from Troll B to the Kvitebjørn pipeline was approved to maintain high gas exports.^[29]^[30] Maintenance efforts have ensured reliable operations, with major upgrades to the compression systems completed in 2005–2006 to support pressure maintenance and extend field recovery.^[31] The platform has experienced minimal shutdowns, achieving approximately 99% uptime over its operational life, and plans are in place to extend its productive lifespan beyond 2050 through continued investments in subsea infrastructure and power-from-shore integration.^[32]

Technological Innovations

The Troll A platform pioneered the use of shore-based power supply on the Norwegian Continental Shelf (NCS), becoming the first offshore installation to receive electricity from the onshore Kollsnes processing plant via high-voltage direct current (HVDC) technology. This system, operational since 2005 for the initial two links delivering 88 MW and expanded in 2015 with an additional 100 MW, powers critical operations including gas compressors, eliminating the need for onboard gas turbines and resulting in zero CO₂ and NOx emissions from the platform itself. The HVDC Light® configuration transmits power over 70 km at ±60 kV in a symmetrical monopole setup, directly connecting inverters to motors without transformers for enhanced efficiency and reliability.^[1]^[33] Central to Troll A's processing capabilities is its gas compression system, which includes four electrically driven centrifugal compressors powered by the shore supply, each capable of up to 50 MW output to maintain production as reservoir pressure declines. These compressors, among the largest of their kind for natural gas processing, enable efficient handling of high-volume dry gas flows by boosting pressure for export pipelines, with the setup operational since the mid-2010s following upgrades that increased daily capacity from 85 million to over 100 million standard cubic meters. The electric drive integration, using variable high-voltage motors, supports prolonged field recovery by compensating for natural pressure drops without additional emissions.^[33]^[34]^[35] Troll A features advanced subsea control systems that manage production from over 40 wells, primarily through its fixed wellhead design with 39 dedicated gas wells in the Troll Øst reservoir, supplemented by subsea tiebacks such as the eight wells from the Troll West gas cap commissioned in 2021. These controls utilize hydraulic and electro-hydraulic actuators integrated with the platform's topsides for remote monitoring and operation of subsea templates, ensuring precise flow regulation and intervention capabilities across distances up to 200 km of umbilicals. This setup facilitates seamless integration with the broader Troll field infrastructure, allowing gas from remote subsea manifolds to be processed centrally.^[2]^[1]^[36] Since the 2010s, Equinor has implemented predictive maintenance technologies on Troll A, integrated with the platform's upgraded control room added in 2010, to monitor key assets like compressors and enable condition-based maintenance through analysis of operational data such as vibration, pressure, and temperature trends. This approach enables proactive interventions that minimize downtime and optimize performance, enhancing overall system reliability in the harsh North Sea environment.^[37] Safety systems on Troll A incorporate automated emergency shutdown (ESD) mechanisms and integrated fire and gas detection, managed by ABB's System 800xA High Integrity platform to protect personnel, processes, and assets. These systems trigger rapid isolation of wells and sections upon detecting anomalies like hydrocarbon leaks or fires, with redundant sensors and logic solvers ensuring high integrity (SIL 3 compliance) for shutdown sequences. The design emphasizes automation to support potential unmanned operations, reducing on-site personnel through remote oversight and drone-enabled logistics for non-critical tasks.^[38]^[39] The platform's integration with the Troll field extends to subsea templates, where production from oil-focused reservoirs in Troll Vest is supported through shared infrastructure, including provisions for CO₂ injection to enhance recovery in underlying aquifers despite Troll A's primary gas orientation. Subsea manifolds and flowlines tie back to Troll A for processing, with control systems extended to handle injection operations that stabilize reservoir pressures and maximize hydrocarbon extraction across the field's gas cap and oil legs. This interconnected design optimizes resource utilization while leveraging Troll A's electrification for low-emission handling of injected fluids.^[1]^[2]

Records and Significance

Engineering Records

The Troll A platform holds the record for the tallest structure ever moved by humankind, standing at a total height of 472 meters when towed to its site in the North Sea in May 1995.^[4] It also represents the heaviest object ever relocated, with a dry weight of 656,000 tonnes and a ballasted weight exceeding 1.2 million tonnes during transit.^[21] As the largest concrete gravity base structure (GBS) ever constructed, Troll A utilized 250,000 cubic meters of reinforced concrete in its base, enabling stability in challenging offshore conditions.^[4] It was installed at a record water depth for a concrete GBS of 303 meters, with the structure achieving a seabed penetration of 36 meters to secure it against lateral forces.^[2]^[40] In terms of production capabilities, Troll A set the highest annual natural gas output from a single offshore platform, delivering 42.5 billion standard cubic meters in 2024.^[6] Its compression facilities include the largest single-train system, with a capacity of up to 129 million standard cubic meters per day following upgrades.^[7] Troll A pioneered the full-scale application of a narrow-base GBS design for deepwater installations, optimizing the structure's footprint to 14.5 by 22.7 meters at the base while supporting extensive compression and processing equipment.^[21] By November 2025, it has achieved the longest continuous operational history for any concrete GBS platform, spanning nearly 30 years since its startup in 1996.^[4]

Economic and Environmental Impact

The Troll field, operated through the Troll A platform, has been a cornerstone of Norway's energy economy, generating substantial revenues from natural gas and oil production since 1995. By 2018, cumulative revenues from the field reached approximately NOK 1,400 billion, equivalent to an average of NOK 175 million per day, underscoring its role in funding Norway's sovereign wealth fund and public services.^[41] Ongoing developments, such as the Troll Phase III project initiated in 2021, add an estimated average of NOK 17 billion in annual state revenues.^[42] The platform and associated infrastructure support significant employment in Norway's oil and gas sector, including direct operations, maintenance, and supply chain activities across the Norwegian continental shelf. Recent tie-in projects, like Fram Sør, are projected to create around 4,500 full-time equivalent jobs during their execution phase, highlighting the field's ongoing economic multiplier effects.^[43] Troll's gas output is pivotal to Europe's energy security, accounting for about 32% of Norway's total gas production in 2023 and contributing roughly 11% to the European Union's natural gas consumption.^[44]^[45] Environmentally, Troll A pioneered shore power on the Norwegian continental shelf, connecting to the onshore grid in 1996 to replace gas turbines for electricity generation, thereby eliminating CO2 and NOx emissions from platform-based power production.^[1] This innovation has set a precedent for emissions reductions across offshore operations. Recent advancements include partial shore power integration for Troll B and C platforms in 2024, with full electrification of Troll West expected to reduce CO2 emissions by the equivalent of 125,000 fossil-fuelled cars annually—approximately 0.5% of Norway's total yearly emissions—while also cutting nitrogen oxide levels by 95%.^[5]^[46] CO2 management efforts near the Troll field include the Northern Lights project, a joint venture storing up to 1.5 million tonnes of CO2 annually in a saline aquifer beneath the seabed, starting operations in 2025 to support broader carbon capture initiatives. In August 2025, the first CO2 volumes were injected and successfully stored in the reservoir.^[47] Biodiversity monitoring in the North Sea, mandated under Norwegian regulations, encompasses the Troll area to assess impacts on marine ecosystems from platform activities and pipeline infrastructure. Looking ahead, electrification upgrades for the Troll complex aim for completion by the early 2030s, further minimizing operational emissions through expanded shore power and potential renewable integration.^[48] The Fram Sør development, with its PDO submitted in June 2025 and production startup targeted for the end of 2029, will tie into Troll C as a low-emission subsea extension, leveraging the host platform's shore power to produce oil and gas with reduced carbon intensity.^[29] Decommissioning studies for Troll A and related assets are underway, with projections indicating operations extending beyond 2050 given remaining reserves.^[2] Challenges include the initial seabed disturbance from Troll A's gravity-based structure installation in 1995, which was mitigated through deep foundation skirts penetrating up to 36 meters into the soil to ensure stability without excessive sediment disruption.^[1] Ongoing carbon capture pilots, such as those linked to Northern Lights, address residual emissions, with testing focused on scalable storage technologies applicable to aging fields like Troll.^[47]

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[40]
Remaining resources - The Norwegian Offshore Directorate
117 billion scm of gas were exported in 2023. The Troll field produces the most gas, and in 2023 it accounted for 32 per cent of Norwegian gas production.
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Equinor's Troll field produced record-high amount of gas in 2024
Jan 6, 2025 · The field set a historic production record, delivering 42.5 billion standard cubic metres of natural gas in 2024, an increase of almost ten ...<|control11|><|separator|>
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Reducing emissions from the Troll field - Equinor
Sep 10, 2024 · The licensees in Troll Unit are Equinor 30.6% (operator), Petoro 56%, A/S Norske Shell 8.1%, TotalEnergies 3.7% and ConocoPhillips Skandinavia ...
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Equinor Starts Conversion of Troll Field to Onshore Power - Rigzone
Sep 11, 2024 · The total project investment cost was $100 million (NOK 1.08 billion). The company noted that all installations on the Utsira High are also ...<|separator|>
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The Northern Lights project - Equinor
Phase 1 includes capacity to transport, inject and store up to 1.5 million tonnes of CO2 per year. Once the CO2 is captured onshore, it will be transported by ...
[45]
[PDF] Power from shore - The Norwegian Offshore Directorate
Oct 29, 2025 · Additional emission reductions are expected when all projects currently under development come on stream. Increased CO cost. The most important ...
[46]
More oil and gas to Europe from the Fram and Troll area - Equinor
Jun 26, 2025 · The development will put new oil and gas resources on stream by connecting new infrastructure to existing facilities that provide good and robust profitability.Missing: assessments | Show results with:assessments