Our oil and gas sector roots have equipped us with decades of experience executing large-scale, complex projects with precision, safety, and environmental responsibility. These capabilities are not only relevant but essential as we transition toward sustainable energy solutions such as offshore wind, hydrogen production, and CCS.
Since 1987, Slåttland has delivered high-quality, tailor-made engineering and fabrication solutions to clients around the world. Today, we continue to build on that legacy by supporting the development of innovative, low-carbon technologies. Our deep industry knowledge and hands-on experience uniquely position us to collaborate with forward-thinking companies driving the green shift.
Whether hydrogen infrastructure, carbon capture systems, or other sustainable technologies, Slåttland is ready to deliver innovative, robust, and future-proof solutions — from concept to completion.
Slåttland is part of the ground-breaking Remote Chemical Loading project delivered by TESS to the Yggdrasil field.
As a key contributor, Slåttland is responsible for engineering, fabrication, and testing across various Technology Readiness Levels (TRLs). This includes both in-house testing and close collaboration with the client to ensure quality and performance at every stage.
📸 The images showcase testing of the funnel and valve rack systems that will be installed on the Hugin platform – a vital step in developing the future of offshore chemical handling.
TOGETHER FOR THE BEST SOLUTION
Slåttland: A Trusted Partner in Carbon Capture
Slåttland is a trusted partner in several leading carbon capture projects. In 2025, we are assembling carbon capture units for a new facility at Østfold Energi’s waste-to-energy plant in Rakkestad.
Carbon dioxide (CO₂), a major greenhouse gas, is released through the combustion of fossil fuels and various industrial processes. Emissions from industrial facilities and coal- or gas-powered plants around the world contain significant amounts of CO₂. Carbon capture is the process of removing CO₂ from these emission sources to prevent it from entering the atmosphere.
By capturing and safely storing CO₂, we help reduce greenhouse gas emissions and support the transition to a more sustainable future. Slåttland is proud to contribute to this mission by delivering high-quality fabrication services for carbon capture equipment.
The plant in the Rakkestad project is dimensioned to capture 10,000 tonnes of CO2 per year. The company uses licensed technology from Shell, supplied by EPC supplier KANFA AS and their subcontractor Slåttland Mek Industri AS. Several other companies from the region will contribute during the implementation.
The company has agreed with Linde Gas AS to supply liquefied CO₂ (link). (Carbon Centric)The greenhouse gas CO2 arises, among other things, from the combustion of fossil fuels and various industrial processes. The smoke emitted from industrial plants and coal—and gas-powered plants worldwide contains significant CO2.
Deep Purple uses offshore wind energy to produce hydrogen from seawater. The hydrogen can be stored subsea for later use to provide renewable energy on-demand. Deep Purple overcomes one of the challenges of storing energy generated from renewable sources.
Deploying these systems is critical to accelerating the energy transition.
Energy system management, electrolysers and fuel cells are located in the yellow device in the middle of the image. The hydrogen storage tanks are purple. Photo by TechnipFMC.
Vi bruker informasjonskapsler for å forbedre brukeropplevelsen på nettstedet vårt og for personlig tilpasning av annonser. Ved å fortsette å bruke dette nettstedet samtykker du til vår bruk av informasjonskapsler. Avvis alle cookies