• Energieffektivitet og optimalisering
• AI og energiinformatikk
• Fornybar energihøsting og -administrasjon
• Avanserte materialer for fremtidens energisystem
• Sol-PV verdikjede, fra råmateriale til paneler
• Geotermisk energi og varmepumper
• Distribuert produksjon og mikro-CCHP
• Småskala fornybar energi på stedet og virtuelle kraftverk
• Batteri- og energilagringssystemer
• Smarte mikronett og analyse av elektrisitetsmarkeder
• Energisparing og administrasjon for smarte bygninger
• Turbiner og turbomaskineri-applikasjoner
• Hydrogen- og (Bio-, Naturlig) Gass-teknologi
• Grønn nedleggelse og omforming av petroleumssektoren
• Sofistikerte optimaliseringsteknikker og algoritmer
• Interessentanalyse og forretningsmodellutvikling for energisektoren

Viktige partnere/nettverk inkluderer, men er ikke begrenset til:

• USN Business School, Kongsberg: supply chain and stakeholder engagement.
• UiS – Department of Energy and Petroleum Engineering, Stavanger: energy system integration.
• UiS – Department of Mechanical and Structural Engineering and Materials Science, Stavanger: solid mechanics & manufacturing.
• UiS – Department of Electrical Engineering and Computer Science, Stavanger: smart contracts and blockchain technology.
• UiS – Department of Media and Social Sciences, Stavanger: energy policy and management.
• UiA, Agder: renewable energy and power engineering.
• NORCE, Stavanger: petroleum technology.
• NTNU, Trondheim: 3D printing & additive manufacturing.
• UiT, Tromsø: ICT & energy informatics.
• UiO, Oslo: artificial intelligence and machine learning.
• NMBU, Ås: robotics and digitalization.
• University of British Columbia, Canada: heat transfer & renewable energy.
• Simon Fraser University, Canada: optimization and product development.
• Aalborg University, Denmark: power engineering & smart grid.
• KTH, Sweden: fluid mechanics and gas technology.
• Aachen University, Germany: gas turbine and turbomachinery.
• University of Warwick, UK: battery & energy storage.
• University of Galway, Ireland: hydrogen driven energy hubs.
• Australian University, Kuwait: computational intelligence and design optimization.
• Qatar University, Qatar: gas technology and energy economics.
• University of Hail, KSA: renewable energy and smart grid.
• Jadavpur University, India: energy system modeling and simulation.
• University of Tenaga Nasional, Malaysia: energy market analysis.
• Asian Institute of Technology, Thailand: energy transition and sustainable development.

Noen eksempler på nylige FoU-prosjekter/forslag:

• Developing Norwegian-Canadian Network for Blended Educational Collaboration on Geothermal Energy (2024)
• A Hydrogen-driven Technology Mapping for Future Energy Hubs (2024)
• Enhancing Quality of Applied Science Education for Sustainability of Agricultural Sector: A Norwegian-Ethiopian Collaboration (2024)
• Crafting an Optimized Product Supply Chain Model for Leading Solar Panel Enterprises (2024)
• Optimizing High-Dimensional, Expensive, Black-Box Problems within Integrated Energy System Domain (2024)
• A Comprehensive Techno-Economic Assessment of Innovative EV Cell to Pack Battery (2024)
• Prescriptive Analytics to Optimize Power Grid Operations and Planning Based on Energy Storages and Human Energy Behaviour in Northern Norway (2024)
• Stakeholders Analysis and Business Models Development for an Energy Trading Toolset (2023)
• Design of a Machine Learning Driven Approach for Energy Trading: Market Prediction in Smart Communities (2023)
• Integrated Solar-Hydrogen Planning for Distributed Cogeneration: A Comprehensive Multi-Objective Techno-economic Analysis for Thermal/Electrical Power and Hydrogen Market (2023)
• Novel Education and Training for Sustainable Energy Transition: A Norwegian-Indian Bilateral Collaboration (2022)
• Design and Development of a Flexible Hybrid Renewable Energy System for Optimum Distributed Generation and Storage (2022)
• Hybrid Hydrogen Driven Energy Storage: An Industry-Government-Academia Collaboration (2022)
• How to Shape a Hydrogen-based Energy System: A Socio-technical System Study (2021)
• Impact of Hydrogen-Based Energy Storage System on Decarbonizing Energy System: A Roadmap for the Viken’s Vision 2030 (2021)
• Geothermal-Solar Integration for CCHP Applications: KSA’s Vision 2030 (2020)
• Energy Storage and NG Management for Less CO2 Emission: KSA’s Vision 2030 (2020)
• Realizing Smart Energy Sharing: Software Platform Development for Smart Renewables Integrated at Neighborhoods’ Grid (2020).