A5033911450- Global Energy and Sustainability Research
- Climate Change Policy and Economics
- Sustainable Development and Environmental Policy
- Integrated Energy Systems Optimization
- Sustainability and Climate Change Governance
- Environmental Impact and Sustainability
- Energy and Environment Impacts
- Energy, Environment, and Transportation Policies
- Hybrid Renewable Energy Systems
- Complex Systems and Decision Making
- Social Acceptance of Renewable Energy
- Water-Energy-Food Nexus Studies
- Mining and Resource Management
- demographic modeling and climate adaptation
- Agriculture Sustainability and Environmental Impact
- Geothermal Energy Systems and Applications
- Economic and Social Issues
- Reservoir Engineering and Simulation Methods
- Housing, Finance, and Neoliberalism
BI Norwegian Business School
2023-2024
BOKU University
2023-2024
Stockholm University
2023-2024
Stockholm Resilience Centre
2023-2024
Høyskolen Kristiania
2023-2024
Cornell University
2023-2024
Millennium Engineering and Integration (United States)
2024
Université Jean Monnet
2020-2021
Université Clermont Auvergne
2018-2021
University of Iceland
2018-2021
The integrated and indivisible nature of the SDGs is facing implementation challenges due to silo approaches. We present three interconnected foci (SDG interactions, modeling, tools) at science-policy interface address these challenges. Accounting for them will support accelerated SDG progress, operationalizing integration indivisibility principles.
This study contributes to a better understanding of where place different energy modelling tools and support decision-making related the sustainable development systems. It is argued that through connection field development, current paradigm—encompassing economic, environmental social aspects—has emerged. paper provides an analysis categories existing system models their ability provide answers questions arising from paradigm formulated within this study. The relevant were defined by...
Abstract How can wellbeing for all be reached while reducing risks of destabilizing the planet? This ambition underlies 2030 Agenda but analyzing whether it is possible requires linking global socioeconomic developments with life-supporting Earth systems, incorporating feedback between them. Our new integrated systems model, Earth4All, enables exploration plausible human and environmental pressures, 1980-2100. The relatively simple model focuses on quantifying capturing high-level domains....
Abstract How can wellbeing for all be reached while reducing risks of destabilizing the planet? This ambition underlies 2030 Agenda but analyzing whether it is possible requires linking global socioeconomic developments with life-supporting Earth systems, incorporating feedback between them. Our new integrated systems model, Earth4All, enables exploration plausible human and environmental pressures, 1980-2100. The relatively simple model focuses on quantifying capturing high-level domains....
Decarbonizing the building sector is a key priority in European energy transition, as it responsible for more than third of EU's GHG emissions. To boost renovation rates and efforts to phase out fossil fuel-based heating systems, current policy directives tar-get particular promotion efficiency. However, implementing technology-oriented solutions low-carbon transitions raises variety issues, bearing also risk exacerbating housing vulnerability. This pre-print article explores potential...
This preprint presents new simulations carried out with the Earth4All model to assess future trajectories regards SDG achievements globally. We report on indicators and data selection, sources, analysis. also present threshold levels that have been chosen for respective SDGs. Finally, we regions use our