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Energy demand futures by global models: Projections of a complex system
O.Y. Edelenbosch
Environmental Sciences
Environmental Sciences
Research output
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Thesis
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Doctoral thesis 1 (Research UU / Graduation UU)
Overview
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Dive into the research topics of 'Energy demand futures by global models: Projections of a complex system'. Together they form a unique fingerprint.
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Keyphrases
Energy Demand
100%
Global Model
100%
Demand Sectors
60%
Fuel Switching
60%
Climate Targets
40%
Global Energy Demand
40%
Transport Sector
40%
Energy Demand Response
40%
Model Complex
20%
Climate Change Mitigation
20%
Modal Shift
20%
Energy Intensity
20%
Energy Use
20%
Behavior Change
20%
Policy Relevance
20%
Model Assumptions
20%
Integrated Assessment Model
20%
Challenges Ahead
20%
Energy Efficiency
20%
Climate Policy
20%
Sensitivity Analysis
20%
If Current
20%
Energy Efficiency Improvement
20%
Material Demand
20%
Historical Measurements
20%
Energy Reduction
20%
Energy Prices
20%
Global Energy
20%
Energy Fuel
20%
Energy-related CO2 Emissions
20%
Industry Sector
20%
Multiple Scenarios
20%
Rapid Change
20%
Building Sector
20%
Solution Space
20%
Long-term Modelling
20%
Historic Data
20%
Electrification
20%
Activity Growth
20%
Cause-effect Relationship
20%
Demand Side
20%
Sector-specific
20%
Dynamic Representation
20%
Full Solution
20%
Income Elasticity
20%
Building Industry
20%
Future Energy Demand
20%
Long-term Climate Change
20%
Mitigation Pathways
20%
Price Elasticity
20%
Relationship-based
20%
Space Energy
20%
Dynamically Modeling
20%
International Opportunity
20%
Electric Vehicle Transition
20%
Energy Demand Projection
20%
Physical Requirements
20%
Transition Case
20%
Infrastructure Needs
20%
Energy Supply Sector
20%
Demand Dynamics
20%
Engineering
Energy Conservation
100%
Global Energy Demand
100%
Climate Change
100%
Energy Efficiency
100%
Climatic Change
100%
Sectoral
50%
Subsectors
50%
Global Energy
50%
End-Users
50%
Future Energy
50%
Demand Side
50%
Industry Sector
50%
Building Sector
50%
Model Type
50%
Rapid Change
50%
Energy Shift
50%
Space Solution
50%
Electric Vehicle
50%
Building Industry
50%
Earth and Planetary Sciences
Energy Demand
100%
Energy Efficiency
18%
Emissions
18%
Climate Change
9%
Climate Change Mitigation
9%
Carbon Dioxide Emission
9%
Energy Supply
9%
Scenario Analysis
9%
Climate Change Policy
9%
Economics, Econometrics and Finance
Energy Demand
100%
Energy Conservation
18%
Specific Industry
18%
Energy Intensity
9%
Price Elasticity
9%
Energy Supply
9%
Climate Policy
9%