Earth and Planetary Sciences
Finland
100%
Carbon
97%
Carbon Neutrality
63%
Electricity
58%
Climate
50%
Cost
41%
Science and Technology
39%
Flexibility
37%
Nuclear Power
33%
Increasing
29%
Clean Energy
29%
Net Zero
29%
Security
29%
Constraint
29%
Northern Europe
29%
Wind
25%
Europe
24%
Heating
22%
Amount
22%
Model
22%
Country
21%
Biomass
17%
Availability
16%
Emission
15%
Denmark
14%
Carbon Dioxide Emission
14%
Need
13%
Datum
12%
Electrification
12%
Delay
11%
Investigation
11%
Policy
10%
Emissions
9%
Cost Effectiveness
9%
Response
9%
Society
9%
Event
9%
Addition
9%
Growth
9%
Electric Battery
9%
Carbon Neutral Energy
9%
Coupling
8%
Annual Variation
7%
Political Economy
7%
River
7%
Raw Material
6%
Government
5%
Set
5%
Emission Reduction
5%
Literature
5%
Engineering
Power Engineering
99%
Free Carbon
64%
Energy Systems
60%
Energy Engineering
58%
Hydrogen Production
48%
Electricity Storage
43%
Nuclear Energy
41%
Wind
36%
Industrial System
29%
Power Supply
29%
Measurer
29%
Heating
29%
Investment Cost
29%
Low Carbon
29%
District Heating
29%
Hydroelectric Energy
22%
Models
22%
Power Plant
19%
Secondary Battery
19%
Battery (Electrochemical Energy Engineering)
19%
Investment
19%
Solar Photovoltaic
17%
Power Generation
16%
Photovoltaics
14%
Renewables
12%
Land Use
11%
Additional Cost
11%
Waste Heat Recovery System
11%
Historical Data
9%
System Cost
9%
Climatic Change
9%
Curtailment
9%
Transportation Sector
9%
Primary Energy Consumption
9%
Low Profile
9%
Simulation
9%
Biomass
9%
Electricity Consumption
9%
Industry Sector
9%
Energy Efficiency
9%
Hydrogen Storage
9%
Electricity Supply
9%
Events
9%
Couplings
9%
Stages
9%
Small Modular Reactor
9%
Optimization
9%
Multistage
9%
Integration
9%
Demonstrates
9%
Social Sciences
Carbon
71%
Finland
63%
Hydrogen
38%
Technology
32%
Finnish
32%
Costs
29%
Investment
29%
Scenarios
18%
Climate
14%
Measure
13%
Emission
12%
Winds
12%
Heating
12%
Neutrality
12%
Capacity
11%
Flexibility
9%
Production
7%
European Union
6%
Strategy
6%
Transport
6%
Biomass
6%
Introduction
5%
Energy Consumption
5%