INIS
electric-powered vehicles
100%
electricity
100%
households
100%
self-energy
100%
climates
100%
storage
80%
fossil fuels
60%
demand
60%
vehicles
40%
energy
40%
reduction
40%
efficiency
40%
mobility
40%
cost
40%
grids
40%
tanks
20%
levels
20%
power
20%
conversion
20%
energy balance
20%
supply
20%
dimensions
20%
prices
20%
economics
20%
energy storage
20%
lithium ion batteries
20%
hydrogen
20%
investment
20%
heating
20%
comparative evaluations
20%
europe
20%
capture
20%
roofs
20%
internal combustion engines
20%
fuel cells
20%
switzerland
20%
passengers
20%
Engineering
Electric Vehicle
100%
Photovoltaics
100%
Energy Engineering
100%
Electricity Demand
50%
Fossil Fuel
50%
Efficiency
33%
Demand Reduction
33%
Facades
33%
Storage Tank
16%
Dwelling
16%
Photovoltaic Electricity
16%
System Cost
16%
Roofs
16%
Base Case
16%
Multifamily Building
16%
Economic Feasibility
16%
Measures
16%
Urban Mobility
16%
Term Storage
16%
Investment
16%
Local Level
16%
Buildings
16%
Internal Combustion Engine Vehicle
16%
Storage
16%
Energy Storage Technology
16%
Long-Term Storage
16%
Power Grid
16%
Lithium-Ion Batteries
16%
Fuel Cell
16%
Building Type
16%
Passenger Vehicle
16%
Heating
16%
Electrolyzer
16%
Technical Feasibility
16%
Economics, Econometrics and Finance
Efficiency
100%
Cost
100%
Economics
50%
Investment
50%
Price
50%
Electricity Supply
50%
Keyphrases
Urban Mobility Patterns
50%
Popular Imagination
50%
Rural Mobility
50%
Political Measures
50%