INIS
biomass
100%
drying
89%
supply
79%
wood
77%
forests
63%
wood fuels
52%
moisture
52%
chains
49%
energy
45%
finland
41%
prediction
38%
cost
35%
fuel supplies
32%
fuelwood
30%
heat
30%
comparative evaluations
29%
fuels
26%
dryers
24%
air
24%
storage
23%
heating
23%
residues
22%
economics
19%
poland
19%
slovakia
19%
romania
19%
levels
17%
business
17%
resources
16%
economy
15%
values
15%
production
15%
tools
15%
investment
15%
assessments
15%
europe
15%
sorting
15%
information
15%
market
14%
sweden
14%
solutions
14%
austria
13%
combustion
11%
operation
11%
renewable energy sources
11%
output
10%
data
10%
efficiency
10%
barriers
10%
weather
10%
Keyphrases
Fuelwood
88%
Wood chips
50%
Finland
43%
Prediction Model
38%
Bioenergy
38%
Woody Biomass
36%
Fuel Supply
27%
Forest Fuel
26%
Supply Chain
25%
Warm Air
19%
Moisture Prediction
19%
Payback Time
19%
Integrated chip
19%
Europe
17%
Drying System
17%
Optimal Storage
16%
Dryer
16%
Heating Plant
16%
Bioresources
15%
Poland
15%
Romania
15%
Slovakia
15%
Entrepreneurs
15%
Model Prototype
15%
Sweden
14%
Biomass Terminal
14%
Fuel Consumption
13%
Moisture
13%
Wood
12%
Solar Energy
12%
Biomass Drying
12%
Cost Analysis
12%
Storage Duration
12%
Derived Fuel
12%
Forest Machine
12%
European Forests
12%
Private Forest Owners
12%
Air Dryer
11%
Fuel Supply Chain
11%
Drying Model
10%
Convective Dryer
10%
Solar Heat
10%
Moisture Content
10%
Engineering
Bioenergy
37%
Energy Engineering
25%
Wood Fuels
25%
Payback Time
21%
Fuel Supply
19%
Biomass Supply Chain
19%
Drying System
19%
Biomass Resource
15%
Solar Energy
15%
Storage Duration
12%
Infrastructure
12%
Convective
10%
Electric Power Plant
10%