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Standard liquid fuel for industrial boilers from used wood
Christian Lindfors
*
,
Anja Oasmaa
, Alexi Välimäki
,
Taina Ohra-aho
, Henna Punkkinen
,
Cyril Bajamundi
, Kristin Onarheim
*
Corresponding author for this work
VTT Technical Research Centre of Finland
Research output
:
Contribution to journal
›
Article
›
Scientific
›
peer-review
9
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Keyphrases
Liquid Fuel
100%
Used Wood
100%
Industrial Boiler
100%
Liquid Products
66%
Liquid Yield
66%
Organic Liquids
66%
Fast Pyrolysis Bio-oil
66%
Water Mass Fraction
66%
Corrosion
33%
Fluidized Bed Combustion
33%
District Heating
33%
Wood
33%
Excess Electricity
33%
Pyrolysis Experiment
33%
Sawdust
33%
Forest Residues
33%
Thermodynamic Equilibrium Model
33%
Energy Input
33%
Fast Pyrolysis
33%
Heat Input
33%
Bubbling Fluidized Bed Reactor
33%
Recycled Wood
33%
Chemically Treated
33%
Spontaneous Phase Separation
33%
Pyrolysis Char
33%
Ash Melting
33%
Treated Wood
33%
EN Standards
33%
Heavy Metal Content
33%
High Water
33%
INIS
wood
100%
boilers
100%
liquid fuels
100%
pyrolysis
83%
liquids
66%
water
50%
oils
33%
yields
33%
specifications
33%
ashes
33%
levels
16%
risks
16%
energy
16%
electricity
16%
district heating
16%
residues
16%
corrosion
16%
demand
16%
plastics
16%
equilibrium
16%
heat
16%
fluidized bed reactors
16%
forests
16%
fluidized-bed combustion
16%
exports
16%
fluids
16%
thermodynamics
16%
melting
16%
heavy metals
16%
chars
16%
Engineering
Industrial Boiler
100%
Fast Pyrolysis
100%
Mass Fraction
66%
Bio-Oil
66%
Pyrolysis
66%
Fluidized Bed Reactor
33%
District Heating
33%
Bubbling Fluidized Bed
33%
Thermodynamic Equilibrium Calculation
33%
Homogenous Fluid
33%
Energy Input
33%
Heat Input
33%
Melting Problem
33%
Heavy Metal
33%
Phase Separation
33%
Fluidized Bed Combustion
33%
Chemical Engineering
Fast Pyrolysis
100%
Pyrolysis
66%
Liquid Yield
66%
Liquid Products
66%
Fluidized Bed Combustion
33%
Heavy Metal
33%
Phase Separation
33%
Bubbling Fluidized Bed Reactor
33%
Material Science
Feedstock
100%
Liquid Fuels
100%
Corrosion
50%
Heavy Metal
50%