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An investigation of thermal decomposition behavior of hazelnut shells
M. C. Celebi,
N. Karatepe
*
*
Corresponding author for this work
Energy Institute
Istanbul Technical University
Research output
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Contribution to journal
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Article
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peer-review
5
Citations (Scopus)
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Keyphrases
Activation Energy
33%
Biomass Energy
33%
Carbonization
33%
Carbonization Process
33%
Cellulose Decomposition
33%
Coats-Redfern Method
33%
Decomposition Temperature
100%
Energy Conversion Process
33%
Energy Mix
33%
Gas Flow Rate
66%
Hazelnut Shell
100%
Heating Gas
33%
Heating Rate
100%
Heating Rate Effects
33%
Hemicellulose
33%
Kinetic Parameters
100%
Lignin Decomposition
33%
Maximum Rate
33%
Maximum Temperature
33%
N2 Atmosphere
33%
Nitrogen Flow Rate
33%
Peak Temperature
33%
T-zone
33%
Temperature Interval
100%
Thermal Decomposition Behavior
100%
Thermal Decomposition Mechanism
33%
Thermochemical Conversion
66%
Thermogravimetry
33%
Total Weight Loss
33%
Turkey
33%
Weight Loss Rate
33%
Engineering
Activation Energy
33%
Carbonization Process
33%
Conversion Process
33%
Energy Conversion
33%
Energy Mix
33%
Gas Flowrate
66%
Heating Rate
66%
Hemicellulose
33%
Kinetic Parameter
100%
Maximum Temperature
33%
Mols
33%
Nitrogen Flow Rate
33%
Peak Temperature
33%
Rate of Heating
66%
Temperature Interval
100%
Thermochemical Conversion
66%
Material Science
Chemical Decomposition
50%
Gas Flow
100%
Lignin
50%
Thermogravimetric Analysis
50%
Chemical Engineering
Carbonization
50%
Heating Rate
100%