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Thermochemical Conversion Characteristics of Vinasse
Meheretu Jaleta Dirbeba
Molekylääritieteen ja -tekniikan laboratorio
Kestävän tulevaisuuden teknologiat
Tutkimustuotos
:
Väitöskirjatyypit
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Tohtorinväitöskirja
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Artikkelikokoelma
Yleiskatsaus
Sormenjälki
Sormenjälki
Sukella tutkimusaiheisiin 'Thermochemical Conversion Characteristics of Vinasse'. Ne muodostavat yhdessä ainutlaatuisen sormenjäljen.
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Keyphrases
Vinasse
100%
Conversion Characteristics
100%
Thermochemical Conversion
100%
Gasification
20%
DSC-TGA
13%
Gasification Rate
11%
Fast Pyrolysis
11%
Combustion
8%
Char Gasification
8%
Oil Yield
6%
Ash-forming Elements
6%
Pyrolysis Oil
6%
Fertirrigation
6%
Fertilizer
6%
Gas Yield
6%
Grape Pomace
4%
Gas Atmosphere
4%
Sugarcane Bagasse
4%
Pyrolysis Combustion
4%
C-ratio
4%
Bio-oil
4%
Alkali Sulfate
4%
Gasification Process
4%
Gasification Reactivity
4%
Char Conversion
4%
Gas Conditions
4%
Alkali Carbonate
4%
Inorganic Content
4%
Ash-related Problems
4%
Volatilization
4%
Particle Reactor
4%
Significant Level
4%
Char Yield
4%
CO2 Gas
4%
Holding Time
4%
Effluent
4%
Sampling Weights
4%
Pyro-gasification
4%
Gas Concentration
4%
Inorganic Chemicals
4%
Stillage
2%
Pyrolysis Temperature
2%
Melt Fraction
2%
Coarse Droplets
2%
Thermodynamic Calculation
2%
Organic Components
2%
Melting Temperature
2%
Olive Branch
2%
Entrained Flow Gasification
2%
Inert Gas
2%
Electric Power
2%
Black Liquor
2%
Black Liquor Recovery Boiler
2%
Power-to-Chemicals
2%
Torrefied
2%
Ash Melting Behavior
2%
Bio-oil Yield
2%
Pulp Mill
2%
Bed Agglomeration
2%
Location Conditions
2%
Ethanol Process
2%
Vapor Phase
2%
Potassium Silicate
2%
Spent Wash
2%
FactSage
2%
Low Reactivity
2%
Gasification Gas
2%
Mole Ratio
2%
High-temperature Melting
2%
Retention System
2%
Ash Content
2%
Conventional Gasification
2%
Combustion Gases
2%
Tube Type
2%
Pyrolysis Products
2%
Si-Fe
2%
Kiwi
2%
Product Distribution
2%
Potential Alternatives
2%
Fluidized Bed Technology
2%
Reducing Gas
2%
NH4Ac
2%
Ash Residue
2%
Biological Oxygen Demand
2%
Syngas
2%
Soil Conditions
2%
Mass Balance
2%
High Water Content
2%
Environmental Issues
2%
Acidic pH
2%
Pilot Plant Scale
2%
Fuel Properties
2%
Conventional Combustion
2%
Initial Melting Temperature
2%
Chemical Oxygen Demand
2%
Al-Fe
2%
Soil Pollution
2%
Oxides
2%
Drop Tube
2%
Inorganic Elements
2%
Bottom Ash
2%
Solid Fuel
2%
Agricultural Land
2%
High Potassium
2%
Energy Balance
2%
Environmental Damage
2%
Water-free
2%
Conversion Rate
2%
Si Content
2%
Carbon Evaporation
2%
Fume
2%
Biomass Residues
2%
Agricultural Biomass
2%
Product Yield
2%
Dry Solids Content
2%
Organic Carbon
2%
Alkali Metals
2%
Mill Data
2%
Potassium Content
2%
Boiler Type
2%
K Content
2%
Water Yield
2%
N2 Gas
2%
Factsage Calculation
2%
Distillery
2%
Water Pollution
2%
Chemical Engineering
Pyrolysis
100%
Fast Pyrolysis
83%
Organic Carbon
16%
Energy Balance
16%
Alkali Metal
16%
Water Content
16%
Fluidized Bed
16%
Catalytic Reaction
16%
Engineering
Thermochemical Conversion
100%
Gasification
31%
Bio-Oil
13%
Gasification Rate
11%
Boiler
6%
Char Gasification
6%
Forming Element
6%
Pyrolysis
6%
Biomass Fuels
4%
Melting Temperature
4%
Holding Time
4%
Vaporization
4%
Black Liquor
4%
Function of Time
4%
Power Production
2%
Dry Solid
2%
Catalytic Reaction
2%
Greenhouse Gas
2%
Posed Problem
2%
Recovery Boiler
2%
Char Surface
2%
Solid Fuel
2%
Bed Agglomeration
2%
Melting Behavior
2%
Syngas
2%
Low-Temperature
2%
Conversion Rate
2%
Free Water
2%
Conversion Process
2%
Thermodynamic Calculation
2%
Gasification of Char
2%
Ash Content
2%
Organic Constituent
2%
High Water Content
2%
Solid Content
2%
Reducing Gas
2%
Retention System
2%
Limitations
2%
Fluidized Bed
2%
Combustion
2%
Heat Production
2%