Skip to main navigation
Skip to search
Skip to main content
VTT's Research Information Portal Home
Search content at VTT's Research Information Portal
Home
Profiles
Research output
Projects
Datasets
Research units
Research Infrastructures
Activities
Prizes
Press/Media
Impacts
Time-dependent reactor simulation by stationary state thermochemistry
Pertti Koukkari
, Jaana Niemelä
Kemira Oyj
Research output
:
Contribution to journal
›
Article
›
Scientific
›
peer-review
11
Link opens in a new tab
Citations (Scopus)
Overview
Fingerprint
Fingerprint
Dive into the research topics of 'Time-dependent reactor simulation by stationary state thermochemistry'. Together they form a unique fingerprint.
Sort by
Weight
Alphabetically
Keyphrases
Reactor
100%
Stationary States
100%
Thermochemistry
100%
Reactor Simulation
100%
Volume Element
100%
Reaction Rate
66%
Gibbs Free Energy
66%
Thermodynamics
66%
Overall Reaction
66%
Temperature Profile
33%
Heat Exchange
33%
Chemical Reaction
33%
Multi-component System
33%
Reaction Systems
33%
Velocity Profile
33%
Reactor Conditions
33%
Closed-loop System
33%
Continuous-time Systems
33%
Chemical Reactors
33%
Composition Profile
33%
Thermochemical Properties
33%
Steady-state Property
33%
Flame Reactor
33%
High-temperature Flame
33%
Titanium Dioxide Production
33%
Thermodynamic Quantities
33%
Chemical Algorithm
33%
Constant Heat Flux
33%
Reactor Volume
33%
INIS
simulation
100%
reactors
100%
time dependence
100%
volume
50%
thermodynamics
50%
algorithms
33%
reaction rate
33%
values
16%
production
16%
energy
16%
steady-state conditions
16%
high temperature
16%
titanium oxides
16%
velocity
16%
exchange (heat)
16%
chemical reactions
16%
gibbs free energy
16%
flames
16%
heat flow
16%
entropy
16%
chemical reactors
16%
intermediate reactors
16%
Engineering
Stationary State
100%
Volume Element
100%
Gibbs Free Energy
66%
Heat Exchange
33%
Continuous System
33%
Closed System
33%
Multicomponent System
33%
Constant Value
33%
Thermodynamic Quantity
33%
Reactor Volume
33%
Chemical Reactor
33%
Chemical Engineering
Gibbs Free Energy
100%
Reactor Simulation
100%
Titanium Dioxide
50%
Chemical Reactor
50%