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Modelling of multiphase chemical reactors (ModCheR): Final report
Mikko Manninen (Editor)
,
Ulla Ojaniemi
,
Markus Olin
, Timo Pättikangas
, Maiju Seppälä
, Veikko Taivassalo
, Juhani Aittamaa
, Ville Alopaeus
, Katja M. Hynynen
, S. Jussila
, M. Laakkonen
, Maret Liiri
, P. Moilanen
, Asta Nurmela
, Iiro Pulkkinen
, Hannu Alatalo
, Henry Hatakka
, J. Kallas
, Arto Laari
, Zuoliang Sha
I. Turunen, Alf Hermanson,
Sirpa Kallio
, H. Eloranta, Markus Honkanen, Pentti Saarenrinne, Taija Saikkonen
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Tampere University of Technology (TUT)
Aalto University
Lappeenranta-Lahti University of Technology LUT
University of Jyväskylä
Åbo Akademi University
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Keyphrases
University of Technology
100%
Model-driven Development
100%
Chemical Reactors
100%
Stirred Reactor
66%
Helsinki
33%
Turbulence
33%
Modeling Approach
33%
Pipe Model
33%
CFD Model
33%
Pipe Flow
33%
Crystallization
33%
Model Validation
33%
Tampere
33%
Project Model
33%
Fluidised Bed
33%
Cell Interaction
33%
Population Balance Model
33%
Drag Model
33%
Interaction Model
33%
Macroscopic Model
33%
Trickle Bed Reactor
33%
Interaction Terms
33%
Bubble Column
33%
Solids Mixing
33%
Gas Mixing
33%
Bed Model
33%
Batch Crystallization
33%
Dispersion Term
33%
Bubble Flotation
33%
Turbulent Bed
33%
Single Crystal Growth
33%
Model Cell
33%
Multi-block Model
33%
Developing Model
33%
Drag Reducing Agent
33%
Flow Development
33%
Continuous Crystallization
33%
Reactor Model
33%
Gas-liquid Processes
33%
INIS
modeling
100%
chemical reactors
100%
reactors
80%
universities
80%
crystallization
60%
interactions
40%
gases
40%
drag
40%
information
20%
data
20%
single crystals
20%
balances
20%
dispersions
20%
equations
20%
bubbles
20%
liquids
20%
validation
20%
turbulence
20%
solids
20%
pipes
20%
crystal growth
20%
populations
20%
mixing
20%
reducing agents
20%
fluidized beds
20%
flotation
20%
Chemical Engineering
Chemical Reactor
100%
Stirred Reactor
100%
Flotation
50%
Trickle Bed Reactor
50%
Fluidized Bed
50%
Drag Model
50%
Population Balance
50%