Article
Open Access
Numerical investigation of a cold bubbling bed throughout a dense discrete phase model with KTGF collisional closure
-
Leonardo Tricomi
Published/Copyright:
December 29, 2017
Received: 2017-6-8
Accepted: 2017-12-4
Published Online: 2017-12-29
© 2018
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- Optimization of melon oil methyl ester production using response surface methodology
- A review of Fischer Tropsch synthesis process, mechanism, surface chemistry and catalyst formulation
- Numerical investigation of a cold bubbling bed throughout a dense discrete phase model with KTGF collisional closure
- Cobalt Catalysts Preparation and Characterization over Alumina Support for Fischer Tropsch Synthesis
- Combustion Characteristics and Laminar Flame Speed of Premixed Ethanol-Air Mixtures with Laser-Induced Spark Ignition
Keywords for this article
Eulerian-Lagrangian Discrete Phase Model (DDPM);
KTGF collisional model;
Bubbling fluidized bed;
Pressure drop oscillations;
Power Spectral Density
Creative Commons
BY-NC-ND 4.0
Articles in the same Issue
- Optimization of melon oil methyl ester production using response surface methodology
- A review of Fischer Tropsch synthesis process, mechanism, surface chemistry and catalyst formulation
- Numerical investigation of a cold bubbling bed throughout a dense discrete phase model with KTGF collisional closure
- Cobalt Catalysts Preparation and Characterization over Alumina Support for Fischer Tropsch Synthesis
- Combustion Characteristics and Laminar Flame Speed of Premixed Ethanol-Air Mixtures with Laser-Induced Spark Ignition
