A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
CFD Process Modeling of the Industrial Calcination of Diatomite
Calcination of diatomite is an expensive process frequently resulting in products with unpredictable structure. Alternatively, calcination in swirling flow is an energy‐saving option. Computational fluid dynamics modeling of an experimental calcination process unit is presented. Experimental results and systematic collection of process data were used to define boundary condition for steady‐state and transient simulation runs. The comparison of experimental and simulation results shows the complexity of the calcination process. The results can be used for further process optimization.
CFD Process Modeling of the Industrial Calcination of Diatomite
Calcination of diatomite is an expensive process frequently resulting in products with unpredictable structure. Alternatively, calcination in swirling flow is an energy‐saving option. Computational fluid dynamics modeling of an experimental calcination process unit is presented. Experimental results and systematic collection of process data were used to define boundary condition for steady‐state and transient simulation runs. The comparison of experimental and simulation results shows the complexity of the calcination process. The results can be used for further process optimization.
CFD Process Modeling of the Industrial Calcination of Diatomite
Hajek, Jiri (author) / Jurena, Tomas (author) / Baier, Bernhard (author) / Bagherzadeh, Arash (author) / Schnick, Tom (author) / Smejkal, Quido (author)
Chemie Ingenieur Technik ; 87 ; 991-997
2015-07-01
7 pages
Article (Journal)
Electronic Resource
English
| European Patent Office | 2019
Calcination-free board prepared from diatomite and preparation method of calcination-free board
| European Patent Office | 2021