Elementary Kinetic Modelling in Catalytic Reaction Engineering
Autor Joris W. Thybaut, Jeroen Lauwaert, Jeroen Poissonnier, Pieter Janssens, Alexandra Bouriakova, Sébastien Siradzeen Limba Engleză Paperback – iun 2025
- Conveys how relevant information for the optimization of chemical reactions can be acquired through modelling and simulation of the kinetics involved
- Provides a complete path from the acquisition of experimental data, to its interpretation and the development of a predictive kinetic model
- Readers are provided with concrete guidelines on how to approach experimental efforts, how to systematically interpret data and correspondingly formulate a kinetic model
- Case studies cover a range of interesting practical possibilities for chemical reaction engineering
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Specificații
ISBN-13: 9780443240324
ISBN-10: 0443240329
Pagini: 512
Dimensiuni: 191 x 235 mm
Editura: ELSEVIER SCIENCE
ISBN-10: 0443240329
Pagini: 512
Dimensiuni: 191 x 235 mm
Editura: ELSEVIER SCIENCE
Cuprins
Part I: Modelling and Simulation Methodologies
1. Chemical reactions and reactors
2. Acquisition of data containing the relevant information for model construction
3. Data treatment and analysis
4. Rate equation derivation
5. Complex reaction networks
6. Rate and equilibrium coefficient determination
7. Model exploitation
Section II: Applied Case Studies
8. Gas phase heterogeneously catalysed reaction: butanediol dehydration
9. Liquid phase reaction: (trans)esterification reactions
10. Three-phase reaction: hydrogenation/hydrotreatment
11. Adsorption effects: from Langmuir adsorption in the Henry regime over saturation effects in solid materials to swelling phenomena in resins
12. Combined homogeneous/heterogeneous reactions: oxidative coupling of methane
13. Relevant reactor scales
14. Relevant phenomena: internal transport limitations, interphase transport limitations
1. Chemical reactions and reactors
2. Acquisition of data containing the relevant information for model construction
3. Data treatment and analysis
4. Rate equation derivation
5. Complex reaction networks
6. Rate and equilibrium coefficient determination
7. Model exploitation
Section II: Applied Case Studies
8. Gas phase heterogeneously catalysed reaction: butanediol dehydration
9. Liquid phase reaction: (trans)esterification reactions
10. Three-phase reaction: hydrogenation/hydrotreatment
11. Adsorption effects: from Langmuir adsorption in the Henry regime over saturation effects in solid materials to swelling phenomena in resins
12. Combined homogeneous/heterogeneous reactions: oxidative coupling of methane
13. Relevant reactor scales
14. Relevant phenomena: internal transport limitations, interphase transport limitations