Notice bibliographique
- Notice
Type(s) de contenu et mode(s) de consultation : Texte noté : électronique
Titre(s) : Hydrodynamics of gas-liquid reactors [Texte électronique] : normal operation and upset conditions / B.J. Azzopardi [and others]
Publication : [Hoboken, N.J.?] : Wiley, 2011
Description matérielle : 1 ressource dématérialisée
Note(s) : Includes bibliographical references and index
"The design of chemical reactors and their safety are as critical to the success of
a chemical process as the actual chemistry taking place within the reactor. This book
provides a comprehensive overview of the practical aspects of multiphase reactor design
and operation with an emphasis on safety and clean technology. It considers not only
standard operation conditions, but also the problems of runaway reaction conditions
and protection against ensuing over-pressure. Hydrodynamics of Multiphase Reactors
addresses both practical and theoretical aspects of this topic. Initial chapters discuss
various different types of gas/liquid reactors from a practical viewpoint, and later
chapters focus on the modelling of multiphase systems and computational methods for
reactor design and problem solving. The material is written by experts in their specific
fields and will include chapters on the following topics: Multiphase flow, Bubble
columns, Sparged stirred vessels, Macroscale modelling, Microscale modelling, Runaway
conditions, Behaviour of vessel contents, Choked flow, Measurement techniques"
Autre(s) auteur(s) : Azzopardi, Barry J.. Fonction indéterminée
Sujet(s) : Réacteurs chimiques -- Conception et construction
Réacteurs chimiques -- Dynamique des fluides -- Modèles mathématiques
Interfaces gaz-liquide
Indice(s) Dewey :
660.283 2 (23e éd.) = Réacteurs chimiques
Identifiants, prix et caractéristiques : ISBN 9781119970712
Identifiant de la notice : ark:/12148/cb44656608z
Notice n° :
FRBNF44656608
(notice reprise d'un réservoir extérieur)
Table des matières : Preface ; Introduction ; PART I ; Bubble columns ; 2.1 Introduction ; 2.2 Types
of bubble columns ; 2.3 Introduction of gas ; 2.4 Disengagement of liquid from gas
; Questions for Chapter 2 ; References for Chapter 2 ; Sparged stirred vessels
; 3.1 Introduction ; 3.2 Flow regimes ; 3.3 Variations ; 3.4 Spargers ; 3.5 Impellers
; 3.6 Baffles ; 3.7 Power requirements ; 3.8 Gas Fraction ; 3.9 Mass Transfer
; 3.10 Mixing Time ; Questions for Chapter 3 ; References for Chapter 3 ; Thin
film reactors ; 4.1 Introduction ; 4.2 Falling film reactors ; 4.3 Rotating disk
reactors ; 4.4 Two-phase tubular reactors ; 4.5 Monolith reactors ; Questions for
Chapter 4 ; References for Chapter 4 ; Macroscale modelling ; 5.1 Introduction
; 5.2 Eulerian multiphase flow model ; 5.3 Poly-dispersed flows ; 5.4 Gassed stirred
vessels ; 5.5 Summary of chapter ; Questions for Chapter 5 ; References for Chapter
5 ; Mesoscale modelling using lattice Boltzmann method ; 6.1
PART II ; Upset conditions ; 7.1 Introduction ; 7.2 Active relief methods ; 7.3
Passive relief methods ; Behaviour of vessel contents and outflow calculations ;
8.1 Introduction ; 8.2 Modelling of level swell process ; 8.3 Vent sizing and vent
performance calculations ; 8.4 Computer codes for level swell and venting calculations
; 8.5 Obtaining necessary data ; 8.6 Performance of models and codes ; Questions
for Chapter 8 ; References for Chapter 8 ; Choked flow ; 9.1 Introduction ; 9.2
Single phase flow ; 9.3 Two-phase flow ; 9.4 Effect of Vent Pipework ; Questions
for Chapter 9 ; References for Chapter 9.
PART III ; Measurement Techniques ; 10.1 Bubble columns ; 10.2 Sparged stirred tanks
; 10.3 Falling film reactors ; Examples for Chapter 10 ; References for Chapter
10.