Industrial Chemistry Reactions: Kinetics, Mass Transfer and Industrial Reactor Design

Industrial Chemistry Reactions: Kinetics, Mass Transfer and Industrial Reactor Design

Nowadays, the impressive progress of commercially available computers allows us to solve complicated mathematical problems in many scientific and technical fields. This revolution has reinvigorated all aspects of chemical engineering science. More sophisticated approaches to catalysis, kinetics, rea...

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Bibliographic Details
Other Authors: Santacesaria, Elio (Editor), Tesser, Riccardo (Editor), Russo, Vincenzo (Editor)
Format: Electronic Book Chapter
Language:English
Published: Basel MDPI - Multidisciplinary Digital Publishing Institute 2022
Subjects:
Technology: general issues
heat exchanger
mathematical model
energy efficiency
inversion loss
process design
mass transfer
hydrogenation
slurry reactor
muconic acid
adipic acid
LHHW model
kinetics
epoxides
soybean oil
hydrogen peroxide
ring opening reaction
continuous flow stirred tank reactor (CSTR)
phase transfer catalysis (PTC)
green chemistry
multiphase reactor
liquid-liquid-liquid reactions
guaiacol
epichlorohydrin
guaiacol glycidyl ether
slow and rapid reactions
robust parameter estimation
dimethyl carbonate
gas-solid catalytic reactions
chemical kinetics
heat and mass transfer
packed bed reactor
multiphase system
phase-field LB model
complex channel
flow pattern
bubble evolution
Suzuki cross-coupling
hyper-cross-linked polystyrene
palladium nanoparticles
catalyst stability
carbonization
halogenation
spent resin
kinetic analysis
thermodynamic analysis
numerical optimization
ultrasonic spraying
three-phase reactor
triolein
transesterification
CaO
methanol vapor
1,1-diethoxybutane
heterogeneous catalysts
adsorption
process intensification
simulated moving bed reactor
deoxygenation efficiency
vacuum-N2-H2O-O2 system
rotor-stator reactor
correlation
n/a
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Description
Summary:Nowadays, the impressive progress of commercially available computers allows us to solve complicated mathematical problems in many scientific and technical fields. This revolution has reinvigorated all aspects of chemical engineering science. More sophisticated approaches to catalysis, kinetics, reactor design, and simulation have been developed thanks to the powerful calculation methods that have recently become available. It is well known that many chemical reactions are of great interest for industrial processes and must be conducted on a large scale in order to obtain needed information in thermodynamics, kinetics, and transport phenomena related to mass, energy, and momentum. For a reliable industrial-scale reactor design, all of this information must be employed in appropriate equations and mathematical models that allow for accurate and reliable simulations for scaling up purposes. The aim of this proposed Special Issue was to collect worldwide contributions from experts in the field of industrial reactor design based on kinetic and mass transfer studies. The following areas/sections were covered by the call for original papers: Kinetic studies on complex reaction schemes (multiphase systems); Kinetics and mass transfer in multifunctional reactors; Reactions in mass transfer-dominated regimes (fluid-solid and intraparticle diffusive limitations); Kinetic and mass transfer modeling using alternative approaches (ex. stochastic modeling); Simulations in pilot plants and industrial-sized reactors and scale-up studies based on kinetic studies (lab-to-plant approach).
Physical Description:1 electronic resource (230 p.)
ISBN:books978-3-0365-4156-3
9783036541556
9783036541563
Access:Open Access

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