Polymer Reactor EngineeringC. McGreavy Blackie Academic & Professional, 1994 - 236 páginas This book provides a definitive source of information on the chemical reaction engineering aspects of polymer production processes. Recent reviews in the USA by the Chemical Society and the Institute of Chemical Engineers have concluded that polymers will continue to grow in importance as they are tailored to suit specific applications. This book focuses on engineering aspects of reactor design and operation and, in particular, how the properties of polymers are determined by the relationships between chemical kinetics and mechanical design. |
Contenido
Uses and applications of polymers | 1 |
References | 85 |
Mathematical modelling of polymerization kinetics | 87 |
Derechos de autor | |
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Términos y frases comunes
analysis anionic polymerization approach approximation ation average molecular weight batch reactor calibration chain length distribution Chem chemical column concentration condensation condensation polymerization crystalline crystallization CSTR degree of polymerization detector devolatilization dilute dissolution dynamics E(Wout emulsion polymerization Engineering equation equilibrium example exothermic flow rate fraction free radical function heat transfer high molecular weight initiator intrinsic viscosity linear living polymerization material measurement mechanism melt methods methyl methacrylate mixing molar mass molecular weight distribution moments monomer monomer conversion mould nonlinear obtained on-line operating oscillations P₁ particle PCLD polydispersity polymer chain length polymer molecules polymer solutions polymeriz polymerization kinetics polymerization processes polymerization reactor possible pressure problem propagation radical polymerization rate of polymerization reacting reaction reactivity reactor design repeat units result sampling semibatch shown in Figure solvent statistical step polymerization step-growth polymerization stirred tank reactor structure techniques temperature thermal tube typical variables volume z-transforms