Scale up in Chemical Engineering

From the contents:Dimensional Analysis- Fundamental Principles- What is a Dimension?- What is a Physical Quantity?- Basic and Derived Quantities, Dimensional Constants- Dimensional Systems- Dimensional Homogeneity of a Physical Content- The pi TheoremThe Determination of a Pi Set by Matrix RemodellingScale Invariance of a Pi-Space - The Fundamentals of Scale-UpImportant Tips for the Construction of the Relevance List of a Problems- Treatment of Universal Physical Constants- Introduction of Intermediate QuantitiesImportant Aspects Concerning Scale-Up- Scale-up at the Unavailability of a Model Material System- Scale-up under Conditions of Partial SimilarityPreliminary Summary of the Essentials of Scale-Up-Advantages of Dimensional Analysis- Applicability of Dimensional Analysis- Experimental Techniques for Scale-upTreatment of Variable Physical Properties by Dimensional Analysis- Dimensionless Representation of the Material FunctionReference-invariant R eprese 04ntation of the Material Function- Pi-Space for Variable Physical Properties- Material Function for the non-Newtonian Fluids- Pi-Space for non-Newtonian FluidsReduction of the Pi-SpaceTypical Problems and Mistakes in Carrying out the Dimensional AnalysisOptimization of the Process Conditions by Combining of Process CharacteristicsSelected Examples- Selected Examples of the Use of Dimensional Analysis in the Mechanical Process Engineering- Selected Examples of the Use of Dimensional Analysis in the Thermal Process Engineering- Selected Examples of the Use of Dimensional Analysis in the Chemical Process Engineering- Selected Examples of the Use of Dimensional Analysis in the Living World- Index of Important, Named Dimensionless Numbers

Book Info:

Published in 2002

Author Marko Zlokarnik

ISBN 3527302662Size 1.90MB

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