Product and process modelling a case study approach
This book covers the area of product and process modelling via a case study approach. It addresses a wide range of modelling applications with emphasis on modelling methodology and the subsequent in-depth analysis of mathematical models to gain insight via structural aspects of the models. These app...
| Main Author: | |
|---|---|
| Other Authors: | |
| Format: | eBook |
| Language: | Inglés |
| Published: |
Oxford :
Elsevier
2011.
|
| Edition: | 1st ed |
| Subjects: | |
| See on Biblioteca Universitat Ramon Llull: | https://discovery.url.edu/permalink/34CSUC_URL/1im36ta/alma991009628400006719 |
Table of Contents:
- Cover; Product andProcess Modelling; Copyright; Contents; Contributors; Preface; Chapter - 1 Modelling: Nature and Use; Systems Perspectives for Model Development; Typical Problems Addressed by Systems Modelling; Global Perspectives on Model Development and Use; Chapter - 2 Modelling Practice; Problem and model definition; Model conceptualisation; Model data requirements; Model construction; Model Analysis; Summary; Chapter - 3 Computer Aided Modelling Methods and Tools; Methods-Tools for Model Representation; Unit operation modelling-steady state or dynamic
- Process type (Which unit operation? Distillation column)Modelling Toolbox; Model analysis; Example of application of ICAS-MoT; Using ICAS-MoT from Excel; Summary; References; Process modelling with ModDev; Tutorial example 1-steady-state tank (mixer); Tutorial example 2-dynamic tank mixer model with negligible energy holdup; Tutorial example 4-tank with reaction (CSTR); Other examples; Chapter - 4 Overview of the Case Studies; Chapter - 5 Constitutive Models; Modelling of temperature-dependent pure compound physical properties; Model Analysis; Life Cycle Perspectives on Modelling
- Modelling of a pure component property with an equation of stateDegree of Freedom Analysis; Model Analysis; Model Description; Solid-Liquid Equilibrium; Model Description; Model Analysis; Assumptions; Model Description; Model Analysis; Numerical Solution; Chapter - 6 Steady-State Process Modelling; Williams-Otto Plant; Problem description: Microcapsule-controlled release of pesticide or pharma-products; Conversion of Ethylene to Ethanol; Solution Strategy; Bio-Ethanol Process; Model Description; Equation-Oriented Approach (Model Derivation); Modular Modelling (Process Simulator); References
- Chapter - 7 Modelsfor Dynamic ApplicationsProblem description: Blending tank; Purpose of the model; Solution strategy; List of equations; Numerical Solution; Dynamic Chemical Reactor; Modelling Objective; Chapter - 8 Distributed Parameter Modelling Applications; Context of the modelling; Purpose of the model; Mass balance on shale and moisture; Dense phase energy balance; Zone A energy balance; Chapter - 9 Tennessee Eastman Plant-wide Industrial Process Challenge Problem; Simplified Model; Mass balance equations (holdup of component i in each unit operation)
- Conditional equations (volume) for reactor, separator andpurgeIncidence Matrix; Model Analysis; Numerical Solution; Subscript; Full (Process) Model; Process Model; Greek symbols; Chapter - 10 Modelling of Batch Process Operations; Model Description; Model Generation; Modelling Batch Distillation Operations; Nomenclature (for section 10.1); A: Batch crystallisation operation scenario versus state, and available data/information; Chapter - 11 Parameter Estimation Written in conjunction with Prof Mauricio Sales-Cruz and Miss Martina Heitzig; Model Description
- Kinetic Modelling - Parameter Estimation (1)
