Modelling and Simulation in Thermal and Chemical Engineering A Bond Graph Approach
The main object of this book is modeling and simulation of energetic processes by bond graphs. But even without knowledge of this powerful method it can be used to a certain extent as an introduction to simulation in thermodynamics. The book addresses advanced students, lecturers and researchers in...
| Main Authors: | , |
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| Format: | eBook |
| Language: | English |
| Published: |
Berlin, Heidelberg
Springer Berlin Heidelberg
2000, 2000
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| Edition: | 1st ed. 2000 |
| Subjects: | |
| Online Access: | |
| Collection: | Springer Book Archives -2004 - Collection details see MPG.ReNa |
Table of Contents:
- 1 Introduction to Thermodynamic Systems Modelling
- 2 Modelling of Thermofluids
- 3 Modelling of Chemical Systems and Phase Change
- 4 Bond Graph and Process Engineering
- 5 Industrial Application of Bond Graph Modelling
- A Elements of Bond Graph Modelling
- A.1 Definition
- A.2 Bond Graph Elements with one Port
- A.2.1 Representation
- A.2.2 Used Variables in Bond Graph Modelling
- A.2.3 Passive Elements
- A.2.4 Active Elements
- A.2.5 Junctions
- A.3 Bond Graph Elements with two Ports
- A.3.1 Transformer TF
- A.3.2 Gyrator GY
- A.3.3 Carrousel of Thoma
- A.3.4 Information Bonds
- A.4 Multiports Elements or C, I and R Fields
- A.4.1 Mixed Multiport IC
- A.4.2 Multiport R
- A.4.3 Multiport RS
- A.5 Causality Concept
- A.5.1 Rules of Causality Selection
- A.6 Bicausal Bond Graphs
- A.7 State Space Equations Associated to a Bond Graph.
- A.8 Pseudo Bond Graphs
- A.9 Conservation of Power and Conservation of Energy
- A.10 Thermal Inertia and Second Law of Thermodynamics
- A.11 Inverse Analogy
- A.12 References
- B Listing of Simulation Programs
- B.1 Hydro-Pneumatic Accumulator (Tutsim)
- B.2 Refueling Pneumatic Automobiles (Tutsim)
- B.3 Cooling of fuel for Diesel Cars (Tutsim)
- B.4 Ventilation of a building (Twentesim)
- B.5 Instrumentation of a Steam generator
- C Polynomial thermodynamic Functions
- D Heat Losses and Heat Exchanger Coefficients of Collectors
- D.1 Not Insulated Steam Conduit
- D.2 Insulated Steam Conduit
- D.3 Calculation of Heat Exchange Coefficients
- D.3.1 Superficial Heat Exchange Coefficient
- D.3.2 External Heat Exchange Coefficient
- D.4 References
- E Simulation Programs under Matlab-Simulink
- E.1 Block Diagram for the Steam Accumulator
- E.2 Resolution of the equation of two phase mixture
- F Heat Radiation and Solar Energy
- F.1 Units andUsual values of Power
- F.2 Heat Radiation and Solar Energy
- F.2.1 Solar Energy
- F.2.2 Thermal Balance of the Earth
- F.2.3 Thermal Radiation
- F.2.4 Solar Collector
- F.2.5 Glass House Effect and Thermal Death
- F.3 Philosophical Questions
- F.4 References
- 7 Liste of Used Symbols