Demystifying Numerical Models Step-by Step Modeling of Engineering Systems
Auteurs : Mo John, Cheung Sherman, Das Raj
Demystifying Numerical Models: Step-by Step Modeling of Engineering Systems is the perfect guide on the analytic concepts of engineering components and systems. In simplified terms, the book focuses on engineering characteristics and behaviors using numerical methods. Readers will learn how the computational aspects of engineering analysis can be applied to develop various engineering systems to a level that is fit for implementation.
1. Introduction to Numerical Representation of Engineering Systems 2. Basic Numerical Techniques 3. Liquid power systems 4. Heat transfer systems 5. Gas power systems 6. Electrical power systems 7. Industrial systems 8. Systems engineering 9. Beam Deflection 10. Vibration 11. Composite
Dr. Sherman C.P. Cheung is Associate Professor and Program Manager of Mechanical Engineering at RMIT University. Dr. Cheung is an expert in numerical modelling using Computational Fluid Dynamics (CFD) technique. His expertise includes fire dynamics modelling, multiphase flow modelling, numerical heat and mass transfer and computational optimization algorithms. In the past 15 years of his career, he has actively engaged in various consultancy projects with industrial partners using numerical techniques to perform safety analysis, design optimization, risk analysis and system performance assessment.
Dr Raj Das is Associate Professor in the Aerospace and Aviation department and a principal investigator of the ‘Sir Lawrence Wackett Aerospace Research Centre’ of RMIT University, Australia. Dr Das has a PhD from Monash University, Australia in Structural Optimisation and Failure Analysis. Dr Das has previously worked in the University of Auckland, the Commonwealth Scientific and Industrial Research Organisation (CSIRO), and the University of Manchester. Dr Das has resear
- Provides numerical examples and graphical representations of complex mathematical models
- Includes downloadable spreadsheets of the numerical tools discussed that allow the reader to gain a hands-on understanding of how they work
- Explains the engineering foundations behind the increasingly widespread and complex numerical models
Date de parution : 09-2018
Ouvrage de 274 p.
15x22.8 cm
Thème de Demystifying Numerical Models :
Mots-clés :
Aerodynamic; Aerospace; Airfoil; BEM; Beam; Boundary condition; CFD; Circuit; Civil; Contour; Current; Deformation; Density; Displacement; Electric component; Electrical system; Energy; Engineering; Engineering system; Euclidean distance; Failure mode and effects analysis; Finite difference method; Friction force; Integrity; Internal rate of return; Library; Machine; Marginal attractive rate of return; Mass; Mathematical model; Modeling; Net present value; Nonlinear; Numerical method; Plate; Polynomial; Radiation; Safety; Solid mechanics; Solution; Specific heat; Stability; Steady state heat conduction; Temperature gradient; Thermal conductivity; Trial-and-error; Velocity; Vibration; Voltage; Wind turbine