Fundamentals of the Finite Element Method for Heat and Mass Transfer 2nd Edition by Perumal Nithiarasu, Roland Lewis, Kankanhalli Seetharamu 1118535431 9781118535431

Fundamentals of the Finite Element Method for Heat and Mass Transfer 2nd Edition by Perumal Nithiarasu, Roland W. Lewis, Kankanhalli N. Seetharamu – Ebook PDF Instant Download/DeliveryISBN:  1118535431, 9781118535431 

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Product details:

ISBN-10 :  1118535431 

ISBN-13 :  9781118535431

Author:  Perumal Nithiarasu, Roland W. Lewis, Kankanhalli N. Seetharamu 

Fundamentals of the Finite Element Method for Heat and Mass Transfer, Second Edition is a comprehensively updated new edition and is a unique book on the application of the finite element method to heat and mass transfer. •  Addresses fundamentals, applications and computer implementation • Educational computer codes are freely available to download, modify and use •  Includes a large number of worked examples and exercises •  Fills the gap between learning and research

Fundamentals of the Finite Element Method for Heat and Mass Transfer 2nd table of contents: 

1 Introduction
1.1 Importance of Heat and Mass Transfer
1.2 Heat Transfer Modes
1.3 The Laws of Heat Transfer
1.4 Mathematical Formulation of Some Heat Transfer Problems
1.5 Heat Conduction Equation
1.6 Mass Transfer
1.7 Boundary and Initial Conditions
1.8 Solution Methodology
1.9 Summary
1.10 Exercises
References
2 Some Basic Discrete Systems
2.1 Introduction
2.2 Steady-state Problems
2.3 Transient Heat Transfer Problem
2.4 Summary
2.5 Exercises
References
Note
3 The Finite Element Method
3.1 Introduction
3.2 Elements and Shape Functions
3.3 Formulation (Element Characteristics)
3.4 Formulation for the Heat Conduction Equation
3.5 Requirements for Interpolation Functions
3.6 Summary
3.7 Exercises
References
4 Steady-State Heat Conduction in One-dimension
4.1 Introduction
4.2 Plane Walls
4.3 Radial Heat Conduction in a Cylinder Wall
4.4 Solid Cylinder with Heat Source
4.5 Conduction–convection Systems
4.6 Summary
4.7 Exercises
References
Note
5 Steady-state Heat Conduction in Multi-dimensions
5.1 Introduction
5.2 Two-dimensional Plane Problems
5.3 Rectangular Elements
5.4 Plate with Variable Thickness
5.5 Three-dimensional Problems
5.6 Axisymmetric Problems
5.7 Summary
5.8 Exercises
References
6 Transient Heat Conduction Analysis
6.1 Introduction
6.2 Lumped Heat Capacity System
6.3 Numerical Solution
6.4 One-dimensional Transient State Problem
6.5 Stability
6.6 Multi-dimensional Transient Heat Conduction
6.7 Summary
6.8 Exercises
References
7 Laminar Convection Heat Transfer
7.1 Introduction
7.2 Navier-Stokes Equations
7.3 Nondimensional Form of the Governing Equations
7.4 The Transient Convection-Diffusion Problem
7.5 Stability Conditions
7.6 Characteristic Based Split (CBS) Scheme
7.7 Artificial Compressibility Scheme
7.8 Nusselt Number, Drag and Stream Function
7.9 Mesh Convergence
7.10 Laminar Isothermal Flow
7.11 Laminar Nonisothermal Flow
7.12 Extension to Axisymmetric Problems
7.13 Summary
7.14 Exercises
References
8 Turbulent Flow and Heat Transfer
8.1 Introduction
8.2 Treatment of Turbulent Flows
8.3 Solution Procedure
8.4 Forced Convective Flow and Heat Transfer
8.5 Buoyancy-driven Flow
8.6 Other Methods for Turbulence
8.7 Detached Eddy Simulation (DES) and Monotonically Integrated LES (MILES)
8.8 Direct Numerical Simulation (DNS)
8.9 Summary
References
9 Heat Exchangers
9.1 Introduction
9.2 LMTD and Effectiveness-NTU Methods
9.3 Computational Approaches
9.4 Analysis of Heat Exchanger Passages
9.5 Challenges
9.6 Summary
References
10 Mass Transfer
10.1 Introduction
10.2 Conservation of Species
10.3 Numerical Solution
10.4 Turbulent Mass Transport
10.5 Summary
References
11 Convection Heat and Mass Transfer in Porous Media
11.1 Introduction
11.2 Generalized Porous Medium Flow Approach
11.3 Discretization Procedure
11.4 Nonisothermal flows
11.5 Porous Medium-Fluid Interface
11.6 Double-diffusive Convection
11.7 Summary
References
12 Solidification
12.1 Introduction
12.2 Solidification via Heat Conduction
12.3 Convection During Solidification
12.4 Summary
References
13 Heat and Mass Transfer in Fuel Cells
13.1 Introduction
13.2 Mathematical Model
13.3 Numerical Solution Algorithms
13.4 Summary
References
14 An Introduction to Mesh Generation and Adaptive Finite Element Methods
14.1 Introduction
14.2 Mesh Generation
14.3 Boundary Grid Generation
14.4 Adaptive Refinement Methods
14.5 Simple Error Estimation and Mesh Refinement
14.6 Interpolation Error Based Refinement
14.7 Summary
References
15 Implementation of Computer Code
15.1 Introduction
15.2 Preprocessing
15.3 Main Unit
15.4 Postprocessing
15.5 Summary

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Tags: Fundamentals, the Finite Element, Mass Transfer, Perumal Nithiarasu, Roland Lewis, Kankanhalli Seetharamu