Chapter 2. Mathematical Expression of Conduction

Slides:

Advertisements

Similar presentations

Transient Conduction: The Lumped Capacitance Method

Advertisements

Fourier’s Law and the Heat Equation

Fourier’s Law and the Heat Equation

Chapter 2: Steady-State One-Dimensional Heat Conduction

Chapter 3 Steady-State Conduction Multiple Dimensions

ECE602 BME I Partial Differential Equations in Biomedical Engineering.

MECh300H Introduction to Finite Element Methods

02 October 2007 KKKQ 3013 PENGIRAAN BERANGKA Week 13 – Partial Differential Equations 02 October am – 9.00 am.

25 September 2007 KKKQ 3013 PENGIRAAN BERANGKA Week 12 – Partial Differential Equations 25 September am – 9.00 am.

An Introduction to Heat Flow

The Heat Conduction Equation P M V Subbarao Associate Professor Mechanical Engineering Department IIT Delhi An Easy Solution to Industrial Heat Transfer.

Solutions of the Conduction Equation P M V Subbarao Associate Professor Mechanical Engineering Department IIT Delhi An Idea Generates More Mathematics….

Types of Governing equations

Transient Conduction: The Lumped Capacitance Method

CHAPTER 8 APPROXIMATE SOLUTIONS THE INTEGRAL METHOD

Heat Transfer Rates Conduction: Fourier’s Law

Heat Diffusion Equation Apply this equation to a solid undergoing conduction heat transfer: E=mc p T=(  V)c p T=  (dxdydz)c p T dy dx qxqx q x+dx x y.

Matmol Metoda linii Method of lines

9.6 Other Heat Conduction Problems

CHAPTER 7 NON-LINEAR CONDUCTION PROBLEMS

Scientific Computing Partial Differential Equations Introduction and

1 CHAPTER 5 POROUS MEDIA Examples of Conduction in Porous Media component electronic micro channels coolant (d) coolant porous material (e) Fig.

INTRODUCTION TO CONDUCTION

ASRAE Student Branch meeting Speaker: Kenneth Simpson USGBC – LEED rating system Today at 5 pm ECJ

1 CHAPTER 9 PERTURBATION SOLUTIONS 9.1 Introduction Objective Definitions Perturbation quantity Basic Problem To construct an approximate solution to a.

Boyce/DiPrima 9 th ed, Ch 10.8: Laplace’s Equation Elementary Differential Equations and Boundary Value Problems, 9 th edition, by William E. Boyce and.

Chapter 5: Numerical Methods in Heat Transfer

1 EEE 431 Computational Methods in Electrodynamics Lecture 3 By Dr. Rasime Uyguroglu.

Chapter 4 WORK AND HEAT

HEAT CONDUCTION EQUATION

Chapter 1: Fourier Equation and Thermal Conductivity

Finite Deference Method

Introduction to Numerical Methods for ODEs and PDEs Lectures 1 and 2: Some representative problems from engineering science and classification of equation.

Chapter 4 : Solution of Electrostatic ProblemsLecture 8-1 Static Electromagnetics, 2007 SpringProf. Chang-Wook Baek Chapter 4. Solution of Electrostatic.

MECH4450 Introduction to Finite Element Methods

Chapter 2: Heat Conduction Equation

Chapter 2 Conduction Chapter 2.

MA428 Class Project The Heat Equation Temperature Distribution in a Bar with Radiating Ends.

Finite-Difference Solutions Part 2

Chapter 16 Chemical Equilibrium. Different States a System Can Be In A state of change A state of change No change (there are several no change states.

11/11/2015PHY 711 Fall Lecture 311 PHY 711 Classical Mechanics and Mathematical Methods 10-10:50 AM MWF Olin 103 Plan for Lecture 31: Chapter 11.

1 Variational and Weighted Residual Methods. 2 Introduction The Finite Element method can be used to solve various problems, including: Steady-state field.

Part 8 - Chapter 29.

Chapter 2: Introduction to Conduction

differential equations of heat transfer

HW/Tutorial # 1 WRF Chapters 14-15; WWWR Chapters ID Chapters 1-2

Boundary-Value Problems in Rectangular Coordinates

Fourier’s Law and the Heat Equation

Boyce/DiPrima 10th ed, Ch 10.8: Laplace’s Equation Elementary Differential Equations and Boundary Value Problems, 10th edition, by William E. Boyce and.

One Dimensional Steady State Heat Conduction

Fourier’s Law and the Heat Equation

Steady state thermal analysis in ASONIKA

Heat Diffusion Equation, Boundary Conditions and Initial Conditions

LECTURE 1 CHAPTER 11 HEAT.

Temperature, Heat and Thermal Expansion

Chapter 18 Temperature, Heat, and the First Law of Thermodynamics

SPECIFIC HEATS The specific heat is defined as the energy required to raise the temperature of a unit mass of a substance by one degree. In general, this.

Introduction to Partial Differential Equations

Chapter Three Sections 3.1 through 3.4

Partial Differential Equations

Finite Difference Method

ME/AE 339 Computational Fluid Dynamics K. M. Isaac Topic2_PDE

Chapter 6: Dirichlet and Neumann Problems

Simple ODEs to Study Thermofluids

Procedures in deriving element equations (General field problems)

Second Order-Partial Differential Equations

What are Fins ? Fins are extended surfaces used to increase the rate of heat transfer. It is made of highly conductive materials such as aluminum.

Chapter 4: Control Volume Analysis Using Energy

Chapter 19 The kinetic theory of gases

Consider an isothermal reversible expansion of an ideal gas

Presentation transcript:

Chapter 2. Mathematical Expression of Conduction

Differential Control Volume

The Heat Diffusion Equation Taylor Series Expansion

The thermal conductivity is constant: The Heat Diffusion Equation The thermal conductivity is constant: Under steady state condition: One dimensional/no energy generation:

Boundary and Initial Conditions For transient conduction, heat equation is first order in time, requiring specification of an initial temperature distribution: Since heat equation is second order in space, two boundary conditions must be specified.

Boundary and Initial Conditions Dirichlet condition or a B.C. of the first kind Neumann Condition or a B.C. of the second kind a B.C. of the third kind