SOUTHERN UNIVERSITY AND A & M COLLEGE
Baton Rouge, Louisiana
COLLEGE OF ENGINEERING
Department of Mechanical Engineering
MeEn 444 Heat Lab
Experiment No.: 5
Title of the experiment
Design Experiment to Measure the ThermoPhysical Properties of a Food Produ
One-Dimensional, Steady-State
Conduction with
Thermal Energy Generation
Thermal
Chapter Three
Section 3.5, Appendix C
Implications
Implications
Implications of Energy Generation
Involves a local (volumetric) source of thermal energy due to conversion
fro
One-Dimensional, Steady-State
One-Dimensional,
Conduction without
Thermal Energy Generation
Chapter Three
Sections 3.1 through 3.4
Methodology
Methodology of a Conduction Analysis
Specify appropriate form of the heat equation.
Solve for the temperature di
Fouriers Law
Fouriers
and the
Heat Equation
Chapter Two
Fouriers Law
Fouriers Law
A rate equation that allows determination of the conduction heat flux
from knowledge of the temperature distribution in a medium
Its most general (vector) form for multidi
Transient Conduction:
Finite-Difference Equations
Finite-Difference
and
and
Solutions
Solutions
Chapter 5
Section 5.10
Finite-Difference Method
Finite-Difference
The Finite-Difference Method
An approximate method for determining temperatures at discrete
Transient Conduction:
Transient
Spatial Effects and the Role of
Analytical Solutions
Chapter 5
Sections 5.4 to 5.8
Plane Wall
Plane
Solution to the Heat Equation for a Plane Wall with
Symmetrical Convection Conditions
If the lumped capacitance approximat
Transient Conduction:
Transient
The Lumped Capacitance Method
Chapter Five
Sections 5.1 thru 5.3
Transient Conduction
Transient
Transient Conduction
A heat transfer process for which the temperature varies with time, as well
as location within a solid.
Two-Dimensional Conduction:
Two-Dimensional
Finite-Difference Equations
and
Solutions
Chapter 4
Sections 4.4 and 4.5
Finite-Difference Method
Finite-Difference
The Finite-Difference Method
An approximate method for determining temperatures at discrete
(n
Two-Dimensional Conduction:
Two-Dimensional
Shape Factors
and
Dimensionless Conduction Heat Rates
Chapter 4
Sections 4.1 and 4.3
General Considerations
General
General Considerations
Two-dimensional conduction:
Temperature distribution is characterized
Conservation of Energy
Conservation
Chapter One
Section 1.3
Section
Alternative Formulations
CONSERVATION OF ENERGY
(FIRST LAW OF THERMODYNAMICS)
An important tool in heat transfer analysis, often
providing the basis for determining the temperature
of a
SOUTHERN UNIVERSITY AND A & M COLLEGE
Baton Rouge, Louisiana
COLLEGE OF ENGINEERING
Department of Mechanical Engineering
MeEn 335 Materials Processing
Experiment No.: 2
Title of the experiment
A Comparative Study of 1040 Medium Carbon
Steel
By: Chukwuemek
SOUTHERN UNIVERSITY AND A & M COLLEGE
Baton Rouge, Louisiana
COLLEGE OF ENGINEERING
Department of Mechanical Engineering
MeEn 444 Heat Lab
Experiment No.: 4
Title of the experiment
Heat Exchanger
By: Rafeal Amin, Chiedu Odita, Chukwuemeka
Nwabugwu, Obinna
SOUTHERN UNIVERSITY AND A & M COLLEGE
Baton Rouge, Louisiana
COLLEGE OF ENGINEERING
Department of Mechanical Engineering
MeEn 444 Heat Lab
Experiment No.: 3
Title of the experiment
Free and Forced Convection
By: Rafeal Amin, Chiedu Odita, Chukwuemeka
Nwab
SOUTHERN UNIVERSITY AND A & M COLLEGE
Baton Rouge, Louisiana
COLLEGE OF ENGINEERING
Department of Mechanical Engineering
MeEn 444 Heat Lab
Experiment No.: 2
Title of the experiment
Linear and Radial Conduction Experiments
By: Rafeal Amin, Chiedu Odita, Ch
Extended Surfaces
Extended
Chapter Three
Section 3.6
Nature and Rationale
Nature
Nature and Rationale of Extended Surfaces
An extended surface (also know as a combined conduction-convection system
or a fin) is a solid within which heat transfer by conduc