Untitled - University of New Orleans
Untitled - University of New Orleans
Untitled - University of New Orleans
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one-equation and two-equation models. Second order models, Reynolds<br />
stresses, multi-equation models.<br />
ENME 6728 Adv Computatnl Fluid Dynamics<br />
3 cr.<br />
Prerequisites: ENME 3720 and 3020, ENME 4728, and CSCI 1201, or<br />
consent <strong>of</strong> department. Numerical modeling <strong>of</strong> the equations <strong>of</strong><br />
fluid mechanics. Equation classification, theory <strong>of</strong> characteristics.<br />
Survey <strong>of</strong> discretization methods: finite difference, finite volume,<br />
integral methods. Basic grid generation techniques. Stability analysis<br />
for finite difference equations. Discretization techniques applied<br />
to steady state and tine dependent problems in multi-dimensions.<br />
Navier-Strokes equations, inviscid and viscous flow. Course will<br />
include projects to develop finite difference codes in areas relevant<br />
to student’s research interests.<br />
ENME 6730 Multiphase Flow<br />
3 cr.<br />
Prerequisites: ENME 3720. Fundamentals <strong>of</strong> various physical interactions<br />
in flow systems involving more than one phase, including<br />
gas-solid, gas-liquid, liquid-solid, and three-phase interactions. Primary<br />
emphasis is placed on the fluid dynamics <strong>of</strong> particles, droplets,<br />
and bubbles suspended in a fluid. The effects <strong>of</strong> phenomena<br />
such as Brownian motion, Basset effect, Magnus effect, virtual or<br />
apparent mass effect, shear lift, surface charge, particle and droplet<br />
mobility, electro- phoresis, thermo-phoresis, photo-phoresis, and<br />
diffusion-phoresis are covered. Applications to multiphase system<br />
equipment and processes such as dust collectors, fluidized beds,<br />
aerodynamic ablation, xerography, atomizers, combustors, evaporation,<br />
droplet coalescence and break-up, cavitation, and aeration<br />
are highlighted.<br />
ENME 6753 Advanced Continuum Mechanics<br />
3 cr.<br />
Prerequisite: consent <strong>of</strong> department. Kinematics <strong>of</strong> motion and<br />
deformation; general development <strong>of</strong> balance equations <strong>of</strong> continuum<br />
mechanics; theory <strong>of</strong> constitutive equations; study <strong>of</strong> the<br />
constitutive equations for elastic, hyperelastic, viscoelastic, and<br />
plastic materials.<br />
ENME 6755 Advanced Vibrations<br />
3 cr.<br />
Prerequisite: ENME 4757. Lagrange’s equations <strong>of</strong> motion and their<br />
application to vibration analysis; multi-degree <strong>of</strong> freedom systems;<br />
matrix methods; and transients.<br />
ENME 6756 Theory <strong>of</strong> Plasticity<br />
3 cr.<br />
Prerequisite: ENCE 6353 or consent <strong>of</strong> department. Stress and strain<br />
tensors; elastic stress-strain relations criteria <strong>of</strong> yielding; plastic<br />
stress-strain relations; elastoplastic problems <strong>of</strong> spheres and cylinders;<br />
the plane elastoplastic problem; the slip-line field.<br />
ENME 6758 Adv Comp Methd Solid Mechanics<br />
3 cr.<br />
Prerequisites: ENME 3020 or consent <strong>of</strong> department. Numerical methods<br />
for solving problems involving deformable solids. Variational<br />
methods including Galerkin, Rayleigh-Ritz, and other weighted<br />
residual techniques are covered. Finite difference, finite element,<br />
and boundary element techniques are presented.<br />
ENME 6770 Advanced Thermodynamics<br />
3 cr.<br />
Prerequisites: ENME 3770 or consent <strong>of</strong> department. Review <strong>of</strong><br />
basic laws <strong>of</strong> classical thermodynamics. Reversible and irreversible<br />
processes. Second law analysis. Entropy and availability. Maxwell<br />
relations. Thermodynamics <strong>of</strong> mixtures, first and second law<br />
<strong>of</strong> reacting systems. Phase equilibrium. Introduction to statistical<br />
thermodynamics.<br />
ENME 6771 Conduction Heat Transfer<br />
3 cr.<br />
Prerequisite: ENME 4771 or consent <strong>of</strong> department. Conduction heat<br />
transfer; steady state and transient system; one-dimensional, twodimensional,<br />
and three-dimensional systems.<br />
ENME 6772 Convection Heat Transfer<br />
3 cr.<br />
Prerequisites: ENME 4771 and 4720 or consent <strong>of</strong> department. Forced<br />
and free convection heat transfer in laminar and turbulent flow;<br />
condensation and evaporation; and special heat transfer processes.<br />
ENME 6773 Radiation Heat Transfer<br />
3 cr.<br />
Prerequisite: ENME 4771. Radiative heat exchange among specularly<br />
and diffusely reflecting surfaces; radiant interchange in participating<br />
media; combined radiation, conduction, and convection; and<br />
advanced topics.<br />
ENME 6774 Computational Heat Transfer<br />
3 cr.<br />
Prerequisites: ENME 3771 or consent <strong>of</strong> the department. Foundations<br />
<strong>of</strong> finite - difference and finite element methods. Classification <strong>of</strong><br />
governing differential equations in heat transfer. Discrete approximations<br />
<strong>of</strong> derivatives. Methods <strong>of</strong> solving sets <strong>of</strong> algebraic equations,<br />
computationals methods for steady state, parabolic, elliptic,<br />
and hyperbolic type <strong>of</strong> heat transfer problems. Non-linear heat<br />
transfer problems. Introduction to grid generation.<br />
Engineering Management<br />
ENMG 4130 Change Management<br />
3 cr.<br />
Prerequisite: none except senior or graduate status and consent <strong>of</strong><br />
department. This course is designed to provide techniques and principles<br />
as to how to introduce change into organizations. Emphasis<br />
will be on the three phases <strong>of</strong> change; initiating change, implementing<br />
change, and institutionalizing change. Means <strong>of</strong> applying<br />
change principles will be developed through the use <strong>of</strong> templates<br />
and worksheets.<br />
ENMG 4130G Change Management<br />
3 cr.<br />
Prerequisite: none except senior or graduate status and consent <strong>of</strong><br />
department. This course is designed to provide techniques and principles<br />
as to how to introduce change into organizations. Emphasis<br />
will be on the three phases <strong>of</strong> change; initiating change, implementing<br />
change, and institutionalizing change. Means <strong>of</strong> applying<br />
change principles will be developed through the use <strong>of</strong> templates<br />
and worksheets.<br />
ENMG 4471 Quality Management<br />
3 cr.<br />
(MANG 4471 and ENMG 4471 are cross-listed) Prerequisite: MANG<br />
3402 or consent <strong>of</strong> department. May not receive graduate credit for<br />
both MANG/ENMG 4471 and MANG 6471. Describes the basic concepts<br />
<strong>of</strong> quality planning and quality control. Discussion on quality<br />
improvement plans, Deming philosophy, and Juran’s quality trilogy,<br />
the Deming prize and Baldrige award for quality excellence, and<br />
quality circles. Study <strong>of</strong> the statistical approach to quality control<br />
and the use <strong>of</strong> control charts and other quality control tools. Case<br />
studies from around the world on the implementation <strong>of</strong> total<br />
quality management.<br />
ENMG 4471G Quality Management<br />
3 cr.<br />
(MANG 4471 and ENMG 4471 are cross-listed) Prerequisite: MANG<br />
3402 or consent <strong>of</strong> department. May not receive graduate credit for<br />
both MANG/ENMG 4471 and MANG 6471. Describes the basic concepts<br />
<strong>of</strong> quality planning and quality control. Discussion on quality<br />
improvement plans, Deming philosophy, and Juran’s quality trilogy,<br />
the Deming prize and Baldrige award for quality excellence, and<br />
quality circles. Study <strong>of</strong> the statistical approach to quality control<br />
and the use <strong>of</strong> control charts and other quality control tools. Case<br />
studies from around the world on the implementation <strong>of</strong> total<br />
quality management.<br />
ENMG 6090 Internship in Engr Management<br />
1 cr.<br />
Prerequisite: Consent <strong>of</strong> department. Permits students to be engaged<br />
in at least 10 hours per week at the site <strong>of</strong> an assigned participating<br />
organization that directs interns in specific projects relating<br />
to engineering management. Students wishing to take this course<br />
<strong>University</strong> <strong>of</strong> <strong>New</strong> <strong>Orleans</strong>/250