Untitled - University of New Orleans
Untitled - University of New Orleans
Untitled - University of New Orleans
Create successful ePaper yourself
Turn your PDF publications into a flip-book with our unique Google optimized e-Paper software.
ENME 3095 Spec Prob in Mech Engineering<br />
1 cr.<br />
Prerequisite: Junior standing in engineering. Seminar, independent<br />
study, and research participation in mechanical engineering.<br />
ENME 3711 Thermal Sciences Lab<br />
1 cr.<br />
Prerequisites: credit in ENME 3771 or consent <strong>of</strong> department. A laboratory<br />
in engineering thermodynamics and heat transfer. Three<br />
hours <strong>of</strong> laboratory.<br />
ENME 3716 Fluid Mechanics Lab<br />
1 cr.<br />
Prerequisite: credit or registration in ENME 3720 or consent <strong>of</strong><br />
department. A laboratory in engineering fluid mechanics and<br />
hydraulics. Three hours <strong>of</strong> laboratory.<br />
ENME 3720 Fluid Mechanics<br />
3 cr.<br />
Prerequisites: MATH 2221, ENME 2750 and credit or registration in<br />
ENME 3770 and MATH 2115. Fluid statics, concepts, principles, and<br />
methods <strong>of</strong> fluid motion, potential flow. Introduction to boundary<br />
layer; turbulence and drag; dimensional analysis and similitude.<br />
ENME 3733 Machine Design<br />
3 cr.<br />
Prerequisites: ENGL 2152, ENME 3734 and credit or registration in<br />
ENME 3735. Theory and practice <strong>of</strong> machine design applied to entire<br />
machines. Complete design including drawings, analysis, written<br />
report, and oral presentation are required.<br />
ENME 3734 Machine Elements<br />
3 cr.<br />
Prerequisites: ENCE 2351, ENME 2740 and credit or registration in<br />
ENME 2785. Application <strong>of</strong> engineering mechanics to the design and<br />
selection <strong>of</strong> machine elements. Fatigue. Working stresses. Failure<br />
theories.<br />
ENME 3735 Mechanism Design<br />
3 cr.<br />
Prerequisites: CSCI 1201 or 1205 and ENME 2750. Kinematic synthesis<br />
<strong>of</strong> mechanisms and dynamics <strong>of</strong> machinery; design <strong>of</strong> mechanisms<br />
to generate required point paths, functions, or transformations<br />
between modes <strong>of</strong> motion; translation to rotation; graphical, analytical,<br />
and computer-aided design methods.<br />
ENME 3755 Intro Mechanical Vibration<br />
3 cr.<br />
Prerequisites: MATH 2221, ENME 2750 and concurrent registration<br />
in ENME 3020; or consent <strong>of</strong> department. Single and double degree<br />
<strong>of</strong> freedom systems in free and forced motion, lumped parameter<br />
analysis <strong>of</strong> continuous systems, and vibration measurement<br />
devices.<br />
ENME 3757 Intro Mechanical Control Syst<br />
3 cr.<br />
Prerequisites: ENME 2750, MATH 2221, and ENEE 2500; or consent <strong>of</strong><br />
department. Mathematical modeling <strong>of</strong> mechanical systems; model<br />
linearization; methods <strong>of</strong> solution and simulation; basic notions <strong>of</strong><br />
feedback control algorithms; transfer functions, frequency response,<br />
and system identification and stability.<br />
ENME 3761 Intro Nuclear Engineering<br />
3 cr.<br />
Prerequisites: credit or registration in PHYS 2064 and ENME 3770 or<br />
consent <strong>of</strong> department. Radiation decay; detection; protection and<br />
safety. Applications <strong>of</strong> radioactive isotopes; introduction to nuclear<br />
power, nuclear fuels, fuel cycle, and power plant design.<br />
ENME 3770 Engineering Thermodynamics<br />
3 cr.<br />
Prerequisites: Mathematics 2109 or 2112 and Physics 1062. Basic laws<br />
<strong>of</strong> thermodynamics; equilibrium; entropy; availability; flow and<br />
non-flow processes.<br />
ENME 3771 Heat Transfer<br />
3 cr.<br />
Prerequisites: MATH 2221, CSCI 1201, ENME 3720 and ENME 3770.<br />
Steady and unsteady conduction; natural and forced convection;<br />
radiation; heat exchangers; introduction to two-phase heat transfer.<br />
Computer-aided solutions to heat transfer problems.<br />
ENME 3772 Environmental Control Systems<br />
3 cr.<br />
Prerequisite: ENME 3771. The principles <strong>of</strong> heating, ventilating, air<br />
conditioning, and refrigeration; application to environmental control<br />
systems. Emphasis is on the selection <strong>of</strong> equipment and the<br />
design <strong>of</strong> various systems, including automatic controls.<br />
ENME 3773 Design Thermal-Fluid Systems<br />
3 cr.<br />
Prerequisites: ENME 3770 and 3771 or consent <strong>of</strong> department. Design<br />
<strong>of</strong> thermal-fluid systems utilizing the principles <strong>of</strong> heat transfer,<br />
thermodynamics, and fluid mechanics with emphasis on practical,<br />
economical designs. Semester projects are assigned to student<br />
groups; weekly progress reports, final written and oral reports<br />
required.<br />
ENME 3776 Intermed Engr Thermodynamics<br />
3 cr.<br />
Prerequisite: ENME 3770. Application <strong>of</strong> principles <strong>of</strong> thermodynamics;<br />
vapor and gas cycles; internal combustion engines; steam and<br />
gas turbines, mixtures, thermodynamic relationships.<br />
ENME 3777 Energy Conversion<br />
3 cr.<br />
Prerequisite: ENME 3770. Direct energy conversion; magnetohydrodynamics;<br />
energy storage; vapor and gas cycles; applications and<br />
thermodynamic analysis; nuclear, hydrodynamic, solar, geothermal,<br />
and wind energy.<br />
ENME 3780 Computer Aided Design<br />
3 cr.<br />
Prerequisites: CSCI 1201, ENME 3020 credit or registration in ENME<br />
3731; or consent <strong>of</strong> department. An introduction to computing environments<br />
and underlying algorithms <strong>of</strong> computer-aided design.<br />
Topics include: graphical user interfaces, data interpolation, integration<br />
and differentiation, roots, systems <strong>of</strong> equations, simulation,<br />
optimization, graphics, and visualization.<br />
ENME 3785 CIMS<br />
3 cr.<br />
Prerequisites: ENEE 2500 and credit or registration in ENME 2785<br />
and ENME 3780. Automated manufacturing; system dynamics and<br />
controls <strong>of</strong> mechanical systems; robotic systems and their applications;<br />
numerical machine program generation from 3-D geometrical<br />
images.<br />
ENME 3900 Senior Honors Thesis<br />
1-6 cr.<br />
Prerequisites: admission to the Honors Program and consent <strong>of</strong> the<br />
director <strong>of</strong> the Honors Program and the chair <strong>of</strong> the department.<br />
Senior-level research and/or design project in mechanical engineering.<br />
Thesis and oral examination required. May be repeated for<br />
credit with total hours not to exceed six.<br />
ENME 4023 Intermed Engineering Analysis<br />
3 cr.<br />
Prerequisites: MATH 2221 and ENME 3020. Application <strong>of</strong> complex<br />
variables; contour integration; conformal mapping; Cartesian tensors;<br />
non-linear differential equations; and selected problems in<br />
mechanical engineering.<br />
ENME 4023G Intermed Engineering Analysis<br />
3 cr.<br />
Prerequisites: MATH 2221 and ENME 3020. Application <strong>of</strong> complex<br />
variables; contour integration; conformal mapping; Cartesian tensors;<br />
non-linear differential equations; and selected problems in<br />
mechanical engineering.<br />
ENME 4096 Special Topics in Mech Engr<br />
3 cr.<br />
Prerequisite: junior standing in engineering. Course may be taken<br />
for credit three times. No student may earn more than nine hours<br />
degree credit in courses ENME 4096 and 4097.<br />
ENME 4096G Special Topics in Mech Engr<br />
3 cr.<br />
Prerequisite: junior standing in engineering. Course may be taken<br />
for credit three times. No student may earn more than nine hours<br />
degree credit in courses ENME 4096 and 4097.<br />
<strong>University</strong> <strong>of</strong> <strong>New</strong> <strong>Orleans</strong>/246