Untitled - University of New Orleans
Untitled - University of New Orleans
Untitled - University of New Orleans
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ENME 4735 Reliability in Engr Design<br />
3 cr.<br />
Prerequisite: ENME 3020 or consent <strong>of</strong> department. Probabilistic<br />
approach to design and analysis <strong>of</strong> engineering problems. Statistical<br />
methods include point and interval estimation, tests <strong>of</strong> hypotheses,<br />
functions <strong>of</strong> random variables, and reliability analysis.<br />
ENME 4735G Reliability in Engr Design<br />
3 cr.<br />
Prerequisite: ENME 3020 or consent <strong>of</strong> department. Probabilistic<br />
approach to design and analysis <strong>of</strong> engineering problems. Statistical<br />
methods include point and interval estimation, tests <strong>of</strong> hypotheses,<br />
functions <strong>of</strong> random variables, and reliability analysis.<br />
ENME 4751 Advanced Dynamics<br />
3 cr.<br />
Prerequisites: ENME 2750 and MATH 2221. Central force motion,<br />
three-dimensional kinetics, kinematics, and dynamics <strong>of</strong> rigid bodies;<br />
gyroscopic motion; Lagrange’s equations; Hamilton’s principle;<br />
and trajectories.<br />
ENME 4751G Advanced Dynamics<br />
3 cr.<br />
Prerequisites: ENME 2750 and MATH 2221. Central force motion,<br />
three-dimensional kinetics, kinematics, and dynamics <strong>of</strong> rigid bodies;<br />
gyroscopic motion; Lagrange’s equations; Hamilton’s principle;<br />
and trajectories.<br />
ENME 4752 Mechanical System Dynamics<br />
3 cr.<br />
Prerequisites: ENME 2750, 3020 and ENEE 2500; or consent <strong>of</strong> department.<br />
Mathematical modeling <strong>of</strong> mechanical electrical and electromechanical<br />
systems. Model linearzation. Computer simulation.<br />
Mathematical modeling <strong>of</strong> dynamic systems in state space. Linear<br />
systems analysis in the time/frequency domain. Introduction to<br />
feedback control systems.<br />
ENME 4752G Mechanical System Dynamics<br />
3 cr.<br />
Prerequisites: ENME 2750, 3020 and ENEE 2500; or consent <strong>of</strong> department.<br />
Mathematical modeling <strong>of</strong> mechanical electrical and electromechanical<br />
systems. Model linearzation. Computer simulation.<br />
Mathematical modeling <strong>of</strong> dynamic systems in state space. Linear<br />
systems analysis in the time/frequency domain. Introduction to<br />
feedback control systems.<br />
ENME 4753 Process Control Systems<br />
3 cr.<br />
(ENEE 4534 and ENME 4753 are cross-listed) Prerequisites: ENEE 3533<br />
or ENME 3020. A study <strong>of</strong> contemporary automatic control methods<br />
for continuous industrial processes. Topics include characterization<br />
<strong>of</strong> typical process dynamics, plant identification, parameter estimation,<br />
controller tuning techniques, and industrial process instrumentation<br />
applications.<br />
ENME 4753G Process Control Systems<br />
3 cr.<br />
(ENEE 4534 and ENME 4753 are cross-listed) Prerequisites: ENEE 3533<br />
or ENME 3020. A study <strong>of</strong> contemporary automatic control methods<br />
for continuous industrial processes. Topics include characterization<br />
<strong>of</strong> typical process dynamics, plant identification, parameter estimation,<br />
controller tuning techniques, and industrial process instrumentation<br />
applications.<br />
ENME 4757 Intermed Mechanical Vibrations<br />
3 cr.<br />
Prerequisite: ENME 3755 or consent <strong>of</strong> department. Fundamental<br />
phenomena <strong>of</strong> multi-degree discrete and continuous systems.<br />
Matrix methods <strong>of</strong> solution <strong>of</strong> discrete systems. Determination <strong>of</strong><br />
natural frequencies and mode shapes <strong>of</strong> discrete and continuous<br />
systems. Methods <strong>of</strong> passive vibration control. Brief introduction to<br />
finite element methods.<br />
ENME 4757G Intermed Mechanical Vibrations<br />
3 cr.<br />
Prerequisite: ENME 3755 or consent <strong>of</strong> department. Fundamental<br />
phenomena <strong>of</strong> multi-degree discrete and continuous systems.<br />
Matrix methods <strong>of</strong> solution <strong>of</strong> discrete systems. Determination <strong>of</strong><br />
natural frequencies and mode shapes <strong>of</strong> discrete and continuous<br />
systems. Methods <strong>of</strong> passive vibration control. Brief introduction to<br />
finite element methods.<br />
ENME 4770 Design Solar Heat & Cool Syst<br />
3 cr.<br />
Prerequisite: credit or registration in ENME 3771 or consent <strong>of</strong><br />
department. Availability and characteristics <strong>of</strong> solar energy; design<br />
performance and testing <strong>of</strong> flat plate and concentrating collectors;<br />
solar heating and cooling <strong>of</strong> buildings; air systems and water systems;<br />
storage systems; economics; typical designs; solar cells.<br />
ENME 4770G Design Solar Heat & Cool Syst<br />
3 cr.<br />
Prerequisite: credit or registration in ENME 3771 or consent <strong>of</strong><br />
department. Availability and characteristics <strong>of</strong> solar energy; design<br />
performance and testing <strong>of</strong> flat plate and concentrating collectors;<br />
solar heating and cooling <strong>of</strong> buildings; air systems and water systems;<br />
storage systems; economics; typical designs; solar cells.<br />
ENME 4771 Intermediate Heat Transfer<br />
3 cr.<br />
Prerequisite: ENME 3771 or consent <strong>of</strong> department. Review <strong>of</strong> basic<br />
modes <strong>of</strong> heat transfer; combined convection and radiation; boiling<br />
and condensation; introduction to numerical methods for solving<br />
heat transfer problems; application <strong>of</strong> heat transfer principles to<br />
related problems in engineering.<br />
ENME 4771G Intermediate Heat Transfer<br />
3 cr.<br />
Prerequisite: ENME 3771 or consent <strong>of</strong> department. Review <strong>of</strong> basic<br />
modes <strong>of</strong> heat transfer; combined convection and radiation; boiling<br />
and condensation; introduction to numerical methods for solving<br />
heat transfer problems; application <strong>of</strong> heat transfer principles to<br />
related problems in engineering.<br />
ENME 4772 Internal Combustion Engines<br />
3 cr.<br />
Prerequisites: ENME 3720 and 3776. Introduction <strong>of</strong> fundamental<br />
concepts and theories <strong>of</strong> internal combustion engines including<br />
ideal and real thermodynamic cycles, fuels, combustion, emissions,<br />
spark-ignition engines, and compression-ignition engines.<br />
ENME 4772G Internal Combustion Engines<br />
3 cr.<br />
Prerequisites: ENME 3720 and 3776. Introduction <strong>of</strong> fundamental<br />
concepts and theories <strong>of</strong> internal combustion engines including<br />
ideal and real thermodynamic cycles, fuels, combustion, emissions,<br />
spark-ignition engines, and compression-ignition engines.<br />
ENME 4773 Energy Management<br />
3 cr.<br />
Prerequisites: ENME 3720 and 3771 or consent <strong>of</strong> department. Technical<br />
elements <strong>of</strong> reducing energy consumption and costs; aspects<br />
<strong>of</strong> management and cost elements pertaining to engineering decision<br />
making; typical topics include electrical, utility, process, building<br />
and heating, ventilating and air conditioning systems; waste<br />
heat management and energy auditing.<br />
ENME 4773G Energy Management<br />
3 cr.<br />
Prerequisites: ENME 3720 and 3771 or consent <strong>of</strong> department. Technical<br />
elements <strong>of</strong> reducing energy consumption and costs; aspects<br />
<strong>of</strong> management and cost elements pertaining to engineering decision<br />
making; typical topics include electrical, utility, process, building<br />
and heating, ventilating and air conditioning systems; waste<br />
heat management and energy auditing.<br />
ENME 4774 Gas Turbine Systems<br />
3 cr.<br />
Prerequisites: ENME 3720 and ENME 3776. Introduction to guiding<br />
principles in gas turbine cycles, combined power systems, turbine<br />
and compressor design procedures and performance prediction for<br />
both axial and radial flow turbines.<br />
ENME 4774G Gas Turbine Systems<br />
3 cr.<br />
Prerequisites: ENME 3720 and ENME 3776. Introduction to guiding<br />
principles in gas turbine cycles, combined power systems, turbine<br />
and compressor design procedures and performance prediction for<br />
both axial and radial flow turbines.<br />
<strong>University</strong> <strong>of</strong> <strong>New</strong> <strong>Orleans</strong>/248