http://up.smartcatalogiq.com/Home
0be33c84-274a-4491-b843-bcb75dc0b6cc
https://searchproxy.smartcatalogiq.com/search
8f2d157e-cbae-4640-a4a7-a90cf65e8a0c
other
/Institutions/University-of-Portland/json/2014-2015/bulletin-local.json
/Institutions/University-of-Portland/json/2014-2015/bulletin.json
300
Numerical methods applied to engineering problems: interpolation and curve fitting of experimental data, matrix analysis, and approximation methods in structural, thermal, and fluid systems.
2
Prerequisites
CS 201 or
EGR 111.
This course builds on the concepts learned in strength of materials and introduces finite element analysis (FEA). FEA is introduced mathematically beginning with springs, trusses, and beams. A commercial FEA software package is used to model plane stress and three-dimensional geometry. Individual projects are used to introduce three dimensional analysis. Fee: $40.
3
Prerequisites
EGR 322 AND (
ME 111 or
ME 222.)
Basic properties of a fluid, problems in hydrostatics. The general equations of fluid motion. Boundary layer concepts. Application to a variety of laminar and turbulent incompressible flow situations. The technique of dimensional analysis is introduced.
3
Prerequisites
EGR 212 or EGR 213
Application of fluid mechanics principles to laminar and turbulent duct flows; head losses through pipes including minor losses; compressible flows; measurement and turbomachinery.
2
Prerequisites
ME 311 or
EGR 311.
Theoretical and practical aspects of the design of various machine components and simple systems. The design criteria are based on stress analysis, manufacturing issues, materials, and fatigue considerations. First offering in spring 2016, replaces
ME 401.
4
Prerequisites
EGR 221,
EGR 322.
Classical treatment emphasizing the first and second laws of thermodynamics and their application to open and closed systems undergoing steady and unsteady processes. Tabular and graphical data, as well as ideal gas properties, are used in analytical work.
3
Prerequisites
MTH 202
Application of thermodynamic principles in analyzing power and refrigeration systems, non-reacting gas mixtures, psychrometrics, and combustion.
2
Prerequisites
CHM 207,
ME 331
Conduction, convection, and radiation heat transfer are studied in detail. Real engineering problems and systems involving more than one of these modes are analyzed. Numerical solutions are emphasized for the many problems for which analytical solutions cannot be found.
3
Prerequisites
ME 331 and
MTH 321.
Manufacturing properties of engineering materials. Casting, forging, forming, and joining processes. Conventional and non-conventional material removal processes. Powder metallurgy and coatings. An introduction to the concept of intelligent processing of materials.
3
Prerequisites
EGR 221,
EGR 322
An introduction to control systems with an emphasis on industrial motion control. Theoretical and experimental studies will familiarize students with PID control, control system hardware and software, stepper motors, servo motors, sensors, simulation, and data acquisition systems.
2
Prerequisites
EGR 212,
MTH 321 or corequisite.
Corequisites
MTH 321 or prerequisite.
Experimental analysis of fluid mechanics principles including pressure losses through pipes and fittings, pump turbine characteristics, drag force measurements, compressible flows, boundary layers, etc. Fee: $40.
1
Corequisites
ME 312,
ME 074.
Experimental studies of thermal systems including compressors, steam turbine power cycles, refrigeration, air-conditioning, Otto engine cycle, evaporative cooling towers, and heat exchangers. Fee: $40.
1
Prerequisites
ME 332
Corequisites
ME 076