Master of Science in Engineering
(Online)
Course Descriptions
CVEG |
4053 |
Land Surveying |
Williams |
| Historical background of property surveys. Detailed consideration of original surveys of the United States Public Land Surveys. Writing adequate land descriptions. Interpretation of old descriptions. Excess and deficiency. Riparian rights. Field practice in relocation of old corners. Prerequisites: senior standing and CVEG 2053. | |||
CVEG |
4303 |
Reinforced Concrete Design I |
Pleimann |
| Design of reinforced concrete elements with emphasis on ultimate strength design supplemented by working stress design for deflection and crack analysis. Prerequisite: CVEG 2113 and CVEG 3304 | |||
CVEG |
4313 |
Structural Steel Design I |
Pleimann |
| Design of structural steel elements by the Load and Resistance Factor Design method. Intensive treatment of tension members, beams, columns, and connections. Pre- or Corequisite: CVEG 2113. Prerequisite: CVEG 3304. | |||
CVEG |
4353 |
Timber Design |
Pleimann |
| Selection of timber beams, columns, and beam-columns. Physical properties of wood, analysis and design of timber connections. Truss design, glulam members, timber bridge design, treatment for decay, and fire protection. Pre- or Corequisite: CVEG 2113. Prerequisite: CVEG 3304. | |||
CVEG |
4393 |
Reinforced Concrete Design II |
Pleimann |
| Shear strength, minimum thickness requirements, and deflection calculations for reinforced concrete structural slabs. Design of one-way and two-way structural slabs by the direct design and equivalent frame methods. Prerequisite: CVEG 4303. | |||
CVEG |
5403 |
Advanced Reinforced Concrete II |
Pleimann |
| Design of circular and rectangular reinforced concrete tanks for fluid and granular loads. Prerequisite: CVEG 4303. | |||
ELEG |
4503 |
Power Distribution Systems |
Balda |
| Design considerations of electric power distribution systems, including distribution substations, primary and secondary circuits. Distribution transformer and capacitor applications, voltage regulation, and distribution system protection. Prerequisite: ELEG 3303. | |||
ELEG |
5533 |
Power Electronics Motor Drives |
Balda |
| V-1 characteristics of insulated Gate Bipolar Transistors (IGBTs) and MOS-controlled Thyristors (MCTs), design of driver and snubber circuits, induction-, permanent magnet-, and brushless dc-motor drives; and resonant inverters. Prerequisite: graduate standing or (ELEG 3223 and ELEG 3303). | |||
INEG |
4563 |
Application of Robotics |
Fant |
| Industrial robotics, programming and applications; tolling and interfacing with peripheral equipment, sensor technology, machine vision; application analysis, selection, and justification; research, economics, human interface. Corequisite: INEG 4530L. Prerequisite: senior standing. | |||
INEG |
5613 |
Optimization Theory I |
Mason |
| Basic solutions and bases in linear equations, matrix version of simplex tableau, duality and primal dual relationships, complementary slackness, revised simplex, bounded variables, decomposition algorithm parametric linear programming, special linear program, generalized network models. Nonlinear programs solved by LP algorithm. Prerequisite: graduate standing. | |||
INEG |
5843 |
Scheduling and Sequencing |
Mason |
| An introduction to constructive algorithms and various operations research approaches for solving sequencing and scheduling problems. The NP-completeness of most scheduling problems leads to a discussion of computational complexity, the use of heuristic solution methods, and the development of worst case bounds. Prerequisite: INEG 3613 and computer programming proficiency. | |||
MEEG |
4423 |
Steam Power Plants |
Roe |
| Study of design and operational aspects of steam, gas, and combined cycle power plants. Brief study of Nuclear and Alternative energy systems. Prerequisite: MEEG 2403. | |||
| MEEG | 4453 | Industrial Waste and Energy Management (SP) | Nutter |
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Applications of thermodynamics, heat transfer, fluid mechanics, and electric machinery to the analysis of waste streams and energy consumption for industrial facilities. Current techniques and technologies for waste minimization and energy conservation including energy-consuming systems and processes, utility rate analysis, economic analysis and auditing are taught. Prerequisite: MEEG 4413. |
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MEEG |
4473 |
Indoor Environmental Design |
Nutter |
| Gives student a thorough understanding of the fundamental theory of air conditioning design for commercial buildings, including calculating heating and cooling loads along with the proper selection and sizing of air conditioning equipment. Prerequisite: MEEG 4413. | |||
MEEG |
5123 |
Finite Element Methods II |
Gordon |
| Development and application of finite element (FE) methods used to solve transient and two-dimensional boundary value problems. Applications are taken from solid and fluid mechanics, heat transfer, and acoustics. Emphasis is placed on the FE methodology to make accessible the research literature and commercial software manuals, and to encourage responsible use and interpretation of FE analysis. May be repeated for 3 hours. Prerequisite: MEEG 4123 and graduate standing or consent. | |||
MEEG |
5473 |
Radiation Heat Transfer |
Couvillion |
| Spectral analysis, radiant exchange in gray and non-gray enclosures, gas radiation, and multi-mode heat transfer. Prerequisite: MEEG 5453 or equivalent. | |||
MEEG |
5733 |
Advanced Numerical Methods |
Gordon |
| Numerical methods for the solution of linear and non-linear ordinary and partial differential equations; initial and boundary value problems; one-step and multi-step methods; predominantly finite difference but also finite element and control volume techniques; computer applications. Prerequisite: MEEG 2703 or MATH 3353. |