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Course Criteria
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3.00 Credits
Theory of energy transfer between fluid and rotor in turbomachines. Design of turbomachine components. Applications to pumps, compressors and turbines.
Prerequisite:
(MIME 3410 FOR LEVEL UG WITH MIN. GRADE OF D- AND MIME 3430 FOR LEVEL UG WITH MIN. GRADE OF D-)
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3.00 Credits
Control of the thermal environment within enclosed spaces including psychometric properties of air heating and cooling, loads and factors affecting human comfort. Analysis of basic heating and refrigeration systems, heat pumps, heaters, utilization of solar energy, humidifiers, energy conservation and controls for systems.
Prerequisite:
MIME 3410 FOR LEVEL UG WITH MIN. GRADE OF D-
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3.00 Credits
Study of Carnot, Otto, Diesel and Brayton Cycles, performance characteristics, combustion engines and construction details of internal combustion engines. Analysis of problems associated with carburetion, fuel injection, combustion, cooling, supercharging, emissions and emission control.
Prerequisite:
MIME 3410 FOR LEVEL UG WITH MIN. GRADE OF D-
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3.00 Credits
Mechanics and thermodynamics of jet propulsion. Fundamentals of high-speed flow. Analysis of gas turbine engine components: diffuser, compressor, turbine and nozzle. Investigation of characteristics of ramjets, turbojets, turbofans and turboprops. Introduction to solid and liquid rockets.
Prerequisite:
MIME 3410 FOR LEVEL UG WITH MIN. GRADE OF D-
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3.00 Credits
Fundamentals of aerodynamics, potential flow theory, aerodynamic forces and moments, introduction to numerical analysis, application to internal flows, theory of lift for infinite and finite wings, induced drag.
Prerequisite:
MIME 3430 FOR LEVEL UG WITH MIN. GRADE OF D-
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3.00 Credits
Analysis of compressible flow phenomena including shock and detonation waves. Internal flow with friction and heat addition. Analysis and application to supersonic airfoil theory, inlet nacelles, nozzles to generate supersonic thrust and jet engine combustors.
Prerequisite:
MIME 3430 FOR LEVEL UG WITH MIN. GRADE OF D-
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3.00 Credits
Reliability of components and multicomponent systems. Static and dynamic reliability models for both independent and dependent failures. Effects of redundancy. Reliability testing consideration.
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3.00 Credits
The course is an introduction to modern manufacturing methodologies used in the fabrication and analysis of new and existing product designs with three areas of emphasis: manufacturing processes, materials, and product development. The course exposes the students to the product development methods and the relationship of design to production processes, product material, material handling, quality costs, and CAD/CAM are presented. Emphasis is primarily on assembled products. Cost estimation software and other design analysis tools are employed. Lean manufacturing and Six Sigma concepts in the design context are also introduced.
Prerequisite:
MIME 2650 FOR LEVEL UG WITH MIN. GRADE OF D-
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3.00 Credits
The course is intended to introduce students to sustainability analysis and design in manufacturing and service settings as related to mechanical and industrial engineering. It will cover solid waste minimization for manufacturers, life cycle analysis, and environmentally conscious design.
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3.00 Credits
Additive manufacturing (AM) is a method of manufacturing that has been growing rapidly. In this course the students will learn about various AM technologies. They will also work with the required design software packages to create 3D models and 3D-print objects from the designed models.
Prerequisite:
MIME 2650 FOR LEVEL UG WITH MIN. GRADE OF D- (MAY BE TAKEN CONCURRENTLY)
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