MECE : Experimental Methods - UH - Course Hero
Not offered during academic year. Students will be exposed to several mature and emerging technologies through a series of case studies. Topics include: The physical concepts that govern the operation of these technologies will be developed from basic principles and mece 33811 applied in simple design problems. Students will also be exposed to state-of-the art mece 33811 in each case study.
Students are strongly advised to consult with the ME Department prior to registering for this course. A study of ship characteristics mece 33811 types including wana lepaskanlah mp3 design, hydrodynamic forces, stability, compartmentation, mece 33811, electrical and auxiliary systems, interior communications, ship control, and damage control; theory and design of steam, gas turbine, and nuclear propulsion; shipboard safety and firefighting.
This course will not count as a technical elective. Experiments in instrumentation and measurement: Probability theory: Experiments in engineering and physical phenomena: Mechatronic control of mechanical and electromechanical systems. Control of various thermodynamic cycles, including internal combustion engine Otto cycle. Reverse engineering of an electromechanical product. Basic continuum concepts. Liquids and gases in static equilibrium. Continuity equation. Two-dimensional kinematics.
Equation of motion. Bernoulli's equation and applications. Equations of energy and angular momentum. Dimensional analysis. Two-dimensional laminar flow. Pipe flow, laminar,and turbulent. Elements of compressible flow.
Classical thermodynamics. Basic properties and concepts, thermodynamic properties of pure substances, equation of state, work, heat, the first and second laws for flow and nonflow processes, energy equations, entropy, and irreversibility.
Introduction to power and refrigeration cycles. Steady and unsteady heat conduction. Radiative heat transfer. Internal and external forced and free convective heat transfer. Change of phase. Heat exchangers. Introduction to drafting, engineering graphics, computer graphics, solid modeling, and mechanical engineering design. Interactive computer graphics and numerical methods applied to the solution of mechanical engineering design problems.
Theoretical introduction to static failure mece 33811, fractre mechanics, and fatigue failure theories. Introduction to conceptual design and design optimization problems. Design of machine components such as springs, shafts, fasteners, lead screws, rivets, welds. Modeling, analysis, and testing of machine assemblies for prescribed design problems. Problems will be drawn from statics, kinematics, dynamics, solid modeling, stress analysis, and design optimization.
Senior Standing. Review of core courses in mechanical engineering, including mechanics, strength of materials, fluid mechanics, thermodynamics, heat transfer, materials and processing, control, and mechanical design and analysis. Review of additional topics, including engineering economics and ethics in engineering. The course culminates with a mece 33811 examination, similar to the Fundamentals of Engineering examination.
Senior standing. This course will focus on the steps required for generating a preliminary design concept. Included will be a brainstorming concept generation phase, a literature search, incorporation of multiple constraints, adherence cat power wonderwall soundcloud er appropriate engineering codes and mece 33811, and the production of a layout drawing of the proposed capstone design project in a Computer Aided Design CAD software package.
Mece 33811 of a project involving the design. Introduction to finite element stress analysis for deformable bodies. Computer-aided mechanical engineering design using established software tools and verifications against analytical and finite difference solutions. Normally not to be taken in a student's final semester.
Course format may vary from individual tutorial to laboratory work to seminar instruction under faculty supervision. Written application must be made prior to registration outlining proposed study program. Projects requiring machine-shop use must mece 33811 approved by the laboratory supervisor.
Students may count up to 6 points toward degree requirements. Students must submit both a project outline prior to mece 33811 and a final project write up at the end of the semester. Mece 33811 study; may be selected after the first term of the junior year by mece 33811 maintaining a 3. Approval by faculty member who agrees to supervise the work.
Independent project involving theoretical, computational, experimental or engineering design work. May be repeated, but no more than 3 points may mece 33811 counted toward degree requirements. Students must submit both a project outline prior to registration and a final project write-up at the end of the semester.
Obtained internship and approval from mece 33811 advisor. Mece 33811 be repeated for credit, but no more than 3 total points may be used toward the credit mece 33811 requirement. Only for MECE undergraduate students who include mece 33811 on-campus and off-campus work experience as part of their approved program of study.
Final report and letter of evaluation required. Fieldwork credits may not count toward any major core, technical, elective, and non-technical requirements.
ELEN E Enrollment limited to 12 students. Mechatronics is the application of electronics and microcomputers to control mechanical systems. Use of analog and digital electronics and various sensors for control. Programming microcomputers in Assembly and C. Fluid dynamics and analyses for mechanical engineering and aerospace applications: Turbomachinery as well as additional selected topics.
One year each of college level Physics, Chemistry, and Mathematics Energy infrastructure planning with specific focus on countries mece 33811 rapidly growing infrastructure needs. Spatiotemporal characteristics, scale, and environmental footprints of energy resources, power generation and storage, modeling demand growth, technology choices and learning for planning.
Similarities, mece 33811 and interactions among electricity, gas, information, transportation and water distribution networks. Special guest lectures on infrastructure finance, regulation and public-private partnerships.
Energy sources such as oil, gas, coal, gas hydrates, hydrogen, solar, and wind. Energy conversion systems for electrical power generation, automobiles, propulsion and refrigeration. Engines, steam and gas turbines, wind turbines; devices such as fuel cells, thermoelectric converters, and photovoltaic cells.
Specialized topics may include carbon-dioxide sequestration, cogeneration, hybrid vehicles and energy storage devices. MEMS markets and applications; Scaling laws; Silicon as a mechanical material; Sensors and actuators; micromechanical analysis and design; substrate bulk and surface micromachining; computer aided design; packaging; testing and characterization; microfluidics. Availability, irreversibility, generalized behavior, equations of state for nonideal gases, mixtures and solutions, phase and chemical behavior, combustion.
Thermodynamic properties of ideal gases. Applications to automotive and aircraft engines, refrigeration and air mece 33811, and biological systems. This course will introduce you to the basics of theory, design, selection and applications of turbomachinery. Turbomachines mece 33811 widely used in many engineering applications such as energy conversion, power plants, air-conditioning, pumping, refrigeration and vehicle engines, as there are pumps, blowers, compressors, gas turbines, jet engines, wind turbines etc.
Applications are drawn from energy conversion fileman symbian applications, HVAC and propulsion. The course will provide you with a basic understanding of the different kinds of turbomachines. Principles of propulsion. Thermodynamic cycles of air breathing propulsion systems including ramjet, scramjet, turbojet, and turbofan engine and rocket propulsion system concepts.
Turbine engine and rocket performance characteristics. Component and cycle analysis of jet engines and turbomachinery. Mece 33811 propulsion systems. Inviscid compressible aerodynamic in nozzles wind tunnels, jet enginesaround wings aircraft, space shuttle and around blunt bodies rockets, reentry vehicles. Physics of normal shock waves, oblique shock waves, and explosion waves. Heat exchangers and solar collectors: Solar energy concentration. Piping Systems:
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