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MET E494: Mechanical Engineering Technology Elective

4.00 Credits

Northeastern University

Retired August 31, 2005. Offers elective credit for courses taken at consortium institutions.

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MET E521: Heat Transfer

4.00 Credits

Northeastern University

Retired August 31, 2005; replaced by ETM 4521 in the School of Professional and Continuing Studies. Presents the principles of heat transfer, thermal convection, conductance, and resistance. Includes emissivity, absorptivity, and heat exchanger design and selection.

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MET E522: Lab for MET E521

1.00 Credits

Northeastern University

Accompanies MET E521. Covers topics from the course through various projects.

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MET E526: Heating,Ventilation,and Air Conditioning

4.00 Credits

Northeastern University

Retired August 31, 2005; replaced by ETM 4526 in the School of Professional and Continuing Studies. Introduces air-conditioning principles including psychometrics and heat pumps. Topics include calculation of heating and cooling loads in accordance with ASHRAE practices; principles of gas compression; analysis of vapor compression; refrigeration systems; low-temperature refrigeration cycles; and absorption refrigeration systems.

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MET E531: Fluid Mechanics

4.00 Credits

Northeastern University

Retired August 31, 2005; replaced by ETM 4531 in the School of Professional and Continuing Studies. Studies the principles of fluid statics and dynamics. Topics include fluid flow in pipe, friction losses, fluid energy, Bernoulli theorem, open channel flow, and pump and far design. The fluid laboratory examines incompressible fluids.

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MET E532: Lab for MET E531

1.00 Credits

Northeastern University

Accompanies MET E531. Covers topics from the course through various projects.

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MET E541: Roark and Young Stress Analysis

4.00 Credits

Northeastern University

Retired August 31, 2005; replaced by ETM 4541 in the School of Professional and Continuing Studies. The famous handbook ROARK'S FORMULAS FOR STRESS AND STRAIN is renowned for its single-source avalability to solve stress analysis problems on common engineering shapes. This course will focus on the use of the handbook and show via case studies how to solve stress analysis problems that present themselves in engineering design.

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MET E543: Renewable Energy Power Applications

4.00 Credits

Northeastern University

Retired August 31, 2005; replaced by ETM 4543 in the School of Professional and Continuing Studies. This course will concentrate on the use of renewable energy resourses to generate thermal and electrical power for residential or commercial applications. The course will outline the thermodynamics involved in the solar energy and hydro energy power generation.

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MET E545: Heat Exchanger and Pump Engineering

4.00 Credits

Northeastern University

Retired August 31, 2005; replaced by ETM 4545 in the School of Professional and Continuing Studies. Focus on the engineering analysis, design and/or selection of the most common industry standard heat exchanger designs. Specifically, steam boilers, exhaust gas heat recovery steam boilers,regenerators, condensers, reheat and preheaters. The mechanical design of these heat exchangers will be emphanized with the ability of the student to determine the correct selection from a manufacuter's specification catalog. A similar study of liquid pumps and air compressors will be presented.

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MET E556: Fuel Cells:Principles and Technologies

4.00 Credits

Northeastern University

Retired August 31, 2005; replaced by ETM 4556 in the School of Professional and Continuing Studies. Examines the underlying thermodynamics and electrochemical principles of energy conversion through fuel cells including oxidation, free energy, and standard potential of the cell. Covers system, elements, and performance characteristics, polarization, and voltage output. Studies regenerative fuel cells and dissociation. Presents the classification of fuel cells and its applications. Emphasis is on the study of hydrogen fuel cells. Discusses recent technologic innovations and applications of fuel cells in transportation vehicles, biomedicine, and industrial and domestic power generation. Discusses technologic issues of fuel cells, and presents trends, forecasts, and impact of this technology in areas of energy generation, conservation, and the environment. Requires students to complete a design project.

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