2016-2017 Undergraduate Course Catalog 
    
    Dec 17, 2024  
2016-2017 Undergraduate Course Catalog [ARCHIVED CATALOG]

Aerospace Engineering/Energy Systems Engineering


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Contact:

H. Ezzat Khalifa, Mechanical & Aerospace Engineering Department Chair,
263 Link Hall,
315-443-1286

Young B. Moon, Graduate Program Director
241 Link Hall
 
John F. Dannenhoffer, Aerospace Engineering Program Director
245 Link Hall
443-3340 

Faculty

Jeongmin Ahn, Benjamin Akih-Kumgeh, Michelle Blum, Edward Bogucz, Frederick Carranti, Thong Dang, John Dannenhoffer, Barry Davidson, Mark Glauser, Melissa Green, H. Ezzat Khalifa, Alan Levy, Jacques Lewalle, Young Moon, Shalabh Maroo, Vadrevu Murthy, Utpal Roy, Jianshun Zhang

Description

The combined degree is for students to complete the Bachelor of Science in Aerospace Engineering and the Masters of Science in Energy Systems Engineering degrees consecutively, with a goal of completing both degree requirements in five years. 6 credits of 500-level courses may be counted towards both Bachelor’s and Master’s degrees. A block of transfer credits labeled as “transferred from SU undergraduate record” appears on the graduate record and applies credit hours toward the graduate degree, but is not calculated in the graduate GPA.

Admission

Students must be currently enrolled in the BS Aerospace Engineering program at Syracuse University, and should apply to the combined BS and MS program in the first semester of their third year of study. Admission is based upon academic performance. Students are accepted for graduate study after completion of the third year of study but are not fully matriculated as graduate students until all bachelor’s degree requirements have been met.

BSAE Curriculum


Total Credits Required: 128


MSESE Curriculum


Requirements

A student seeking an MS Degree in Energy Systems Engineering (MSESE) must complete ten (10) 3-
credit courses, no more than four (4) of which can be at the 500-level, the remainder must be at the 600-
level or higher.

Required Courses

The following 2 courses (6 credits) are required of all students regardless of BS major. Students who took
these courses as part of their BS degree may substitute 2 courses from the Energy Systems Tracks listed
below:

  • MAE548: Engineering Economics and Technology Valuation (3 credits)
  • MAE551: Energy Conversion (3 credits)

Select either MFE629 or MAE630, plus ECS650 (a total of 6 credits):

  • MFE629: Modeling and Optimization Techniques, or
  • MAE630: Advanced Practical Optimization (only 1 of these 2)
  • ECS650: Managing Sustainability: Purpose, Principles, and Practice (also BUA650)

Energy Systems Tracks

Select any3 courses (9 credits) from one of the 3 tracks listed below:
Thermal Energy Track

  • MAE553: HVAC Systems Analysis & Design
  • MAE554: Principles of Refrigeration
  • MAE585: Principles of Turbomachinery
  • CEN542: Heat & Mass Transfer Operations
  • MAE643: Fluid Dynamics
  • MAE651: Advanced Thermodynamics; or CEN651: Chem .Engineering Thermodynamics (only 1
  • of these)
  • MAE655: Advanced Heat Transfer; CEN741: Transport Phenomena; or MAE657: Convective
  • Heat & Mass Transfer (only 1 of these)
  • MAE658: Building Environmental Modeling & Simulation
  • MAE659: BuildingMaterials & Envelope
  • MEE757: Heat Exchange Systems
  • MAE765: Combustion Phenomena in Engineering


Alternative Energy Track

  • NUC510: Nuclear Power Plant Design, Operation & Safety (to be changed to Nuclear Reactor
  • Design, Operation & Safety.)
  • NUC520: Radiochemistry, Nuclear Fuel Reprocessing and Nonproliferation
  • CEN573: Principles and Design in Air Pollution Control
  • MAE587: Design of Solar Energy Systems
  • MAE588: Principles of Wind Turbines (also ECS588 and CIE588).
  • CEN662: Biofuels, Bioprocessing and Biorefining
  • MAE686: Fuel Cell Science & Technology
  • Electric Energy Track
  • ELE514: Electric Power Systems, or ELE530: Electric Power Generation and Distribution
  • ELE6xx: Smart Grid;
  • ELE6yy: Power Electronics

Program Customization
Select 2 course (6 credits) from any of the ESE Tracks listed above, plus 1 course (3 credits) from
Business/Management, Social Sciences (Economics, Public Policy…), or Engineering/Computer Science
(ECS) Technical Elective (subject to the 500-level 4-course limit).

Additional Requirements

  • MAE995: Graduate Seminar (0 Credits)
  • MAE994: Energy-related Capstone Project (0 Credits)

The student will review technical papers or reports in the literature related to the student’s field of interest.
The student will prepare an oral presentation summarizing the technical content of the documents
reviewed, and present his/her findings before a faculty committee. A hard copy of the presentation, signed
by the student advisor, must be submitted to the MAE Graduate Office before the oral presentation.

Suggested Sequence of Courses

Fall, Year 1: MAE548, MAE551 and MAE629 or one Energy Systems Track Elective [9 credits].


Spring, Year 1: ECS650, plus two Energy Systems Track Electives. Student may take MAE630 rather
than MAE629, instead of one of the two Track Electives [9 credits]


Summer, Year 1: (Optional): A student may take a Management/Business course, Social Sciences course,
or an ECS Technical Elective, if offered in the summer (possible 3 credits).


Year 2: Remaining Electives and 0-credit Capstone Project on an energy-focused topic.

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