CLARKSON UNIVERSITY
CAPITAL REGION CAMPUS
Graduate Engineering Programs
G R A D U AT E E N G I N E E R I N G P R O G R A M S
1
The Capital Region Campus (CRC) in Schenectady, New York, is a satellite campus for Clarkson University. The CRC caters mainly to the working engineering professional and offers mechanical, electrical, energy-related and information technology courses to its quarter-based students. All courses are taught by exceptional faculty who are practicing professionals in their industries. The CRC offers partial, merit-based scholarships to all of its quarter-based students. Research and/or teaching assistantships for semester-based students are available at Clarkson’s main campus in Potsdam, New York where all research facilities are located. Courses in engineering or science disciplines offered at the main campus are only offered to semester-based students.
2
C L A RK S O N . E D U / G R A D UAT E
Professional Graduate Engineering Programs Engineering in our fast-moving world. As a professional in the fast-paced world of engineering and innovation, you need to understand the trends and technologies of today — and tomorrow. At Clarkson, you will learn firsthand from faculty who work in and collaborate with industry.
A flexible curriculum and a wealth of options. Designed to meet the needs of recent graduates and working professionals, our graduate programs can be completed entirely through evening classes and part-time study. Several course programs are also available online. Degree requirements allow you to tailor your course of study to match your interests. Whether you want to explore a particular industry or a specific kind of product, you can devise a plan of study to meet your goals.
Learn from highly-skilled faculty. Our engineering faculty are accomplished researchers and industry practitioners, as well as dedicated educators. They are connected to the region’s leading industries and integrate the latest technologies and applications in the courses they teach. You’ll not only advance your knowledge in their classes, you’ll also learn how to apply this knowledge to real-life challenges and opportunities.
Networking opportunities to enhance your career. As you progress through your master’s degree, you will network with fellow professionals with a wide array of career backgrounds and interests. Our network of connections throughout the industry gives you access to leaders at companies like Atlas Copco, Bechtel Corporation, Benét Laboratories, Fluor Corporation, GE Global Research, GE Power Systems, GE Renewable Energy, GLOBALFOUNDRIES, National Grid, NYISO, NYPA, NYSERDA, Plug Power and Regeneron Pharmaceuticals, as well as other specialty hi-tech industries and startups. Through faculty and alumni, you will network with personnel from leading engineering firms and corporations to take your career to the next level.
OUR PROGRAMS ARE DESIGNED FOR — Recent graduates and working professionals seeking to advance their careers. — Students interested in expanding their knowledge and applying the latest technologies in growing regional and global industries.
Clarkson provides knowledge that will propel your growth in key career fields and help you meet your career goals. You’ll gain the tools needed to pursue your goals with the much-sought-after credentials of a master’s degree.
G R A D U AT E E N G I N E E R I N G P R O G R A M S
1
Master of Science in Electrical Engineering (MS,EE) Evening LOCATION: On-site TIMING:
T
he world of power electronics and energy conversion is changing rapidly, creating opportunities for electrical engineers to apply advanced skills to technologies and drive growth of products. This degree will expand your understanding of technologies, such as modern electric machinery, modeling, power electronics control, synchronous generation, nuclear engineering, fuel cell engineering, photovoltaics and more. Learn how to put your knowledge to work so you can make an immediate and lasting impact in your field. Complement your technical experience with business skills by taking advantage of available MBA electives or other non-technical courses.
DEGREE REQUIREMENTS This degree requires 10 courses and the course EE699: MS Graduate Project in Electrical Engineering to graduate. Seven of the 10 must be technical courses from the electrical engineering curriculum; the other three courses are electives. The electives include other electrical or mechanical courses, computer science (or information technology) courses and online courses through the David D. Reh School of Business MBA program and Wallace H. Coulter School of Engineering business of energy program.
2
C L A RK S O N . E D U / G R A D UAT E
Master of Science in Mechanical Engineering (MS,ME) Evening LOCATION: On-site TIMING:
G
ain an edge in today’s competitive marketplace by developing your analytical and strategic skills and learning how to apply them in fields that are growing in our region and around the world. This degree will expand your understanding of the application of solid mechanics, thermal fluid systems, energy systems and material-related topics to advance your career opportunities in power systems, emerging energy technologies and product design. Complement your technical experience with business skills by taking advantage of available MBA electives or other non-technical courses.
DEGREE REQUIREMENTS This degree requires 10 courses and the course ME599: MS Graduate Project in Mechanical Engineering to graduate. Two courses must be taken from the three core mechanical engineering courses. Six of the remaining courses must be technical courses from the mechanical engineering curriculum; the other two courses are electives. The electives include other electrical or mechanical courses, computer science (or information technology) courses and online courses through the David D. Reh School of Business MBA program and Wallace H. Coulter School of Engineering business of energy program.
G R A D U AT E E N G I N E E R I N G P R O G R A M S
3
Clarkson University Capital Region Campus MS Classes
Mechanical Engineering Courses
Electrical Engineering Courses
ME599 MS Graduate Project in Mechanical Engineering
EE699 MS Graduate Project in Electrical Engineering
CORE
POWER/ENERGY CONVERSION (Energy-Related)
ME500 Elasticity
EE642 Electronic Power Conversion
ME501 Transport Phenomena
EE653 Modeling and Control of Energy Conversion
ME502 Engineering Analysis
EE682 Electromechanical Energy Conversion
MATERIAL
POWER SYSTEMS (Energy-Related)
ME506 Mechanical Behavior of Materials
EE680 Power System Analysis I
ME508 Fracture Mechanics
EE681 Power System Analysis II
ME513 Processing and Selection of Engineering Materials
CONTROLS (Energy-Related)
ME586 Welding STRUCTURAL ME509 Current Approach to Fatigue in Design ME510 Advanced Dynamics ME512 Vibrations of Discrete Systems
EE658 Digital Control Systems SPECIAL INTEREST (As Electives Only) EE644 Solid State Electronics
ME516 Finite Element Methods in Engineering
Statistics Course
ME561 Engineering Optimization
ME577/EE602/CS506 Engineering Statistics
ME562 Composites FLUIDS ME563 Dynamics of a Viscous Fluid ME564 Compressible Fluid Flow ME565 Combustion Fundamentals ME572 Dynamics of Inviscid Fluid ME573 Flow and Heat Transfer in Multiphase Systems ME574 Numerical Heat Transfer & Fluids Flow THERMAL ME567 Thermodynamic Analysis ME568 Thermal Energy Processes (Energy-Related) ME571 Conduction & Convection Heat Transfer
4
EE657/ME560 Linear Control Systems
C L A RK S O N . E D U / G R A D UAT E
Interdisciplinary Energy-Related Courses (Technical)
Computer Science Courses (Information Technology)
EE643/ME582 Photovoltaic Engineering
CS500 Network and Systems Security
EE683/ME583 Turbine Engineering
CS501 Software Quality Management
EE684/ME588 Wind Energy Engineering
CS502 Business Intelligence
EE685/ME587 Solar Energy Engineering
CS503 Systems Analysis and Design Methods
EE686/ME589 Synchronous Electrical Generators
CS504 Enterprise Architecture
EE687/ME575 Nuclear Engineering & Technology
CS505 Business Data & Communications & Networking
Business of Energy Courses BOE610 Fundamentals of the Business of Energy
David D. Reh School of Business – MBA Courses (Sample List Only)
BOE611 Planning and Operations of Power Systems
See Graduate Catalog for additional School of Business courses.
BOE612 Power Markets
AC604 Fin. and Managerial Acct. Dec. Mkg.
BOE613 Deregulations and Restructuring
EC605 Managerial Economics
BOE614 Electric Power Industry Economics and Finance
FN608 Financial Management
BOE615 Challenges to Upgrading Infrastructure
MK610 Marketing Management
BOE616 MS Graduate Project in the Business of Energy
OM607 Global Supply Chain Management
IS606 Business Information Systems
OM603 Decision Analysis & Supply Chain Modeling OM686 Quality Management and Process Improvement OS603 Leadership and Organizational Behavior
G R A D U AT E E N G I N E E R I N G P R O G R A M S
5
Master of Science in Engineering and Management Systems (MS,EMS) Evening LOCATION: On-site TIMING:
T
echnology-driven businesses need leaders with the technical knowledge to drive innovation and the business expertise to manage for success. This degree will prepare you to meet that need by integrating engineering (or information technology) courses with core components of an MBA and business of energy courses. You’ll become the architect of a multidisciplinary technical/management degree that provides the skills necessary to quickly develop products and move them toward commercialization.
DEGREE REQUIREMENTS This degree requires 11 courses to graduate. Six of these courses must be technical courses from the electrical or mechanical engineering curriculum or computer science (or information technology) courses; the remaining five courses are elective online courses through the David D. Reh School of Business MBA program or the Wallace H. Coulter School of Engineering business of energy program.
6
C L A RK S O N . E D U / G R A D UAT E
Master of Science in Energy Systems (MS,ES) Evening LOCATION: On-site TIMING:
T
his degree focuses on energy systems and related technology, as well as the impact of our changing environment on these technologies. This degree integrates mechanical/electrical energy-related courses and fundamental technical courses that provide you with the technical breadth and depth required to compete in the design, commercialization and service associated with products related to emerging energy systems. Career growth may be enhanced further with a broad understanding of non-technical elements that impact change.
DEGREE REQUIREMENTS This degree requires 11 courses to graduate. Five to nine of these courses must be energy-related technical courses from the electrical or mechanical engineering curriculum. Two to three of the remaining courses must be non-technical courses from the electrical or mechanical engineering curriculum or online courses through the Wallace H. Coulter School of Engineering business of energy program. Of the remaining courses, up to four can be other technical courses from the electrical or mechanical engineering curriculum.
G R A D U AT E E N G I N E E R I N G P R O G R A M S
7
Master of Science & Advanced Certificate in Business of Energy (MS,BOE & AC,BOE) DELIVERY METHOD:
Online
A
challenging economy, an aging infrastructure and new technology integration, as well as the complexity of identifying issues and implementing changes to the generation and delivery of electric power, are critical issues in the business of energy. A knowledgeable workforce is key to meeting these challenges. This degree (or advanced certificate) program will combine strategic principles used in the energy industry with focused business disciplines to equip you with the industry knowledge and business skills needed to become a leader in this rapidly changing and critical industry.
DEGREE REQUIREMENTS This degree requires 10 courses and the course BOE616: MS Graduate Project in the Business of Energy to graduate. One course must be BOE610: Fundamentals of the Business of Energy, plus four to five courses from the remaining Wallace H. Coulter School of Engineering business of energy program. The remaining five courses are electives from the David D. Reh School of Business MBA program. The advanced certificate requires the completion of four courses. One course must be BOE610: Fundamentals of the Business of Energy, plus three courses from the remaining business of energy program. Students are encouraged to take all six courses from the business of energy program.
8
C L A RK S O N . E D U / G R A D UAT E
General Admission Information PREREQUISITES:
— Students must have a BS in engineering or an equivalent field. A complete application consists of the following items: — Online application, which can be accessed at gradapp.clarkson.edu/apply. — Resume/CV. — Statement of purpose. — Letters of recommendation (two required). — Official transcripts, although unofficial transcripts are acceptable for admission purposes. — GRE scores (required for those with a cumulative GPA below a 3.0). International students are required to submit a certificate of finance to receive an I-20 and official scores for one of the following: — TOEFL (score of 80 minimum). — IELTS (score of 6.5 minimum). — Pearson Test of English (PTE) (score of 56 minimum). — Duolingo (score of 61 minimum).
G R A D U AT E E N G I N E E R I N G P R O G R A M S
9
12
C L A RK S O N . E D U / G R A D UAT E
RC 8/2019 1M QCP
clarkson.edu/graduate | graduate@clarkson.edu | 518-631-9831