OHIO University Undergraduate Catalog 2022-23
[Archived Catalog]
Energy Engineering (B.S.En.E.) |
Major code BS7274
Russ College of Engineering and Technology
Department of Mechanical Engineering
251 Stocker Center
Ohio University
Athens, OH 45701
Phone: 740.593.1553
www.ohio.edu/engineering/mechanical
Greg Kremer, contact person
kremer@ohio.edu
Program Overview
The program offers a Bachelor of Science in Energy Engineering (B.S.En.E.) degree which is accredited by the Engineering Accreditation Commission of ABET, https://www.abet.org .
The primary program educational objectives of the bachelor’s degree in energy engineering are:
- Graduates will attain employment and advancement in public or private sectors of the multidisciplinary energy field or in another technical or professional field, and/or complete a graduate degree program in engineering, business, medicine, law, or another technical or professional field.
- Graduates will fulfill the standards and values of the engineering profession and of their own company, and further those values through involvement in communities of practice, professional societies, policy making, and government.
- Graduates will act in ways consistent with the values of Ohio University by performing community service and volunteering, voting and being an engaged citizen, engaging in civil public discourse about technical issues, making decisions consistent with the triple bottom line (environmental, financial, social), and/or using their skills and influence in any way that contributes to the greater good.
The energy engineering profession focuses on the production, distribution, and utilization of energy sources and the economic/environmental implications surrounding these resources. Ohio’s Energy Engineering curriculum is designed to provide graduates with a solid foundation in higher mathematics and basic sciences followed by extensive training in multidisciplinary energy topics including energy/material balances, transport phenomena, energy conversions, economics, sustainability, and policy. Additionally, the program integrates engineering experiences throughout the required coursework. These experiences require the application of engineering knowledge to develop and communicate solutions to energy-based problems. In addition, student experiences are enhanced with colloquia which provide students the opportunity to connect their academic program with engineering competencies important in industry and life. The culminating experience is a senior capstone design project in which student teams apply their skills to develop a solution to a energy systems problem including an assessment of costs, safety, and societal impact.
Admissions Information
Freshman/First-Year Admission
To best prepare for the demands of the academic programs in Russ College, four years of college preparatory math, one year of chemistry, and one year of physics are necessary. Students ranked in the top 30 percent of their classes who score at least 24 on the ACT or comparable SAT are most likely to be successful in Russ College of Engineering and Technology.
Change of Program Policy
Students who wish to transfer into an engineering or computer science program must have earned a C or better in a math course and a science course. The math course must be equivalent to MATH 1200 or higher. The science course must be equivalent to CHEM 1510 or higher, or PHYS 2051 / PHYS 2054 & PHYS 2055 or higher. Students enrolled at any Ohio University campus who wish to transfer into any program in the Russ College cannot do so if they would be on academic probation after transferring into that major. The probation rules for Russ College are stricter than those for the University as a whole. In order not to be on probation, a student must have a GPA of 2.0 or higher for all courses taken, for all courses taken in the Russ College, and for all courses taken in the intended major. Students must also have successfully completed all required courses in three attempts and have no required course they have attempted twice without success. For some courses, success means a grade of at least a C or C-.
External Transfer Admission
Transfer students who have earned fewer than 20 semester hours of credit at another accredited collegiate institution may be admitted directly to an engineering or computer science program, if they meet the general requirements for admission to Ohio University and have completed four years of college-prep math and one year each of chemistry and physics and have scored at least a 24 on the ACT or comparable SAT.
Transfer students who have earned more than 20 semester hours of credit at another accredited collegiate institution may be admitted directly to an engineering or computer science program, if they meet the general requirements for transfer students, including a GPA greater than 2.5.Students who wish to transfer into an engineering or computer science program must have earned a C or better in a math course and a science course. The math course must be equivalent to MATH 1200 or higher. The science course must be equivalent to CHEM 1510 or higher, or PHYS 2051 / PHYS 2054 & PHYS 2055 or higher.
Opportunities Upon Graduation
Energy engineers design solutions to help our society better produce, distribute, and utilize our energy resources. Career opportunities for energy engineers include positions with utility, oil and gas, research, design, and sales companies.In addition, graduates of Ohio’s Energy Engineering program are well suited to pursue advanced energy research in chemical, electrical, and mechanical engineering graduate programs, or to pursue advanced degrees in law or business.
Requirements
Universitywide Graduation Requirements
To complete this program, students must meet all Universitywide graduation requirements .
College-Level Requirements for the Russ College of Engineering and Technology
View the College-Level Requirements for the Russ College of Engineering and Technology .
Core Curriculum
Complete the following course:
- ET 1500 - Engineering and Technology: Career Orientation Credit Hours: .5
Advanced Writing Requirement
Choose one of the following:
- ENG 3090J - Writing in the Sciences Credit Hours: 3
- ENG 3100J - Writing About Environmental Sustainability Credit Hours: 3
- ET 3800J - Engineering and Technology Public Policy Credit Hours: 3
Math and Basic Sciences Requirement
Complete the following courses, plus additional courses defined in the science elective to meet the 30 minimum total hours requirement for Math and Basic Sciences.
- CHEM 1510 - Fundamentals of Chemistry I Credit Hours: 4
- ET 2450 - Engineering Statistics Credit Hours: 3
- MATH 2301 - Calculus I Credit Hours: 4
- MATH 2302 - Calculus II Credit Hours: 4
- MATH 3200 - Applied Linear Algebra Credit Hours: 3
- MATH 3400 - Elementary Differential Equations Credit Hours: 3
- MATH 3600 - Applied Numerical Methods Credit Hours: 3
- PHYS 2054 - General Physics 1 classical mechanics and thermodynamics Credit Hours: 3
-
and
- PHYS 2055 - General Physics 1 laboratory course Credit Hours: 1
Science Elective
Choose any of the following courses to meet the overall requirement for 32 hours of Math or Basic Sciences:
- CHEM 1520 - Fundamentals of Chemistry II Credit Hours: 4
- PHYS 2052 - General Physics Credit Hours: 5
-
or
- PHYS 2056 - General Physics 2 electricity and magnetism Credit Hours: 3
-
and
- PHYS 2057 - General Physics 2 laboratory course Credit Hours: 1
Engineering Fundamental Requirements
Complete the following courses:
- CHE 2000 - Mass and Energy Balances I Credit Hours: 3
- ECON 1030 - Principles of Microeconomics Credit Hours: 3
- ET 1000 - The History of Engineering and Technology in Society Credit Hours: 3
-
or
- ET 2905 - Technology in World History Credit Hours: 3
- HIST 2905 - Technology in World History Credit Hours: 3
- ET 1100 - Engineering Graphics Fundamentals Credit Hours: 2
- ET 2100 - Engineering Programming Credit Hours: 4
- ET 2200 - Statics Credit Hours: 3
- ET 2220 - Strength of Materials Credit Hours: 3
- ET 2240 - Dynamics Credit Hours: 3
- ET 3132 - Basic Electrical Engineering I Credit Hours: 2
- ET 3200 - Engineering Thermodynamics Credit Hours: 3
- ET 3300 - Engineering Economy Credit Hours: 2
or
Energy Engineering Core Requirements
Complete the following courses:
- CE 3530 - Basics of Environmental Engineering Credit Hours: 3
- ECON 3350 - Economics of Energy Credit Hours: 3
- EE 3051 - Basic Electrical Laboratory Credit Hours: 1
- EE 3143 - Basic Electrical Engineering II Credit Hours: 3
- ENE 1010 - Introduction to Energy Engineering Credit Hours: 3
- ENE 4100 - Energy Engineering Senior Design I Credit Hours: 4
- ENE 4500 - Energy Conversion Laboratory Credit Hours: 3
- ISE 4311 - Applied Systems Engineering Credit Hours: 3
- ISE 4490 - Project Management Credit Hours: 2
- ME 3022 - Heat and Fluid Transport I Credit Hours: 3
- ME 3122 - Heat and Fluid Transport II Credit Hours: 3
- ME 4210 - Applied Thermal Systems Design and Analysis Credit Hours: 3
- ME 4350 - Energy Engineering and Management Credit Hours: 3
Energy Engineering Colloquia
Complete the following courses:
- ME 2800 - Mechancial Engineering Credit Hours: 1
- ME 4800 - Mechanical Engineering Colloquium IV Credit Hours: 1
Electives
Complete at least 9 hours of Technical and Professional electives, or at least 12 hours of Technical and Project Management Certificate electives.
Technical Electives
(6 - 9 hrs) Complete at least 6 hours, but all 9 hours can be completed from this category.
Select from:
-
A. (3 - 9 hrs) Complete at least 3 hours, but all 9 hours can be selected from this category.
Select from:
- CHE 4530 - Alternative Fuels and Renewable Energy Credit Hours: 3
- CHE 4610 - Atmospheric Chemistry Credit Hours: 3
- EE 3963 - Electric Machines Credit Hours: 3
- EE 4323 - Solar Cell and Photovoltaics Credit Hours: 3
- EE 4523 - Introduction to Electric Power System Engineering and Analysis Credit Hours: 3
- EE 4913 - Programmable Logic Controllers Credit Hours: 3
- ES 4710 - Bioenergy: Science, Policy, and Business Credit Hours: 3
- ME 4070 - Fundamentals of Nuclear Engineering Credit Hours: 3
- ME 4130 - Conduction, Convection, and Radiation Credit Hours: 3
- ME 4160 - Combustion Credit Hours: 3
- ME 4230 - Fuel Cell Analysis, Design, and Development Credit Hours: 3
- ME 4310 - Atmospheric Pollution Control Credit Hours: 3
-
B. (0 - 3 hrs) Research or Design Projects: A maximum of 3 hours can be counted from any combination of ME 4910 or ME 4930 hours.
- ME 4910 - Mechanical Engineering Project Credit Hours: 1 - 3
- ME 4930 - Special Investigation Credit Hours: 1 - 4
Professional Electives
(0 - 3 hrs) A maximum of 3 hours can be counted to meet the overall requirement of 9 hours if you select the Technical and Professional elective option.
Select from:
- ES 4832 - Sustainability Implementation Practicum Credit Hours: 3
- ET 4950 - Robe Leadership Seminar Credit Hours: 3
- ETM 3830 - Enterprise Project Management Credit Hours: 3
- MGT 3400 - Organizational Behavior Credit Hours: 3
- MGT 3550 - Creativity and Innovation Management Credit Hours: 3
- MGT 3700 - Introduction to Entrepreneurship Credit Hours: 3
- MGT 4560 - Strategic Leadership Consulting Credit Hours: 3
- MKT 3580 - Foundations of Professional Sales Credit Hours: 3
Project Management Certificate Electives
Complete all of the following courses, in addition to at least 3 hours of technical electives if you select the Technical and Project Management Certificate option:
- MGT 2000 - Introduction to Management Credit Hours: 3
- MGT 3400 - Organizational Behavior Credit Hours: 3
- MGT 4580 - Managing Transformations and Organizational Change Credit Hours: 3