This program is aimed at providing understanding of energy engineering and the increasing role of energy engineers in addressing growing energy needs. The new skills and advanced understanding developed in class will prepare students for employment in rapidly growing energy industries. Students completing the Certificate will develop an understanding of the current status of energy issues and systems, and their management; learn about varying energy resources and technologies, such as petroleum, coal, natural gas, nuclear, solar, biomass, hydro-electric, and wind; be exposed to technical details on existing commercial processes and associated economics of various energy products; gain a better understanding of public policies to provide greater momentum to the energy industry; learn about the environmental impacts of the various energy systems; get credits for future studies in energy engineering in the Hampton Roads region; and acquire the skills and knowledge to be a part of the expert workforce for the energy industry.
Program Highlights
-
Enables participants to learn state-of-the-art techniques necessary for analyzing cyber security risks, preventing, detecting and recovering from cyber attacks through classroom instructions and hands-on lab work.
-
Accommodates students from engineering, math and sciences as well as practicing engineers and managers.
-
Program is designed both as a complement for students working on graduate degrees and for those personnel working on information and cyber systems used in industry, small businesses, healthcare, government, military and homeland security.
-
It is anticipated that students will complete the program in 2 semesters (full-time enrollment) or 2 years (part-time enrollment or working to complement an existing graduate program).
Careers
Check out these ideas from ODU's Center for Career & Leadership Development and the Occupational Information Network (O*NET). A median salary is a midpoint of what people typically earn—half of those surveyed earned above the median salary, and half earned below.
Energy Engineers
Design, develop, or evaluate energy-related projects or programs to reduce energy costs or improve energy efficiency during the designing, building, or remodeling stages of construction. May specialize in electrical systems; heating, ventilation, and air-conditioning (HVAC) systems; green buildings; lighting; air quality; or energy procurement.
Energy Auditors
Conduct energy audits of buildings, building systems, or process systems. May also conduct investment grade audits of buildings or systems.
Wind Energy Project Managers
Lead or manage the development and evaluation of potential wind energy business opportunities, including environmental studies, permitting, and proposals. May also manage construction of projects.
Solar Energy Systems Engineers
Perform site-specific engineering analysis or evaluation of energy efficiency and solar projects involving residential, commercial, or industrial customers. Design solar domestic hot water and space heating systems for new and existing structures, applying knowledge of structural energy requirements, local climates, solar technology, and thermodynamics.
Requirements
-
Bachelor of Science degree (or equivalent) in an engineering field or undergraduate degree in another relevant STEM field
-
Prerequisites for applicants from non-engineering fields include college-level mathematics, calculus-based physics, and chemistry or biology
-
Those interested in applying for the Certificate Program should download this Application Form (pdf), complete it, and submit via email to Dr. Sandeep Kumar
Featured Courses
Overview of social, economical, technical environmental aspects of regional, national and international efforts to achieve sustainable development. Discussion of the integration of industrial activity and ecological concerns utilizing principles of zero emissions, pollution prevention and design for the environment. Prerequisites: permission of instructor.
Rigorous development of the macroscopic theory of thermodynamics; structural basis for equations of state and general properties of matter; phase and chemical equilibria. Prerequisites: MAE 601 or MATH 691.
This course is designed to provide the fundamental physics and characteristics of photovoltaic materials and devices. A focus is placed on i) optical interaction, absorption, and design for photovoltaic materials and systems, ii) subsequent energy conversion processes in inorganic/organic semiconductor such as generation, recombination, and charge transport, and iii) photovoltaic testing and measurement techniques to characterize solar cells including contact and series resistance, open circuit voltage, short circuit current density, fill factor, and energy conversion efficiency of photovoltaic devices. (Offered fall) Prerequisites: ECE 332.
Cost of Attendance
We believe in providing students with transparent and accessible information about the cost of attendance.
Review the estimated tuition rates for the 2024-25 academic year (subject to change). Other fees are assessed for special services and certain academic programs. Non-resident rates are charged for anyone who is not a current Virginia resident, including international students.
Ways to Fund Your Degree
There are a few ways for you to save on the cost of attending Old Dominion University, including scholarships, assistantships, and student loans. For more details about financial aid at Old Dominion, visit the Financial Aid Office page.
Take the Next Step
Contact
![](/sites/default/files/styles/contact_person_183x217/public/images/8c40e8c6.jpg?h=69189783)
Additional Programs
Are there other programs at ODU I may be interested in?
With over 120 undergraduate programs, 130 graduate programs at the master's, education specialist and doctoral levels plus a wealth of certificate and professional development programs, Old Dominion University has the program for you. Visit our academic program listing page to see other programs ODU has to offer.