Nov 24, 2024  
2023-2024 Undergraduate Catalog 
    
2023-2024 Undergraduate Catalog [ARCHIVED CATALOG]

Integrated Energy Management BS, Integrated Power Systems Specialization


Power systems provides courses that train students in topics related to energy technologies, physical understandings of power systems, and the environmental implications of energy production, distribution, and consumption.

Integrated Energy Management, BS Core


Program Information

The geopolitical conflicts over energy resources during the last decades have transformed the current energy landscapes at regional, national and global scales. These shifts in energy landscapes have made the management of energy resources more complex, the development of energy policy more important and controversial, and the innovation of energy technology front-page news. Whether it is finding new traditional sources of energy (e.g., oil, coal, and natural gas) or developing alternative courses of energy (e.g., wind, solar, hydropower, geothermal) we need to understand that the world is so embedded in conventional sources of energy that policies and decisions regarding alternative sources of energy depend greatly on what happens in the fossil fuel market.

An interdisciplinary and integrated understanding of energy resources is integral to finding comprehensive solutions to the management of energy systems in today’s rapidly changing world. A broad range of human, environmental, political, economic, and technological factors are at work shaping the future of current energy landscapes, and it is the mission of the Integrated Energy Management Program (IEM) to prepare students to be active participants in that emerging future. In doing so, the IEM emphasizes critical thinking and applied approaches to analysis, while providing graduates with the skills necessary to deal with energy issues at scales ranging from local to global.

The bachelor of science in integrated energy management takes these factors into consideration and provides students with an interdisciplinary educational experience that includes the integration of both traditional fossil fuel-based and greener alternative energy. Students enrolled in the IEM degree program will be able to choose from three specializations: (1) integrated energy policy; (2) integrated energy business; and (3) integrated power systems. Courses in the BS in IEM introduce students to energy systems and resources, while at the same time providing a comprehensive understanding of the social, political, economic, and environmental processes that shape energy systems. We emphasize field learning experience and an integrative approach to energy management. Majors in IEM hone their written, verbal, and analytical communication skills as part of their interdisciplinary education. Students also learn from and collaborate with faculty members supporting the Institute for Integrated Energy Studies.

Select students will have the opportunity to engage in a credit-bearing business-hosted extended (up to six months) cooperative education/apprenticeships with participating businesses. This applied learning experience happens in a student’s junior or senior year, and allows for the student to (1) put into practice what they have learned in the classroom; (2) receive credit towards their degree; and (3) receive specialized training from a company that they may work for after graduation.

No other university in the state offers this particular type of interdisciplinary education in response to current and future professional work place needs. Upon graduation, majors in IEM will be qualified to work in a wide range of careers, including energy policy, energy management services, inspection field technician, contact specialists, supply chain management of energy technologies, energy business, utility locator supervisor, energy plant manager, energy forecasting, and employment in private, public and non-for-profit organizations at local, state, and federal government agencies.

Admission Requirements
Applications are accepted throughout the academic year. Admission to the program is based upon a review of completed prerequisite courses and application materials. Please see the program application at www.cwu.edu/energy.

A student must have a 2.25 minimum GPA in all coursework taken previous to application for admission.

Admission to any course requires a grade of C- or higher in each prerequisite listed. Students who do not meet the prerequisite grade requirement will be dropped from the course.

A student is expected to complete each course used to fulfill a degree program requirement with a grade of C- or higher.

Students must complete all CWU foundation and core requirements prior to beginning 400-level coursework.

Additional
Students graduate from Central Washington University and earn a Bachelor of Science in Integrated Energy Management making them experts of integrated energy in the global economy.

Program Learner Outcomes
Upon successful completion of this program, students will be able to:

  • apply integrated energy management concepts, especially the distribution of renewable and fossil fuel energy systems in the built environment, to social, economic, political, and environmental processes;
  • analyze and interpret data for written or oral presentation;
  • demonstrate a depth of knowledge in their area of specialization; and
  • develop electronic portfolios focused on their career preparation.

Foundational Courses Credits: 15


Select one from the following for 5 credits:


Students in the integrated power systems specialization must either take MATH 153 or be otherwise qualified to enroll in MATH 154, MATH 170, or MATH 172.

Total Core Credits: 44-45


Integrated Power Systems Specialization


Specialization Total Credits: 30-34


Total Credits: 74-79


College and Department Information


Integrated Energy Studies  
College of the Sciences  

Online Availability
The program does not have a designated online only option.

Program Codes
Major plan codes: IEM, IEMP
Specialization plan code: IPS, IPSP