497-215: Smart MicroGrids within Contemporary Electrical Generation, Transmission and Distribution Networks

CRN
25896
Meeting Days/Time
Fridays from 10:00 am to 12:40 pm
Sponsor
Sargent & Lundy LLC
Instructor(s)
Nancy Hamill-Governale (INTM) (hamill@iit.edu)
Appropriate Majors
Aerospace Engineering, Applied Mathematics, Architectural Engineering, Architecture, Business, Chemical Engineering, Civil Engineering, Computer Engineering, Computer Information Systems, Computer Science, Electrical Engineering, Engineering Management, Environmental Engineering, Industrial Technology & Management, Information Technology & Management, Journalism, Materials Engineering, Mechanical Engineering, Political Science, Psychology
Category
Technical Innovation

The United States electrical grid is undergoing a profound transformation due to trends in information technology, smart equipment, renewable energy systems and increasing sustainability goals. As the technical complexity of our electric grid increases, end users, electric generators and grid operators benefit in terms of response, asset management and efficient deployment of all types of electrical generation. This IPRO team will develop an understanding of the current development of Smart MicroGrids, HVDC transmission systems, safe incorporation of renewable energy and end-user behavior and acceptance of Smart Grid concepts.

This IPRO project continues the work of the fall 2016 IPRO 215 team. Our objective is to further our understanding of smart grid systems, fully develop a description of Smart MicroGrids and research other new technologies currently in the conceptual development or design stages. This IPRO project will give all students an understanding about where a typical utility is headed in comparison to current practices. Over several semesters, this IPRO project develops concepts and work product that is reviewed by professionals, including IIT alums, on the staff in various departments within Sargent & Lundy.

This IPRO project will start the semester with a defined focus. The team will have access to previous semester materials, including work product and recommendations for next steps. Our goal for each semester is to build upon what has been accomplished during previous semesters. As a broad, contemporary electric power project, our aim is to develop a working knowledge of all technical and social trends and factors that influence innovations in electric power systems, including geographic, human, architectural/ engineering systems design, renewable energy, energy efficiency, business management and sustainability.

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