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Undergraduate Research And Teaching Opportunities From A Transient Network Analyzer

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Conference

2002 Annual Conference

Location

Montreal, Canada

Publication Date

June 16, 2002

Start Date

June 16, 2002

End Date

June 19, 2002

ISSN

2153-5965

Conference Session

Effective Energy Laboratory Ideas

Page Count

10

Page Numbers

7.1222.1 - 7.1222.10

DOI

10.18260/1-2--11267

Permanent URL

https://peer.asee.org/11267

Download Count

411

Paper Authors

author page

Ronald Nelson

author page

David Flegel

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Herbert Hess

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Abstract
NOTE: The first page of text has been automatically extracted and included below in lieu of an abstract

Main Menu Session 3233

Undergraduate Research and Teaching Opportunities from a Transient Network Analyzer

Ronald O. Nelson, David C. Flegel, Brian K. Johnson, Herbert L. Hess University of Idaho Moscow, Idaho

Abstract A Transient Network Analyzer (TNA) is a large, controlled hardware simulation environment for studying electrical faults. Background is presented on how the university acquired a TNA from a public utility and adapted it for use in teaching and research. System is described with specifications. Capstone design process combined with a solid funded followup serves as a means to leverage the creation of such large research tools. Details of ideas for design, implementation, projects, and data collection are presented.

Introduction A Transient Network Analyzer (TNA) is a controlled hardware environment with which engineers can intentionally create and observe real electrical faults on a scale model power distribution system. A TNA has the main elements of a section of the commercial electrical grid, such as lines, sources, transformers, loads, instrumentation, and protection. There is a significant degree of flexibility for interconnection and instrumentation. Appropriate scaling of voltages, currents, impedances, and other quantities permit its behavior to safely mimic the transient performance of a section of the grid. Many utilities own such hardware. Larger TNAs have replaced smaller ones or, more frequently, advanced digital simulation systems have taken the place of TNAs. Occasionally, a TNA becomes available for university donation. The question then becomes how to install such equipment on limited university resources.

In this paper, such a TNA provided an opportunity for undergraduate research and teaching. Through a series of projects, the TNA was installed and outfitted for use in both research and teaching. By combining the enthusiasm and ideas of the capstone design process with a solidly funded followup, a working tool became available. This paper begins with a synopsis of TNA’s history, background, and initial installation. Through a sequence of capstone design projects, the feasibility of tools and enhancements is investigated and a host of good ideas are discovered. Those ideas were incorporated into the TNA by a funded research team. Details of the TNA’s performance and the design of research tools are presented in this paper. Applications for teaching, particularly at the introductory level, are also explained. In other words, scarce research money is leveraged effectively by a combination of the capstone design and a thorough followup process to yield a useful tool for both research and a broad range of teaching.

Background Idaho Power Company designed and built a TNA to enable its engineers to analyze portions of its grid. After a period of service with the company, the TNA was donated to the University of Idaho in 1999. The Schweizer Engineering Company donated state-of-the-art protection equipment during the following year. Unlike its public utility applications, the TNA now

Proceedings of the 2002 American Society for Engineering Education Annual Conference & Exposition Copyright  2002, American Society for Engineering Education

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Nelson, R., & Flegel, D., & Johnson, B., & Hess, H. (2002, June), Undergraduate Research And Teaching Opportunities From A Transient Network Analyzer Paper presented at 2002 Annual Conference, Montreal, Canada. 10.18260/1-2--11267

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