Loading studies for power transmission line models in the presence of non-fundamental frequencies

Subscribe (Full Service)


	Search: The ACM Digital Library The Guide

	Feedback
Take a look at the new version of this page: [ beta version ]. Tell us what you think.

Loading studies for power transmission line models in the presence of non-fundamental frequencies

Full text

Pdf (464 KB)

Source

Summer Computer Simulation Conference archive
Proceedings of the 2007 summer computer simulation conference table of contents

San Diego, California

SECTION: Short papers table of contents

Article No.: 2

Year of Publication: 2007

ISBN:1-56555-316-0

Authors

Valentina Cecchi	Drexel University
Aaron St. Leger	Drexel University
Karen Miu	Drexel University
Chika Nwankpa	Drexel University

Sponsor

SCS : Society for Modeling and Simulation International

Publisher

Society for Computer Simulation International San Diego, CA, USA

Bibliometrics

Downloads (6 Weeks): 4, Downloads (12 Months): 23, Citation Count: 0

Additional Information:

abstract references index terms collaborative colleagues

Tools and Actions:	Review this Article Save this Article to a Binder Display Formats: BibTeX EndNote ACM Ref

ABSTRACT

This work describes simulations used to investigate commonly used electric power transmission line models. Specifically, the paper focuses on the study of the line model behavior over non-fundamental frequencies and at varying loading conditions. Comparison among the distributed line model and three differently segmented models was made in terms of their performance, characterized through waveform propagation, including attenuation and phase shift.

REFERENCES

Note: OCR errors may be found in this Reference List extracted from the full text article. ACM has opted to expose the complete List rather than only correct and linked references.

	1	A. Monticelli, State Estimation in Electric Power Systems, A Generalized Approach (Power Electronics and Power Systems), Springer: 1st Edition: 1999.
	2	G. T. Heydt, Electric Power Quality, 2^nd Edition: Stars in a Circle Publications, 1994.
	3	Mohan, Undeland and Robbins, Power Electronics- Converters Applications and Design, 3^rd Edition: John Wiley & Sons: 2003.
	4	S. Carullo and C. Nwankpa, "Interconnected power systems laboratory: a computer automated instructional facility for power system experiments," IEEE Trans. Power System, vol. 17, pp. 215--222, 2002.
	5	S. P. Carullo, C. O. Nwankpa, and R. Fischl, "Instrumentation of Drexel University's Interconnected Power Systems Laboratory," Proceeding of the 28th Annual North American Power Symposium, Cambridge MA, October 1996, pp. 367--376.
	6	V. Cecchi, A. St. Leger, K. Miu, C. Nwankpa, "Experimental Setup for Investigating Gamma Transmission Line Models in the Presence of Non-Fundamental Frequencies", Proceedings of the Power Engineering Society General Meeting 2007, PES 2007.
	7	G. L. Wilson and K. A. Schmidt "Transmission Line Models for Switching Studies: Design Criteria II. Selection of Section Length, Model Design and Tests" IEEE Transactions on Power Apparatus and Systems, Vol. PAS-98, January/February 1974. Page(s): 389--395.
	8	Grainger and Stevenson, Power System Analysis, McGraw-Hill Electrical and Computer Engineering Series, Appendix A, Table A.3, p.750.
	9	Jaijeet S. Roychowdhury , Donald O. Pederson, Efficient transient simulation of lossy interconnect, Proceedings of the 28th conference on ACM/IEEE design automation, p.740-745, June 17-22, 1991, San Francisco, California, United States [doi>10.1145/127601.127762]

INDEX TERMS

Keywords:
loading studies, non-fundamental frequencies, power systems, power transmission line

Collaborative Colleagues:

Valentina Cecchi: colleagues

Aaron St. Leger: colleagues

Karen Miu: colleagues

Chika Nwankpa: colleagues

Adobe Acrobat

QuickTime

Windows Media Player

Real Player