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| Title: | Cascading line outage prevention with multiple UPFCs | |
| Author (s): | Chowdhury, Badrul H. Crow, Mariesa L. Lininger, A Ma, Hong Tao | |
| Department/Lab Affiliations: | Electrical and Computer Engineering Energy Research and Development Center Intelligent Systems Center Power Systems Laboratory | |
| Keywords: | FACTS blackout cascading outage line overload line security power system dynamic performance | |
| Issue Date: | 2007 | |
| Publisher: | Institute of Electrical and Electronics Engineers IEEE | |
| Citation: | Ma, Hong Tao, Mariesa L. Crow, Badrul H. Chowdhury, and Adam Lininger. "Cascading Line Outage Prevention with Multiple UPFCs", Power Symposium, 2007. NAPS '07. 39th North American, pp. 273-278. | |
| Abstract: | Flexible AC Transmission System (FACTS) have been recognized to be effective in regulating network power flow and enhance system dynamic performance. In this paper, multiple UPFCs are integrated into a network and controlled according to the Max Flow algorithm to avoid possible cascading line outage. The dynamic response of UPFC controllers and generator performance are investigated with potential cascading critical line outage. Cascading blackout prevention is investigated not only for steady state power flow overload problem but also for system dynamic stability problem. Generator performances of speed deviation, angle deviations and bus voltage profile as well as dynamic power flows are shown. A classical generator model is used in the simulation program. The IEEE 118-bus 20-generator system is used for testing. A cascading line trip sequence is expected to be prevented immediately after the first grid component outage. | |
| Type: | Article - Conference proceedings text | |
| In Title: | Power Symposium, 2007. NAPS '07. 39th North American | |
| Copyright Notice: | This material is presented to ensure timely dissemination of scholarly and technical work. Copyright and all rights therein are retained by authors or by other copyright holders. All persons copying this information are expected to adhere to the terms and constraints invoked by each author's copyright. In most cases, these works may not be reposted without the explicit permission of the copyright holder. allows publisher's final version to be uploaded FULL COPYRIGHT INFORMATION: | |
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| title | Cascading line outage prevention with multiple UPFCs | |
| contributor.author | Chowdhury, Badrul H. | |
| contributor.author | Crow, Mariesa L. | |
| contributor.author | Lininger, A | |
| contributor.author | Ma, Hong Tao | |
| contributor.deptlab | Electrical and Computer Engineering | |
| contributor.deptlab | Energy Research and Development Center | |
| contributor.deptlab | Intelligent Systems Center | |
| contributor.deptlab | Power Systems Laboratory | |
| subject | FACTS | |
| subject | blackout | |
| subject | cascading outage | |
| subject | line overload | |
| subject | line security | |
| subject | power system dynamic performance | |
| date.issued | 2007 | |
| publisher | Institute of Electrical and Electronics Engineers IEEE | |
| identifier.citation | Ma, Hong Tao, Mariesa L. Crow, Badrul H. Chowdhury, and Adam Lininger. "Cascading Line Outage Prevention with Multiple UPFCs", Power Symposium, 2007. NAPS '07. 39th North American, pp. 273-278. | |
| identifier.pub.URI | ||
| description.abstract | Flexible AC Transmission System (FACTS) have been recognized to be effective in regulating network power flow and enhance system dynamic performance. In this paper, multiple UPFCs are integrated into a network and controlled according to the Max Flow algorithm to avoid possible cascading line outage. The dynamic response of UPFC controllers and generator performance are investigated with potential cascading critical line outage. Cascading blackout prevention is investigated not only for steady state power flow overload problem but also for system dynamic stability problem. Generator performances of speed deviation, angle deviations and bus voltage profile as well as dynamic power flows are shown. A classical generator model is used in the simulation program. The IEEE 118-bus 20-generator system is used for testing. A cascading line trip sequence is expected to be prevented immediately after the first grid component outage. | |
| type | Article - Conference proceedings | |
| type.DCMIType | text | |
| type.status | Final version | |
| rights | This material is presented to ensure timely dissemination of scholarly and technical work. Copyright and all rights therein are retained by authors or by other copyright holders. All persons copying this information are expected to adhere to the terms and constraints invoked by each author's copyright. In most cases, these works may not be reposted without the explicit permission of the copyright holder. | |
| rights | allows publisher's final version to be uploaded | |
| rights.URI | ||
| rights.URI | ||
| rights.URI | ||
| relation.isPartOf | Power Symposium, 2007. NAPS '07. 39th North American | |
| date.accessioned | 2008-07-08T18:55:13Z | |
| date.available | 2008-07-08T20:51:28Z | |
| identifier.persist.URI | ||
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