Power system security enhancement with unified power flow controller under multi-event contingency conditions
Power system security analysis plays key role in enhancing the system security and to avoid the system collapse condition. In this paper, a novel severity function is formulated using transmission line loadings and bus voltage magnitude deviations. The proposed severity function and generation fuel...
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Elsevier
2017-03-01
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| Series: | Ain Shams Engineering Journal |
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| Online Access: | http://www.sciencedirect.com/science/article/pii/S2090447915001227 |
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doaj-a771ac5f5f2f4c318d29d26fc1c372ea2021-06-02T02:32:09ZengElsevierAin Shams Engineering Journal2090-44792017-03-018192810.1016/j.asej.2015.07.006Power system security enhancement with unified power flow controller under multi-event contingency conditionsS. Ravindra0Chintalapudi V. Suresh1S. Sivanagaraju2V.C. Veera Reddy3EEE Department, QIS College of Engineering & Technology, Prakasam, 523272, IndiaEEE Department, Vasireddy Venkatadri Institute of Technology, Nambur, Guntur, A.P, 522508, IndiaEEE Department, UCEK, JNTUK, Kakinada, E.G.Dt, A.P. 533003, IndiaEEE Department, AITS, Tirupati, A.P., IndiaPower system security analysis plays key role in enhancing the system security and to avoid the system collapse condition. In this paper, a novel severity function is formulated using transmission line loadings and bus voltage magnitude deviations. The proposed severity function and generation fuel cost objectives are analyzed under transmission line(s) and/or generator(s) contingency conditions. The system security under contingency conditions is analyzed using optimal power flow problem. An improved teaching learning based optimization (ITLBO) algorithm has been presented. To enhance the system security under contingency conditions in the presence of unified power flow controller (UPFC), it is necessary to identify an optimal location to install this device. Voltage source based power injection model of UPFC, incorporation procedure and optimal location identification strategy based on line overload sensitivity indexes are proposed. The entire proposed methodology is tested on standard IEEE-30 bus test system with supporting numerical and graphical results.http://www.sciencedirect.com/science/article/pii/S2090447915001227Power system securityCritical linesSensitive generatorsSystem severity functionUnified power flow controllerImproved TLBO |
| collection |
DOAJ |
| language |
English |
| format |
Article |
| sources |
DOAJ |
| author |
S. Ravindra Chintalapudi V. Suresh S. Sivanagaraju V.C. Veera Reddy |
| spellingShingle |
S. Ravindra Chintalapudi V. Suresh S. Sivanagaraju V.C. Veera Reddy Power system security enhancement with unified power flow controller under multi-event contingency conditions Ain Shams Engineering Journal Power system security Critical lines Sensitive generators System severity function Unified power flow controller Improved TLBO |
| author_facet |
S. Ravindra Chintalapudi V. Suresh S. Sivanagaraju V.C. Veera Reddy |
| author_sort |
S. Ravindra |
| title |
Power system security enhancement with unified power flow controller under multi-event contingency conditions |
| title_short |
Power system security enhancement with unified power flow controller under multi-event contingency conditions |
| title_full |
Power system security enhancement with unified power flow controller under multi-event contingency conditions |
| title_fullStr |
Power system security enhancement with unified power flow controller under multi-event contingency conditions |
| title_full_unstemmed |
Power system security enhancement with unified power flow controller under multi-event contingency conditions |
| title_sort |
power system security enhancement with unified power flow controller under multi-event contingency conditions |
| publisher |
Elsevier |
| series |
Ain Shams Engineering Journal |
| issn |
2090-4479 |
| publishDate |
2017-03-01 |
| description |
Power system security analysis plays key role in enhancing the system security and to avoid the system collapse condition. In this paper, a novel severity function is formulated using transmission line loadings and bus voltage magnitude deviations. The proposed severity function and generation fuel cost objectives are analyzed under transmission line(s) and/or generator(s) contingency conditions. The system security under contingency conditions is analyzed using optimal power flow problem. An improved teaching learning based optimization (ITLBO) algorithm has been presented. To enhance the system security under contingency conditions in the presence of unified power flow controller (UPFC), it is necessary to identify an optimal location to install this device. Voltage source based power injection model of UPFC, incorporation procedure and optimal location identification strategy based on line overload sensitivity indexes are proposed. The entire proposed methodology is tested on standard IEEE-30 bus test system with supporting numerical and graphical results. |
| topic |
Power system security Critical lines Sensitive generators System severity function Unified power flow controller Improved TLBO |
| url |
http://www.sciencedirect.com/science/article/pii/S2090447915001227 |
| work_keys_str_mv |
AT sravindra powersystemsecurityenhancementwithunifiedpowerflowcontrollerundermultieventcontingencyconditions AT chintalapudivsuresh powersystemsecurityenhancementwithunifiedpowerflowcontrollerundermultieventcontingencyconditions AT ssivanagaraju powersystemsecurityenhancementwithunifiedpowerflowcontrollerundermultieventcontingencyconditions AT vcveerareddy powersystemsecurityenhancementwithunifiedpowerflowcontrollerundermultieventcontingencyconditions |
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1721409324509560832 |