Abstract
The transient stability of a power system depends heavily on its operational state at the moment of a fault. In systems where the penetration of renewable generation is significant, the dispatch of the conventional fleet of synchronous generators is uncertain at the time of dynamic security analysis. Hence, the assessment of transient stability requires the solution of a system of nonlinear ordinary differential equations with unknown initial conditions and inputs. To this end, we set forth a computational framework that relies on Taylor polynomials, where variables are associated with the level of renewable generation. This paper describes the details of the method and illustrates its application on a nine-bus test system.
Original language | American English |
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Number of pages | 14 |
State | Published - 2017 |
Event | 10th Bulk Power Systems Dynamics and Control Symposium - IREP 2017 - Espinho, Portugal Duration: 27 Aug 2017 → 1 Sep 2017 |
Conference
Conference | 10th Bulk Power Systems Dynamics and Control Symposium - IREP 2017 |
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City | Espinho, Portugal |
Period | 27/08/17 → 1/09/17 |
NREL Publication Number
- NREL/CP-5D00-68663
Keywords
- power generation dispatch
- power system security
- power system stability
- power system transients