Dynamic Simulation Studies of the Frequency Response of the Three U.S. Interconnections with Increased Wind Generation

TitleDynamic Simulation Studies of the Frequency Response of the Three U.S. Interconnections with Increased Wind Generation
Publication TypeReport
Year of Publication2010
AuthorsPeter Mackin, Ron Daschmans, Ben Williams, Brian Haney, Randy Hunt, Jeff Ellis
Pagination142
Date Published12/2010
Keywordsfrequency response, renewables integration, RT-001
Abstract

Utility Systems Efficiencies, Inc. was tasked by Lawrence Berkeley National Laboratory (LBNL) to conduct dynamic simulation studies of the three U.S. interconnections (Eastern, Western, and Texas). The simulations were prepared in support of LBNL's project for the Federal Energy Regulatory Commission to study frequency-response-related issues that must be addressed to operate the power system reliably with large amounts of variable renewable generation. The objective of the simulation studies of each interconnection was to assess the effects of different amounts of wind generation on frequency behavior of each interconnection following a sudden loss of generation. The scenarios created to study these effects considered an operating circumstance in which system load is at or close to its minimum. The event studied was the sudden loss of the largest amount of generation recorded within each interconnection. The simulations calculated the impact of this event on interconnection frequency for three levels of wind generation. In addition to varying the amount of wind generation, the simulations varied the amount of operating reserves between a high level representative of current operating practices and a low level representative of the minimum required by present operating rules.

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