Abstract
In recent years, there has been a growing need for accurate models that describe the dynamics of renewable energy sources, especially photovoltaic sources and wind turbines. In light of this gap, this work focuses on the validation of standard dynamic models developed by the Western Electricity Coordinating Council (WECC), using actual measurements from the Western Texas and Southern California transmission networks. The tests are based on the North American Electric Reliability Corporation compliance standards and include dynamic stability tests for volt-varcontrol and primary frequency response. Through an extensive set of field tests, we show that the WECC generic models can be used to simulate real dynamic phenomena in large-scale solar photovoltaic power plants, and we propose guidelines for correct usage of these models. The results show that the WECC models are especially accurate when the photovoltaic system is connected with a low impedance to the main network. We also show that the tested WECC models successfully predict the frequency response of an actual grid event that occurred in the Electric Reliability Council of Texas and which resulted in a loss of nearly 1.365 GW. This result supports the use of these models in the study of large-scale dynamic phenomena that include renewable energy sources.
Highlights
In recent years, the integration of renewable energy sources into power grids may lead to frequency instability and undesired transients [1,2,3,4]
There has been a growing need for accurate models that describe the dynamic behavior of renewable energy sources, especially PV sources and wind turbines
Through this extensive set of field tests that included dynamic stability tests for volt-var control and primary frequency response, we showed that the Western Electricity Coordinating Council (WECC) generic models could be used to simulate real dynamic phenomena in large-scale solar PV power plants and proposed guidelines for correct usage of these models
Summary
The integration of renewable energy sources into power grids may lead to frequency instability and undesired transients [1,2,3,4]. Control methods that promote stability are recently being implemented in isolated systems [6]. In this light, there is a growing need for accurate models that describe the behavior of renewable energy sources, especially photovoltaic (PV) sources and wind turbines. There is a growing need for accurate models that describe the behavior of renewable energy sources, especially photovoltaic (PV) sources and wind turbines Such models have been recently recognized to be crucial for the planning and operation of modern grids [7,8,9,10]. Several entities like the Western Electricity Coordinating Council (WECC) in the U.S and the Energies 2020, 13, 3191; doi:10.3390/en13123191 www.mdpi.com/journal/energies
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