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Building Highly Detailed Synthetic Electric Grid Data Sets for Combined Transmission and Distribution Systems

Hanyue Li, Jessica L. Wert, Adam B. Birchfield, Thomas J. Overbye, Tomás Gómez San Román, Carlos Mateo, Fernando Emilio Postigo Marcos, Pablo Dueñas Martínez, Tarek Elgindy, Bryan Palmintier

2020IEEE Open Access Journal of Power and Energy60 citationsDOIOpen Access PDF

Abstract

This paper introduces a methodology for building synthetic electric grid data sets that represent fictitious, yet realistic, combined transmission and distribution (T&D) systems. Such data sets have important applications, such as in the study of the wide-area interactions of distributed energy resources, in the validation of advanced control schemes, and in network resilience to severe events. The data sets created here are geographically located on an actual North American footprint, with the end-user load information estimated from land parcel data. The grid created to serve these fictional but realistic loads is built starting with low-voltage and medium-voltage distribution systems in full detail, connected to distribution and transmission substations. Bulk generation is added, and a high-voltage transmission grid is created. This paper explains the overall process and challenges addressed in making the combined case. An example test case, syn-austin-TDgrid-v03, is shown for a 307236-customer case located in central Texas, with 140 substations, 448 feeders, and electric line data at voltages ranging from 120 V to 230 kV. Such new combined test cases help to promote high quality in the research on large-scale systems, particularly since much actual power system data are subject to data confidentiality. The highly detailed, combined T&D data set can also facilitate the modeling and analysis of coupled infrastructures.

Topics & Concepts

GridDistribution (mathematics)Computer scienceTransmission (telecommunications)Distribution gridTelecommunicationsMathematicsGeometryMathematical analysisPower System Reliability and MaintenanceOptimal Power Flow DistributionPower Systems and Technologies