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A New Approach for Estimating Frequency Variations Due to Smart Grid Functions

S. A. Saleh, J. Wo, X. F. St. Onge, Eduardo Castillo-Guerra

2020IEEE Transactions on Industry Applications31 citationsDOI

Abstract

This article presents a new approach for estimating the frequency variations (Df) due to applying smart grid functions on a load bus. The proposed approach is based on constructing a ZIP model for the power demands at a load bus that is controlled by smart grid functions.The constructed ZIP model provides a relationship between the active and reactive power demands and the frequency at any load bus. This relationship can be formulated as a set of nonlinear equations, which can be numerically solved for Df. The load-model approach is implemented for performance evaluation using load buses in the IEEE 30-bus power system under different loading levels. Performance results show that the proposed approach has a simple implementation, and can provide an accurate estimation of frequency variations due to slow and small changes load power demands. Furthermore, performance results reveal the insensitivity of the load-model approach to load power demands and/or seasonal changes in load power demands.

Topics & Concepts

Smart gridElectric power systemNonlinear systemPower (physics)AC powerComputer scienceGridControl theory (sociology)Set (abstract data type)Load managementDynamic demandLoad balancing (electrical power)EngineeringElectrical engineeringVoltageMathematicsControl (management)Quantum mechanicsArtificial intelligenceProgramming languageGeometryPhysicsSmart Grid Energy ManagementPower System Optimization and StabilityMicrogrid Control and Optimization