Litcius/Paper detail

Reexamining the Distributed Slack Bus

Sairaj V. Dhople, Yu Christine Chen, Abdullah Al-Digs, Alejandro D. Domínguez-García

2020IEEE Transactions on Power Systems27 citationsDOI

Abstract

Power flow formulated with a distributed slack bus involves modeling the active-power output of each generator with three elements: a nominal injection modulated by a fraction of the net-load imbalance allocated via a participation factor. This setup acknowledges generator dynamics and system operations, but it has long been plagued by ambiguous and inconsistent interpretations of its constituent elemental quantities. In this paper, we establish that, with the: i) nominal active-power injections set to be the economic dispatch setpoints, ii) participation factors fixed to be the ones used in automatic generation control, and iii) net-load imbalance considered to be the total load and loss unaccounted in economic dispatch, the power flow solution best matches results from a simulation unto steady state of the system differential algebraic equation (DAE) model. Numerical case studies tailored to the New England test system validate the analysis by demonstrating that solutions obtained from a distributed slack formulation offer lower errors (with respect to DAE-model simulations) compared to the exhaustive set of all single slack bus choices.

Topics & Concepts

Economic dispatchSlack busGenerator (circuit theory)Electric power systemControl theory (sociology)Automatic Generation ControlPower (physics)Computer scienceSet (abstract data type)Power-flow studyMathematical optimizationPower system simulationControl (management)MathematicsArtificial intelligenceProgramming languagePhysicsQuantum mechanicsFrequency Control in Power SystemsMicrogrid Control and OptimizationPower System Optimization and Stability