Litcius/Paper detail

Carbon-Aware Optimal Power Flow

Xin Chen, Xu Andy Sun, Weidong Shi, Na Li

2024IEEE Transactions on Power Systems28 citationsDOI

Abstract

To facilitate effective decarbonization of the electric energy sector, this paper introduces a generic Carbon-aware Optimal Power Flow (C-OPF) methodology for power system decision-making that considers the active management of the grid's carbon footprints. Built upon conventional Optimal Power Flow (OPF) models, the proposed C-OPF model further integrates carbon emission flow equations and constraints, as well as carbon-related objectives, to co-optimize electric power flow and carbon emission flow across the power grid. Essentially, the proposed C-OPF can be viewed as a carbon-aware generalization of OPF. Moreover, this paper rigorously establishes the conditions that guarantee the feasibility and solution uniqueness of the carbon emission flow equations, and it proposes a reformulation technique to address the critical issue of undetermined power flow directions in the C-OPF model. Furthermore, two novel carbon footprint models for energy storage systems are developed and incorporated into the C-OPF method. Numerical simulations demonstrate the characteristics and effectiveness of the C-OPF method, in comparison with conventional OPF solutions.

Topics & Concepts

Power flowFlow (mathematics)Electric power systemPower (physics)Computer scienceMechanicsPhysicsQuantum mechanicsPower Systems and TechnologiesRailway Systems and Energy EfficiencyOptimal Power Flow Distribution