A Quadratic Approximation for the Optimal Power Flow in Power Distribution Systems

TL;DR

This paper introduces a simple quadratic approximation method for optimal power flow in unbalanced power distribution systems, offering high accuracy and practicality for large-scale applications.

Contribution

The paper proposes a novel quadratic approximation based on linearized load flow for unbalanced distribution systems, including an analytical solution for initialization.

Findings

High accuracy in systems with good voltage profiles

Effective in practical large-scale scenarios

Analytical solution aids in optimization initialization

Abstract

This paper presents a quadratic approximation for the optimal power flow in power distributions systems. The proposed approach is based on a linearized load flow which is valid for power distribution systems including three-phase unbalanced operation. The main feature of the methodology is its simplicity. The accuracy of the proposed approximation is compared to the non-linear/non-convex formulation of the optimal power flow using different optimization solvers. The studies indicate the proposed approximation provides a very accurate solution for systems with a good voltage profile. Results over a set of 1000 randomly generated test power distribution systems demonstrate this solution can be considered for practical purposes in most of the cases. An analytical solution for the unconstrained problem is also developed. This solution can be used as an initialization point for a more precise formulation of the problem.