On the Power Flow Solution in AC Distribution Networks Using the Laurent's Series Expansion

This paper deals with new power flow formulations for AC distribution networks. The power flow problem is approximated using Laurent's series expansion method over the product between voltage variables in the power balance equations, which proportionates a mathematical structure similar to the conventional Newton-Raphson method. The proposed model is developed in complex variables, which decreases the number of calculations needed and prevents the transformation of the load flow model into polar coordinates. Numerical results confirm that the proposed method is faster regarding computational time and the total number of iterations required; besides, one of the main advantages of this approach is dealing with radial or mesh grids. All simulations are conducted in the programming environment in MATLAB software.

Automated summary

This paper introduces new power flow formulations for AC distribution networks, utilizing Laurent's series expansion method in complex variables. The proposed model is faster and more efficient than conventional methods in terms of computational time and total number of iterations, with the ability to handle radial or mesh grids effectively. All simulations are conducted in MATLAB environment.