@article{article_1341697, title={Incorporating STATCOM into a Hydro-Thermal Optimal Power Flow Algorithm}, journal={Turkish Journal of Science and Technology}, volume={20}, pages={523–540}, year={2025}, DOI={10.55525/tjst.1341697}, author={Lawal, Muyideen Olalekan and Lateef, Ridwan Gbolahan and Rasheed, Sarafa Olayide}, keywords={HTOPF, STATCOM, voltage magnitude, reactive power, optimization interval}, abstract={This paper presents the results of the inclusion of Synchronous Static Compensator (STATCOM) power flow models into a hydro-thermal optimal power flow (HTOPF) algorithm. STATCOM basically introduces the voltage magnitude and phase angle of the source converter into the algorithm. For each incorporated STATCOM, an augmented Lagrangian function was formed. The first and second derivatives of these functions were added to the gradient vector and Hessian matrix of an existing algorithm. The modified algorithm was implemented using MATLAB R2018a and tested on 30 and 57 bus systems. Two and three STATCOMs were, respectively, tested on 30 and 57 bus systems. The results obtained showed that the STATCOMs significantly improved the systems’ voltage profile through the injection and absorption of required reactive power into the networks. However, its impacts on the total systems daily energy loss, daily energy generations (from both plants), daily fuel cost and hydro plant water worth are insignificant.}, number={2}, publisher={Fırat University}, organization={Osun State University, Osogbo, Osun State, Nigeria.}