Abstract:

This project investigates the impact of where 30% renewable penetrations and storage is interconnected into a IEEE 24 bus test power system. Its inspiration comes from a previous project I completed that needed a more realistic and applied investigation, which this provides. Given data from a 2017 Texas load profile, one week from each season is simulated to test the phase angle stability of each node in the power system and the overall operational cost. The optimal topology for the addition of renewable generation to the power system was found to be in a scattered, non-centralized arrangement of renewables. Storage proved to improve stability in testing situations of peak load, and a clustered, centralized configuration of storage emerged as the best implementation strategy. This project serves as a basis for many potential, influential future projects on power system topology that would be impactful in a world with growing renewable penetrations and storage dependence.

Full Report:

Topological_Impacts_of_Renewables_and_Storage_on_Operational_Costs_and_Phase_Stability_of_a_Power_System.pdf