Grid Stabilization with Decentralized Controllable Loads using Fuzzy Control and Droop Characteristics.

Palmer, Michael; Tachibana, Masato; Senjyu, Tomonobu; Funabashi, Toshihisa; Saber, Ahmed Y.; Datta, Manoj

In recent years, the amount of distributed generators in the power grid has increased. Most of these distributed generators are renewable energy facilities using wind turbine generators or photovoltaic power systems. The increase in distributed generators is mostly due to environmental issues, growing concern of resource depletion, and economic benefits for residents and homeowners. Along with the increase in distributed generators, all-electric apartment buildings and residential homes with electric vehicles are on the rise. This trend is beneficial for both the environment and the residents; however, the fluctuating power from renewable energy sources and unstable loads causes fluctuations in grid frequency and distributed voltage which become problematic. This paper presents a methodology to control system frequency and distributed voltage using distributed controllable loads such as the heat pump water heater (HP) and large capacity batteries such as those of the electric vehicle (EV). By applying a power consumption controller using decentralized control for heat pump water heaters and droop characteristics for batteries, fluctuations of grid frequency and voltage are suppressed to a desired value. In order to verify the effectiveness of the proposed system, MATLAB/Simulink is used for simulations.

ELECTRIC power distribution grids; ELECTRICAL load; FUZZY control systems; WIND turbines; PHOTOVOLTAIC power systems

International Journal of Emerging Electric Power Systems, 2014, Vol 15, Issue 4, p357

1553-779X

Academic Journal

10.1515/ijeeps-2014-0022