Abstract
In this literature, a new automated control strategy has been developed to manage the power supply from the wind power generation system to the load. The main objective of this research work is to develop a fuzzy logic–based pitch angle control and to develop a static transfer switch to make power balance between the wind power generation system and the loads. The power management control system is a progression of logic expressions, designed based on generating power and load power requirement. The outcome of this work targets at an improved power production, active and reactive power compensation and ensures system load constraints. To validate the proposed control strategy, a detailed simulation study is carried out on a 9-MW wind farm simulation simulated in MATLAB/Simulink environment.
Highlights
Electrical power plays a vital role in day-to-day life of human society in all aspects
The renewable energy resources (RERs) play a major role in electrical power production, and it is estimated that the world electricity production through RER will be 45% by 2020.1 Among various RERs, wind power generation system (WPGS) has become the most popular power resource in the past decade for its clean and low maintenance factors.[2]
The power management control system is a progression of logic expressions, designed based on generating power and load power requirement
Summary
Electrical power plays a vital role in day-to-day life of human society in all aspects. Considering a wind farm in a compact urban area network with several minor WPGS of 1 MW scale or more which are linked directly to the power network. It has been observed that the high fluctuating wind speed affects the power generation capacity of the WPGS. On one hand, as WPGS is grid-connected, it tends to affect the loads connected to the grid network.[4] On the other hand, the WPGS is not deployed to sense the change in loads in the grid network.[5] it is mandatory to develop an ancillary power management system to handle the load requirement based on the energy generation of the WPGS
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