Abstract
Due to the continuous increase of fuel prices and pollutions, the use of renewable energy especially wind has increased. In developing countries including Egypt, squirrel cage induction generator wind turbine (SCIG- WT) represents a considerable proportion of the total capacity of installed wind farm due to its qualities such as low cost and easy availability. However, its operation has a substantial effect on system stability. In contrast, doubly fed induction generator wind turbine (DFIG-WT) is broadly penetrated the electrical grid as it keeps the system stable. In this work, the ability of WT generators to continue operating rather than tripping at the time of faults is analyzed for proper stability investigation. The detailed control and stability of a grid-connected large scale SCIG and DFIG of Zafarana, Suez Gulf area, Egypt are discussed whereas the parameters of fault ride through (FRT) curve of Egypt grid code is utilized. Moreover, a precise analytical stability argument using a proposed integrated nonlinear dynamical model is presented. Conditions for global asymptotic stability of the SCIG in the sense of Lyapunov function (LF) are given and tested by time domain simulation. The eigenvalues of the matrices of LF and its derivative are determined by which the stability boundaries are determined depending on the positivity of these matrices. The dynamic behavior of the whole system is simulated in MATLAB/Simulink interface programming while the practical data are collected from an experimental model consisting of DFIG-WT to demonstrate the efficacy of the FRT control system.
Highlights
Different countries are intensifying the use of renewable energy for electrical power generation because of their numerous benefits
Appropriate methods to analyze the stability of the SCIG-wind turbine (WT) were presented [7]
The whole configuration of the system along with the hybrid wind farm is simulated with MATLAB/Simulink software
Summary
Different countries are intensifying the use of renewable energy for electrical power generation because of their numerous benefits. The rotor deviates from the synchronous speed resulting in a significant amount of reactive power consumption at the stator terminals, further degrading grid voltage post fault recovery [6], [7]. Flexible AC transmission system (FACTS), rotor circuit control and braking resistors are three methods were used for improving induction generators (IGs) stability [6]–[8]. A method for improving the wind farm performance was investigated in [9]. This method was relied on the construction of combined wind farm composed of an equal number of DFIGs and SCIGs with the use of FACTS devices
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