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Voltage Stability Analysis of IEEE118 Bus System with Wind Penetration


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1 Power System Division, Central Power Research Institute, Bengaluru – 560012, Karnataka, India
     

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The increased penetration of renewable energy sources affects the voltage stability of the system. This article provides steady state voltage stability analysis with wind penetration. The standard IEEE 118 bus system is used for the analysis. The system is modelled in PSSE software and NR-Power flow method is used to perform the power flow studies with various levels of wind penetration. From the load flow studies voltage profile at load buses is analysed through PV curves. System is further studied with reactive power compensation provided at wind generator terminals. All cases are analysed for voltage stability with respect to increase in loading of the system.

Keywords

IEEE 118 System, Shunt Compensation, Voltage Stability, Wind Penetration.
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  • Voltage Stability Analysis of IEEE118 Bus System with Wind Penetration

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Authors

J. Sreedevi
Power System Division, Central Power Research Institute, Bengaluru – 560012, Karnataka, India
G. N. Chethan
Power System Division, Central Power Research Institute, Bengaluru – 560012, Karnataka, India
Paila Lakshmana Rao
Power System Division, Central Power Research Institute, Bengaluru – 560012, Karnataka, India

Abstract


The increased penetration of renewable energy sources affects the voltage stability of the system. This article provides steady state voltage stability analysis with wind penetration. The standard IEEE 118 bus system is used for the analysis. The system is modelled in PSSE software and NR-Power flow method is used to perform the power flow studies with various levels of wind penetration. From the load flow studies voltage profile at load buses is analysed through PV curves. System is further studied with reactive power compensation provided at wind generator terminals. All cases are analysed for voltage stability with respect to increase in loading of the system.

Keywords


IEEE 118 System, Shunt Compensation, Voltage Stability, Wind Penetration.

References





DOI: https://doi.org/10.33686/prj.v17i1.221906