Addressing the Security risk of a Massive Deployment of Photovoltaic Power for Electric Power Systems

Authors

DOI:

https://doi.org/10.56556/jtie.v2i3.590

Keywords:

Photovoltaic, PV, Solar Energy, DVS, Power System Security, Security Issues

Abstract

Future electric power systems will incorporate a high percentage of Photovoltaic (PV) power generation as a means of mitigating environmental issues including global warming and energy depletion. The author observes that if the increase in uncertainties brought about by the PV penetration cannot be prevented, then it will be difficult to carry out the N-1 security level. To ensure the N-1 security requirement is met despite the uncertainties, paper has suggested a new notion of "robust power system security" along with many conditions to be met. In this research, and offer a model of uncertainties caused by PV generation, and use robust power system security to guide our choice of parameters. Next, simulate the system to learn more about, how PV and load disconnections affect stability, and how Fault Ride Through (FRT) and Dynamic Voltage Support (DVS) influence stability. Finally, it is demonstrated that the massive penetration of PV would significantly raise the complexity of burden jobs in future power system operation planning and real-time operation.

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Published

2023-08-17

How to Cite

Kumar, N. (2023). Addressing the Security risk of a Massive Deployment of Photovoltaic Power for Electric Power Systems. Journal of Technology Innovations and Energy, 2(3), 1–9. https://doi.org/10.56556/jtie.v2i3.590

Issue

Section

Research Articles