Abstract
Electricity market players prioritize available transfer capability (ATC) as an attractive solution. Market participants can gain a financial advantage through accurate and fast ATC solutions. In order to provide a suitable and valuable solution, we use differential load flow equations. A dynamic system's entire time-domain trajectory can be solved by this method, along with a fictional time-domain differential equation. This article uses Newton-Raphson-Seydel instead of Newton-Raphson, which can also be used to determine voltage stability. A variable frequency transformer (VFT) was used in this study to increase and control transmission power. A 50% time saving on small systems was achieved with the proposed method, which was applied to seven different systems. In addition, it performed better on large systems by more than 90%. This proposal for static ATC presents promising results and can be applied to online applications.
Recommended Citation
Eidiani, Mostafa
(2023)
"A Quick and Comprehensive Method for Determining Static ATC with NRS and VFT,"
The Journal of Engineering Research: Vol. 20:
Iss.
1, Article 4.
DOI: https://doi.org/10.53540/tjer.vol20iss1pp45-51
Pages
45-51
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