The Transactions of The Korean Institute of Electrical Engineers (전기학회논문지)

The Korean Institute of Electrical Engineers (대한전기학회)
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A Study on Future System Construction Using WSCR Strengthness Index based on Python

Python 기반 WSCR 강건 지수를 이용한 미래계통 구축에 관한 연구

  • Park, Seong-Jun (Dept. of Electronic and Electrical Engineering, Daegu Catholic University) ;
  • Hur, Jin (Department of Electrical Engineering, Sangmyung University) ;
  • Kim, Hyun-Jin (Power Grid Planning Department, KEPCO) ;
  • Cho, Yoon-Sung (Dept. of Electronic and Electrical Engineering, Daegu Catholic University)
  • Received : 2018.05.31
  • Accepted : 2018.07.03
  • Published : 2018.08.01
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Abstract

In this paper, to studied about future power system construction using PSS / E-Python API. Python-based future system automatical construction methods and modeling of renewable sources. it confirmed the stability of the powert system for each renewable area by calculating the weighted short circuit ratio (WSCR) index. it calculated the short circuit ratio (SCR) and selected the transmission line linkage scenario to improve the stability of vulnerable areas. it confirmed the WSCR index improvement through the selected transmission line linkage of scenario, and analyzed the stability of the renewable power system applying the scenario. It describes Facts and Shunt devices adjustment for the load flow convergence. It describes the stable methed of the bus voltage through the transformer Ratio Tap adjustment. By performing PSS/E ASCC using the Python it was performed three-phase short circuit fault capacity analysis, it is confirmed whether excess of the fault current circuit breaker capacity. In order to contingency accident analysis, it have described the generation of one or two line list of each areas using the Python. The list is used to contingency analysis and describe the soluted of the transmission line overload through comparison before and after adding the scenario line.

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References

  1. The Paris Agreement, UN Framework Convention on Climate Change Conference of The Parties-21 Paris, 11.30-12. 2015.
  2. Ministry of Trade, Industry and Energy, Renewable Energy 3020 Implementation Plan, 12, 2017
  3. Study of the Integration of the Lubbock Power & Light System into the ERCOT System, ERCOT, June 9, 2016.
  4. Seongjong Kim, Minhan Yoon, Seongchul Hwang, Gilsoo Jang, Korea University (2014), "Study of voltage characteristics with SCR in wind farm connected to power system", KIEE Smart Grid Research Conference Spring Conference Papers, 151-152.
  5. World Energy Perspectives 2016, "Variable Renewables Integration in Electricity Systems: How to Get it Right", World Energy Council, 2016.
  6. PSS/E 32 Manual "Documentation API", Siemens PTI.
  7. Ministry of Trade, Industry and Energy, 2015-112, Power system reliability and electricity quality maintenance standard, June, 2015.
  8. Wood, Allen J, Wollenberg, Bruce F, Sheble, Gerald B, "Power Generation, Operation, and Control", John Wiley & Sons.
  9. Ministry of Trade, Industry and Energy, Eighth Plan for Electricity Supply and Demand, 12. 2017.
  10. V. Gevorgian and E. Muljadi, "Wind Power Plant Short Circuit Current Contribution for Different Fault and Wind Turbine Topologies", NREL, pp. 18-19, oct. 2010.
  11. Prepared by the Joint Working Group, "Fault Current Contributions from Wind Plants," IEEE Power and Energy Society.