Evaluation of optimal transfer capability in power system interconnection

Hyun Il Son, Jin-O Kim, In Su Bae

Research output: Chapter in Book/Report/Conference proceedingConference contribution

2 Citations (Scopus)

Abstract

As the electrical power industry is restructured, the electrical power exchange is becoming extended. One of the key information used to determine how much power can be transferred through the network is known as available transfer capability (ATC). To calculate ATC, traditional deterministic approach is based on the severest case, but the approach has the complexity of procedure. Therefore, novel approach for ATC calculation is proposed using cost-optimization method in this paper, and is compared with well-being method and risk-benefit method. This paper proposes the optimal transfer capability of HVDC system between mainland and a separated island in Korea through these three methods. These methods will consider production cost, wheeling charge through HVDC system and outage cost with one depth (N-1 contingency).

Original languageEnglish
Title of host publication2009 IEEE Bucharest PowerTech
Subtitle of host publicationInnovative Ideas Toward the Electrical Grid of the Future
DOIs
StatePublished - 2009 Dec 1
Event2009 IEEE Bucharest PowerTech: Innovative Ideas Toward the Electrical Grid of the Future - Bucharest, Romania
Duration: 2009 Jun 282009 Jul 2

Publication series

Name2009 IEEE Bucharest PowerTech: Innovative Ideas Toward the Electrical Grid of the Future

Other

Other2009 IEEE Bucharest PowerTech: Innovative Ideas Toward the Electrical Grid of the Future
CountryRomania
CityBucharest
Period09/06/2809/07/2

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Costs
Outages
Industry

Keywords

  • ATC
  • Cost-optimization method
  • Outage cost
  • Power system interconnection
  • Risk-benefit analysis
  • Wellbeing method

Cite this

Son, H. I., Kim, J-O., & Bae, I. S. (2009). Evaluation of optimal transfer capability in power system interconnection. In 2009 IEEE Bucharest PowerTech: Innovative Ideas Toward the Electrical Grid of the Future [5281959] (2009 IEEE Bucharest PowerTech: Innovative Ideas Toward the Electrical Grid of the Future). https://doi.org/10.1109/PTC.2009.5281959
Son, Hyun Il ; Kim, Jin-O ; Bae, In Su. / Evaluation of optimal transfer capability in power system interconnection. 2009 IEEE Bucharest PowerTech: Innovative Ideas Toward the Electrical Grid of the Future. 2009. (2009 IEEE Bucharest PowerTech: Innovative Ideas Toward the Electrical Grid of the Future).
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abstract = "As the electrical power industry is restructured, the electrical power exchange is becoming extended. One of the key information used to determine how much power can be transferred through the network is known as available transfer capability (ATC). To calculate ATC, traditional deterministic approach is based on the severest case, but the approach has the complexity of procedure. Therefore, novel approach for ATC calculation is proposed using cost-optimization method in this paper, and is compared with well-being method and risk-benefit method. This paper proposes the optimal transfer capability of HVDC system between mainland and a separated island in Korea through these three methods. These methods will consider production cost, wheeling charge through HVDC system and outage cost with one depth (N-1 contingency).",
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Son, HI, Kim, J-O & Bae, IS 2009, Evaluation of optimal transfer capability in power system interconnection. in 2009 IEEE Bucharest PowerTech: Innovative Ideas Toward the Electrical Grid of the Future., 5281959, 2009 IEEE Bucharest PowerTech: Innovative Ideas Toward the Electrical Grid of the Future, 2009 IEEE Bucharest PowerTech: Innovative Ideas Toward the Electrical Grid of the Future, Bucharest, Romania, 09/06/28. https://doi.org/10.1109/PTC.2009.5281959

Evaluation of optimal transfer capability in power system interconnection. / Son, Hyun Il; Kim, Jin-O; Bae, In Su.

2009 IEEE Bucharest PowerTech: Innovative Ideas Toward the Electrical Grid of the Future. 2009. 5281959 (2009 IEEE Bucharest PowerTech: Innovative Ideas Toward the Electrical Grid of the Future).

Research output: Chapter in Book/Report/Conference proceedingConference contribution

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N2 - As the electrical power industry is restructured, the electrical power exchange is becoming extended. One of the key information used to determine how much power can be transferred through the network is known as available transfer capability (ATC). To calculate ATC, traditional deterministic approach is based on the severest case, but the approach has the complexity of procedure. Therefore, novel approach for ATC calculation is proposed using cost-optimization method in this paper, and is compared with well-being method and risk-benefit method. This paper proposes the optimal transfer capability of HVDC system between mainland and a separated island in Korea through these three methods. These methods will consider production cost, wheeling charge through HVDC system and outage cost with one depth (N-1 contingency).

AB - As the electrical power industry is restructured, the electrical power exchange is becoming extended. One of the key information used to determine how much power can be transferred through the network is known as available transfer capability (ATC). To calculate ATC, traditional deterministic approach is based on the severest case, but the approach has the complexity of procedure. Therefore, novel approach for ATC calculation is proposed using cost-optimization method in this paper, and is compared with well-being method and risk-benefit method. This paper proposes the optimal transfer capability of HVDC system between mainland and a separated island in Korea through these three methods. These methods will consider production cost, wheeling charge through HVDC system and outage cost with one depth (N-1 contingency).

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Son HI, Kim J-O, Bae IS. Evaluation of optimal transfer capability in power system interconnection. In 2009 IEEE Bucharest PowerTech: Innovative Ideas Toward the Electrical Grid of the Future. 2009. 5281959. (2009 IEEE Bucharest PowerTech: Innovative Ideas Toward the Electrical Grid of the Future). https://doi.org/10.1109/PTC.2009.5281959