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파력-해상풍력 복합발전시스템의 IEC61850기반 통합 SCADA시스템 개발

Development of Unified SCADA System Based on IEC61850 in Wave-Offshore Wind Hybrid Power Generation System

  • Lee, Jae-Kyu (Energy IT Convergence Research Center, Korea Electronics Technology Institute) ;
  • Lee, Sang-Yub ;
  • Kim, Tae-Hyoung (Energy IT Convergence Research Center, Korea Electronics Technology Institute) ;
  • Ham, Kyung-Sun (Energy IT Convergence Research Center, Korea Electronics Technology Institute)
  • 투고 : 2016.03.08
  • 심사 : 2016.04.13
  • 발행 : 2016.05.01

초록

This paper suggests a structure of power control system in floating wave-offshore wind hybrid power generation system. We have developed an unified SCADA(Supervisory Control and Data Acquisition) system which can be used to monitor and control PCS(Power Conversion System) based on IEC61850. The SCADA system is essential to perform the algorithm like proportional distribution and data acquisition, monitoring, active power, reactive power control in hybrid power generation system. IEC61850 is an international standard for electrical substation automation systems. It was made to compensate the limitations of the legacy industrial protocols such as Modbus. In order to test the proposed SCADA system and algorithm, we have developed the wind-wave simulator based Modbus. We have designed a protocol conversion device based on real-time Linux for the communication between Modbus and IEC61850. In this study, SCADA system consists of four 3MW class wind turbines and twenty-four 100kW class wave force generator.

키워드

참고문헌

  1. Roddier, D., Cermelli, C., Aubault, A., & Weinstein, A., "WindFloat: A floating foundation for offshore wind turbines," Journal of Renewable and Sustainable Energy, 2(3), June 2010.
  2. Jonkman, J. M., and Denis Matha, "Dynamics of offshore floating wind turbines-analysis of three concepts." Wind Energy 14.4, pp. 557-569, January 2011. https://doi.org/10.1002/we.442
  3. Kyong-Hwan Kim, Kangsu Lee, Jung Min Sohn, Sewan Park, Jong-Su Choi and Keyyong Hong, "Conceptual Design of Large Semi-submersible Platform for Wave-Offshore Wind Hybrid Power Generation," Journal of the Korean Society for Marine Environment and Energy, Vol. 18, No. 3, pp. 223-232, August 2015. https://doi.org/10.7846/JKOSMEE.2015.18.3.223
  4. Sewan Park, Kyong-Hwan Kim, Kang-Su Lee, Yeon-Seok Park, Hyunseok Oh, Hyungki Shin and Keyyong Hong, "Arrangement Design and Performance Evaluation for Multiple Wind Turbines of 10MW Class Floating Wave-Offshore Wind Hybrid Power Generation System," Journal of the Korean Society for Marine Environment and Energy, Vol. 18, No. 2. pp. 123-132, May 2015 https://doi.org/10.7846/JKOSMEE.2015.18.2.123
  5. IEC61850-1. "Communication networks and systems for power utility automation - Part 1: Introduction and overview," Edition 2.0, 2013-03.
  6. IEC61850-5. "Communication networks and systems for power utility automation - Part 5: Communication requirements for functions and device models," Edition 2.0, 2013-01.
  7. IEC61850-7-1. "Communication networks and systems for power utility automation - Part 7-1: Basic communication structure - Principles and models," Edition 2.0, 2011-07.
  8. IEC61850-8-1. "Communication networks and systems for power utility automation - Part 8-1: Specific communication service mapping (SCSM) - Mappings to MMS (ISO 9506-1 and ISO 9506-2) and to ISO/IEC 8802-3," Edition 2.0, 2011-06.
  9. IEC61850-9-2. "Communication networks and systems for power utility automation - Part 9-2: Specific communication service mapping (SCSM) - Sampled values over ISO/IEC 8802-3," Edition 2.0, 2011-09.
  10. IEC61850-10. "Communication networks and systems for power utility automation - Part 10: Conformance testing," Edition 2.0, 2012-12.

피인용 문헌

  1. Towards improving throughput and reducing latency: A simplified protocol conversion mechanism in distributed energy resources network vol.213, 2018, https://doi.org/10.1016/j.apenergy.2018.01.013