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Establishing an Integrated Control Platform Architecture for Hydrogen Pipe Network

  • 발행 : 2024.07.29

초록

This study was conducted to establish a hydrogen pipe network integrated control platform architecture for integrated management of full cycle information and data using digital twin technology, which is widely used in general industry and construction industry. To this end, we present a hardware configuration diagram for platform operators and service delivery methods, and an architecture(functional configuration diagram) for the development of a hydrogen pipe network integrated control platform. The results of this study conducted through the above process are summarized as follows. First, to establish the platform basic structure, the platform hardware configuration diagrams for WEB server, WAS server, DB server, BIM file conversion server, storage, and backup were presented. Second, the architecture(functional configuration diagram) for the hydrogen pipe network platform, platform utilization interface, external system, hydrogen pipe network standard system, and BIM-based hydrogen pipe network digital twin construction was presented to secure consistent data and manage information standards for each construction stage.

키워드

과제정보

This study was conducted with the support of the Ministry of Land, Infrastructure and Transport and Korea Agency for Infrastructure Technology Advancement (RS-2023-00245737).

참고문헌

  1. D. Kim, S. Lee, Y. Kim, "Hydrogen Pipeline Characteristics and Technology Trends", 2019 The Korea Institute of Gas Conference, pp. 47-47, 2019.
  2. D. Sin, M. Lee, J. Lee, J. Kim, "Investigation on the domestic and international standard related to a installation of hydrogen piping for the hydrogen fueling station", 2021 Korea Energy Society Conference, pp. 57-57, 2021.
  3. Martine Van den Boomen, Sjoerd Van der Meulen, Jonathan Van Ekris, Roel Spanjers, Olle Ten Voorde, Janwim Mulder, Peter Blommaart, "Optimized Expansion Strategy for a Hydrogen Pipe Network in the Port of Rotterdam with Compound Real Options Analysis", Sustainability. 2021.
  4. Fabian Neumann, Elisabeth Zeyen, Marta Victoria, Tom Brown, "The potential role of a hydrogen network in Europe", CellPress, 2023.
  5. McKinsey & Company, "Hydrogen Insights Report 2021, 2021.
  6. Khalil Ben Safta, Jolando M. Kisse, "Hydrogen Pipeline Network Design: An optimization-based planning method considering the existing natural gas network", Institute of Electrical and Electronics Engineers, 2023.