Roadmap to Offshore Power-Liquid Hydrogen Co-production and Hybrid Delivery System Based on Superconducting Technology

Jian Yang; Yanzhong Li; Hongbo Tan

doi:10.46855/energy-proceedings-10965

Roadmap to Offshore Power-Liquid Hydrogen Co-production and Hybrid Delivery System Based on Superconducting Technology

Jian Yang
, Yanzhong Li
, Hongbo Tan

School of Energy and Power Engineering

Xi'an Jiaotong University

Research output: Contribution to journal › Conference article › peer-review

2 Scopus citations

Abstract

As offshore wind farms (OWFs) evolve to larger scale and longer distance, superconducting technology has an opportunity for application. Liquid hydrogen (LH₂) is an ideal cooling medium for superconductors used in OWFs and is a high-quality product. Therefore, an offshore power-LH₂ co-production and hybrid delivery system based on superconducting technology is designed. The SEC, EXE, and COP of hydrogen liquefaction and subcooling integration process are 8.82 kWh/kg_LH2, 40.6%, and 0.15, respectively. LH₂ is produced to cool superconducting generators and transported ashore along with electricity using the hybrid energy pipeline. At a LH₂ delivery rate of 1 kg/s, the maximum delivery distance of the hybrid energy pipeline can reach 81.7 km.

Original language	English
Journal	Energy Proceedings
Volume	41
DOIs	https://doi.org/10.46855/energy-proceedings-10965
State	Published - 2024
Event	15th International Conference on Applied Energy, ICAE 2023 - Doha, Qatar Duration: 3 Dec 2023 → 7 Dec 2023

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

SDG 7 Affordable and Clean Energy

Keywords

hybrid energy pipeline
liquid hydrogen production
offshore wind power
superconducting generator

Access to Document

10.46855/energy-proceedings-10965

Cite this

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title = "Roadmap to Offshore Power-Liquid Hydrogen Co-production and Hybrid Delivery System Based on Superconducting Technology",

abstract = "As offshore wind farms (OWFs) evolve to larger scale and longer distance, superconducting technology has an opportunity for application. Liquid hydrogen (LH2) is an ideal cooling medium for superconductors used in OWFs and is a high-quality product. Therefore, an offshore power-LH2 co-production and hybrid delivery system based on superconducting technology is designed. The SEC, EXE, and COP of hydrogen liquefaction and subcooling integration process are 8.82 kWh/kgLH2, 40.6\%, and 0.15, respectively. LH2 is produced to cool superconducting generators and transported ashore along with electricity using the hybrid energy pipeline. At a LH2 delivery rate of 1 kg/s, the maximum delivery distance of the hybrid energy pipeline can reach 81.7 km.",

keywords = "hybrid energy pipeline, liquid hydrogen production, offshore wind power, superconducting generator",

author = "Jian Yang and Yanzhong Li and Hongbo Tan",

year = "2024",

doi = "10.46855/energy-proceedings-10965",

language = "英语",

volume = "41",

journal = "Energy Proceedings",

issn = "2004-2965",

publisher = "Scanditale AB",

}

TY - JOUR

T1 - Roadmap to Offshore Power-Liquid Hydrogen Co-production and Hybrid Delivery System Based on Superconducting Technology

AU - Yang, Jian

AU - Li, Yanzhong

AU - Tan, Hongbo

PY - 2024

Y1 - 2024

N2 - As offshore wind farms (OWFs) evolve to larger scale and longer distance, superconducting technology has an opportunity for application. Liquid hydrogen (LH2) is an ideal cooling medium for superconductors used in OWFs and is a high-quality product. Therefore, an offshore power-LH2 co-production and hybrid delivery system based on superconducting technology is designed. The SEC, EXE, and COP of hydrogen liquefaction and subcooling integration process are 8.82 kWh/kgLH2, 40.6%, and 0.15, respectively. LH2 is produced to cool superconducting generators and transported ashore along with electricity using the hybrid energy pipeline. At a LH2 delivery rate of 1 kg/s, the maximum delivery distance of the hybrid energy pipeline can reach 81.7 km.

AB - As offshore wind farms (OWFs) evolve to larger scale and longer distance, superconducting technology has an opportunity for application. Liquid hydrogen (LH2) is an ideal cooling medium for superconductors used in OWFs and is a high-quality product. Therefore, an offshore power-LH2 co-production and hybrid delivery system based on superconducting technology is designed. The SEC, EXE, and COP of hydrogen liquefaction and subcooling integration process are 8.82 kWh/kgLH2, 40.6%, and 0.15, respectively. LH2 is produced to cool superconducting generators and transported ashore along with electricity using the hybrid energy pipeline. At a LH2 delivery rate of 1 kg/s, the maximum delivery distance of the hybrid energy pipeline can reach 81.7 km.

KW - hybrid energy pipeline

KW - liquid hydrogen production

KW - offshore wind power

KW - superconducting generator

UR - https://www.scopus.com/pages/publications/85190762522

U2 - 10.46855/energy-proceedings-10965

DO - 10.46855/energy-proceedings-10965

M3 - 会议文章

AN - SCOPUS:85190762522

SN - 2004-2965

VL - 41

JO - Energy Proceedings

JF - Energy Proceedings

T2 - 15th International Conference on Applied Energy, ICAE 2023

Y2 - 3 December 2023 through 7 December 2023

ER -

Roadmap to Offshore Power-Liquid Hydrogen Co-production and Hybrid Delivery System Based on Superconducting Technology

Abstract

UN SDGs

Keywords

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