电力系统自动化2026,Vol.50Issue(7):3-11,9.DOI:10.7500/AEPS20250629002
电-氢-氨协同的海上能源岛:研究进展、技术展望及工程设想
Electricity-Hydrogen-Ammonia Synergistic Offshore Energy Island:Research Progress,Technological Prospects,and Engineering Conception
摘要
Abstract
As a hub for offshore energy supply and conversion,the energy island can not only mitigate the fluctuation of renewable energy output but also achieve cross-temporal and spatial storage and clean utilization of energy.This paper introduces the basic concept of the energy island and its core features of multi-energy complementarity,spatial intensification and intelligent management.It also analyzes the policy support and research progress.In response to the complexity of the marine environment and the challenges of multi-energy system coupling,key technologies such as energy master planning,flexible electrical interconnection control,bidirectional efficient and flexible conversion of electricity-hydrogen-ammonia,energy management,and platform safety design need to be broken through in the future.This paper also discusses the demonstration project conception of"electricity-hydrogen-ammonia"synergy and engineering implementation risks.The research can provide innovative idea for the efficient utilization of renewable energy in the deep sea and is of great significance for achieving the goals of carbon emission peak and carbon neutrality.关键词
双碳/能源岛/多能源系统/可再生能源/电-氢-氨/能量管控/示范工程Key words
carbon emission peak and carbon neutrality/energy island/multi-energy system/renewable energy/electricity-hydrogen-ammonia/energy management/demonstration project引用本文复制引用
章康,赵波,吕洪坤,陈嘉映,张雪松..电-氢-氨协同的海上能源岛:研究进展、技术展望及工程设想[J].电力系统自动化,2026,50(7):3-11,9.基金项目
智能电网国家科技重大专项资助项目(2024ZD0801700). This work is supported by Smart Grid-National Major Science and Technology Project of China(No.2024ZD0801700). (2024ZD0801700)
