Operation Mode Analysis and Configuration Optimization of Offshore Wind-Hydrogen System

In order to achieve the goal of "carbon emission peak-carbon neutrality", the development of offshore wind power and other renewable energy sources will be accelerated. Hydrogen energy is expected to become an important part of the offshore low-carbon energy network, and the offshore wind-hydrogen system with a fully clean energy supply for offshore loads has great potential. The operation mode, configuration of each mode, and economy of this kind of system are worth studying. A configuration optimization model of the offshore wind-hydrogen system is established. Different operation modes of the system, including single power supply mode, dual power supply mode, multi-energy islanded mode, and multi-energy grid-connected mode, are compared and analyzed. Effects of various sensitive factors on the capacity configuration and economy are discussed. The simulation results show that the realization of supplying offshore loads with full clean energy needs to be at the expense of economic reduction, and the hydrogen price and the electrolyzer price have the greatest influence on the configuration and income of the system. © 2022 Automation of Electric Power Systems Press.