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To help meet the need for inexpensive green hydrogen, a framework for wind turbine design optimization specifically for hydrogen production has been developed.This framework optimizes wind turbines by minimizing a levelized cost of hydrogen (LCOH) objective.Preliminary case study results show a 1.53% decrease in LCOH when compared to an LCOE optimized turbine using our framework.The decrease in LCOH from the baseline reference turbine to the LCOH optimized turbine was 12.7%.The decrease in LCOE from the baseline reference turbine to the LCOE optimized turbine was 12.35%.The LCOH optimized turbine has a larger rotor compared to the baseline and LCOE optimized turbines, where the increased turbine cost is offset by increased hydrogen production.This case study focuses on a single wind turbine-electrolyzer system, demonstrating that significant cost savings can be achieved by using new optimization objectives.Further cost savings may be had with plant-level optimizations and by including other technologies such as solar panels and battery storage.
Thomas et al. (Thu,) studied this question.