Abstract

Hydrogen and its derivatives hold significant promise for decarbonizing power and transport. This study proposes a mixed-integer linear optimization model for the flexible production and transportation of islanded green hydrogen and ammonia. Wind and solar databases of three coastal locations across the Kingdom of Saudi Arabia were utilized to provide a holistic geographic perspective. The results show that plant optimization can lead to production levelized costs of ammonia of 383 USD/tonne NH3, and production levelized costs of hydrogen down to 1.57 USD/kg H2 by 2030. The single largest cost driver is the energy cost, representing 60–70 % of the total project cost. In low-wind resource areas, battery storage technology plays a critical role in supplying consistent energy for continuous ammonia synthesis. Transportation to final demand centers in Europe or Asia can lead to additional costs of less than 40 USD/tonne NH3 and less than 0.8 USD/kg H2 via liquid hydrogen route.

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