Projected economic outlook and scenario analysis for H production by alkaline water electrolysis on the basis of the unit electricity price, the learning rate, and the automation level

H 2 is regarded as an alternative to current energy carriers without CO 2 emission. To supplement traditional H 2 production by fossil fuels, alkaline water electrolysis (AWE) is back in the spotlight. Unfortunately, H 2 production by AWE is not economically practical yet compared with current fossil fuel H 2 production methods. In this context, scenario analysis was performed in this study to find a suitable and reasonable scenario in which AWE is cost-competitive in terms of the levelized cost of H 2 (LCOH) on the basis of diverse economic parameters such as the unit electricity price, the learning curve, and the automation level. From scenario analysis results, it is identified that the unit electricity price is the most effective economic factor to determine the LCOH followed by the learning curve and the automation level demonstrating that the introduction of surplus electricity, inevitably generated from renewable sources, can be very crucial for H 2 production from AWE to be economically viable compared with the estimated LCOH of 1.25 USD per kg H 2 in 2030 targeted by the United States Department of Energy. Most importantly, it can provide technical and economic guidelines on the basis of scenario analysis results. This can be very useful for decision makers to make economic and environmental policies in Korea and will result in entering the H 2 economy society in the near future. A learning curve, a unit electricity price, and an automation level are considered to improve economic feasibility for H 2 production by alkaline water electrolysis.