Clean Skies for Tomorrow- Delivering on the Global Power-to-Liquid Ambition⁠↗

Advances in low-carbon and renewable hydrogen production also will be crucial to the maturity of the PtL value chain. Lowering the levelized cost of hydrogen (which includes renewable-electricity input but excludes transport and distribution) to less than $1 per kilogram would reduce the cost of PtL to $1,200 to $1,800 per ton, depending on the carbon source, amounting to a 40 percent reduction in average cost by 2030. While this cost is still higher than that of fossil jet fuel, it is within range of alternative SAFs. Low-carbon hydrogen, sometimes referred to as “blue,” is derived primarily from natural gas using carbon capture and storage, while renewable or “green” hydrogen is made with renewable electricity. Low-carbon hydrogen is more cost-competitive than renewable hydrogen today and can be used as a transition technology to scale PtL faster. Although low-carbon hydrogen has lower production costs, it requires capturing CO2 twice to produce PtL—once in the hydrogen production route and again in the fuel synthesis step. Since this is an inherently inefficient system, renewable hydrogen can be prioritized for PtL production over the long term.