Powering flights without compromise

Our technology converts CO₂ from air and hydrogen from water into sustainable aviation fuel, providing a scalable pathway to low carbon fuels.

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Sustainable aviation fuel designed to unlock decarbonized flight—without limits on performance, infrastructure, or ambition.

We are building next-generation direct air capture (DAC) enabled Fischer Tropsch fuel technology, proving a stepwise path from lab scale synthesis to integrated pilots and commercial demonstration.

01

Why We Exist

Sustainable fuel without limits.

Aviation accounts for ~2.5% of global CO₂ emissions today, and sustainable alternatives are limited. Aerion develops technology to produce synthetic aviation fuel from captured carbon dioxide and green hydrogen. Our stepwise pilot approach ensures every component DAC, hydrogen, and fuel synthesis is validated before scaling, providing credible, low carbon fuel solutions for airlines and partners.

Aerion Mission Control
Net-Zero Aim
Aerospheric Horizon
Horizon Standard
02

Our Approach

Integrating critical components.

We integrate three critical components to produce E-SAF:
  • 1. Direct Air Capture (DAC): Efficiently capturing CO₂ from ambient air.
  • 2. Green Hydrogen: Produced via renewable-powered electrolysis.
  • 3. Fischer Tropsch Fuel Synthesis: Converting CO₂ and H₂ into jet-range hydrocarbons.
Each subsystem is developed and validated independently, allowing us to derisk the technology before full system integration. This stepwise method ensures scalability, efficiency, and a clear path to commercial demonstration.
DAC
+
H₂
+
FT Reactor
Jet Fuel
Strategic Vision

Technology Roadmap

Our stepwise pathway to validate, integrate, and scale sustainable aviation fuel technology for commercial viability.

2027

Lab scale test bench validation

E-SAF DAC
2029

System integrated pilot plant

2031

Commercial Demonstrator scale plant