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Solid Oxide Fuel Stack

Large Scale Validation of Reversible Fuel Cell

OxEon and Idaho National Laboratory’s project is to advance reversible solid oxide fuel cell technology producing clean, stable, and reliable energy from industrial waste heat, concentrated solar energy, or...

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Electric vertical take-off and landing (eVTOL) aircraft

Solid Oxide Fuel Stack in eVTOL Applications

OxEon Energy is investigating the use of a solid oxide fuel cell stack as the power generation device for eVTOL applications. SOFCs are high efficiency devices that can utilize various fuels. As the fuels are...

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Private farm field testing OxEon's reversible solid oxide cell system to generate and store hydrogen

Microgrid Application of a Reversible Solid Oxide Cell System

OxEon has an agreement with a private farm to field test a reversible solid oxide cell system to generate and store hydrogen using renewable energy during daytime and use the hydrogen during night to generate...

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NASA Announces New Tipping Point Partnerships for Moon and Mars Technologies

Liquid Propellants for LH2/LOx-Fueled Cislunar Transport

OxEon Energy and the Colorado School of Mines (Mines) have teamed to integrate OxEon’s high-temperature solid-oxide electrolysis (SOXE) stack technology with a balance-of-plant system that processes recovered...

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Producing liquid hydrocarbon fuels using both the methane and CO2 generated in EPT’s food waste digester.

Liquid Hydrocarbon Fuels From Methane and CO2

OxEon Energy and Environmental Products & Technologies Corporation (EPT) will conduct an engineering-scale demonstration, producing liquid hydrocarbon fuels using both the methane and CO2 generated in EPT’...

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5 kW SOEC stack module

5 kW SOEC Stack Module for INL

OxEon supplied a 5 kW SOEC stack module that in May of 2019 produced the first hydrogen in the INL High 25 kW Temperature Steam Electrolysis (HTSE) Test Facility.

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SOEC stacks that convert carbon dioxide to oxygen.

Technology Acceleration Program (TAP) Initiative

OxEon Energy was selected to be a part of the Utah Science Technology Acceleration and Research (USTAR) Technology Acceleration Program (TAP). This program assists newly established science and technology-...

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Abel from OxEon Energy Installing Reformer


The KOBELCO Project was OxEon Energy’s first large commercial project. OxEon engineers designed, manufactured, and supplied Kobe Steel with 10 large scale plasma reformers operating in an oxidizing mode.

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NASA illustratrion of a manned mission to Mars

Redox Tolerant Cathode SOECs SBIR - Phase 2

NASA has become increasingly interested in SOEC technology for experimental applications such as a manned mission to Mars. In order to limit the logistics of materials transport, automated production and...

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ISRU system concept for autonomous robotic excavation and processing of Mars soil to extract water for use in exploration missions.

Oxygen and Fuels from In-Situ Resources on Mars

The NASA NextSTEP program is a continuation and expansion of the work OxEon has completed in association with JPL and MIT for the Mars 2020 mission, Project MOXIE (Mars OXygen In-situ resource utilization...

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Ask an OxEon Expert how we can help with:

  • Ruggedized Hermetic SOEC Stacks Hydrogen/Oxygen/Syngas Production (SOEC)
  • SOFC Stacks for Power Generation (SOFC)
  • Systems Development Support
  • Supporting Technologies for Liquid Fuel Production (Fischer Tropsch or Plasma Reformer Technologies)