We control energy density to transform matter. From advanced Gas-to-Liquid conversion to critical environmental solutions.
We utilize high-energy electron beams to initiate chemical reactions, replacing intense heat and pressure with precise energy distribution.
Unlike thermal processes that require reforming, electron beams directly activate methane (CH4) for immediate conversion.
By tuning cooling rates and beam density, we control the reaction path to favor specific outputs like Diesel or JET-A fuel.
Requires 700-1100°C heat and massive pressure (up to 1450 PSI). High capital costs and catalyst fouling issues.
Operates via "cold plasma." Instant start/stop capability. Highly scalable from lab units to industrial 250KW sources.
Liquid energy is significantly more valuable than gas. Our technology allows producers to bypass pipelines and access global liquid fuel markets directly.
Estimate potential barrel production based on system power and process efficiency.
*Efficiency depends on feedstock purity and desired output fraction (e.g., Diesel vs. Gasoline cuts).
Note: Figures based on Diesel formation energy models. Actual results may vary pending calibration.
Contact our engineering team to discuss system deployment and specifications.