Carbon Is Too Profitable To Burn

Carbon is captured and transformed into an economic asset (carbon fiber) for manufacturing.

Carbon Is Too Profitable To Burn

Carbon is captured and transformed into an economic asset (carbon fiber) for manufacturing.

McAlister’s hydrogen-carbon production process provides an exponential multiplier of economic and environmental values. As a result, this new technology enables sustainable co-production of low-cost hydrogen and durable carbon.

The carbon can reinforce equipment to convert solar, wind, moving water and geothermal energy into far more electricity, hydrogen and heat compared to burning such carbon one time. Carbon is prevented from forming harmful pollutants by becoming a sustainable energy conversion economic asset.

Thus for every $1.00 of pipeline delivered methane we can enable profitable production of hydrogen and durable carbon resulting in gross income of $8.00 or more.

Hydrogen has long been recognized as a vitally important resource for clean energy. What has not been recognized is the economic opportunity presented by “waste” carbon. Solving mass-scale production of hydrogen from hydro-carbon feedstock requires accounting for both components: hydrogen and carbon.

McAlister’s hydrogen-carbon production process provides an exponential multiplier of economic and environmental values. As a result, this new technology enables sustainable co-production of low-cost hydrogen and durable carbon.

The carbon can reinforce equipment to convert solar, wind, moving water, and geothermal energy into far more electricity, hydrogen, and heat compared to burning such carbon one time. Carbon is prevented from forming harmful pollutants by becoming a sustainable energy conversion economic asset.

Thus less than $1.00 for pipeline delivered methane can enable profitable production of hydrogen and durable carbon for gross income of $8.00 or more.

Hydrogen has long been recognized as a vitally important resource for clean energy. What has not been recognized is the economic opportunity presented by “waste” carbon. Solving mass-scale production of hydrogen from hydro-carbon feedstock requires accounting for both components: hydrogen and carbon.

Hydro-Carbon Splitter ®

The patented McAlister HydroCarbon Splitter is a revolutionary technology that uses anaerobic thermal dissociation of organic substances such as Natural Gas CH4 and Renewable Methane to separate hydrogen and carbon.

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VelPro ® Carbon Products

With our patented CHP process carbon is separated from hydrogen during the fuel production process and transformed into an economic asset as durable carbon allotropes such as graphene, nanotubes, and fiber for manufacturing.

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