Reports and Studies

Algenol Takes One Ton of CO2, Gives Back 144 Gallons of Fuel

Algenol Biofuels cultivates algae to make fuel, using only CO2, sunlight, saltwater and a few nutrients in the company’s proprietary photobioreactors. With one ton of CO2 Algenol can produce 144 gallons of four different fuels:

  • 125 gallons of ethanol
  • 8 gallons of diesel
  • 6 gallons of gasoline
  • 5 gallons of jet fuel

By making fuels from CO2 that would have otherwise been sent into the atmosphere, Algenol have a large impact on the overall carbon footprint of our economy.

A peer reviewed analysis of Algenol’s technology found reductions of up to 87 percent in the carbon footprint for their ethanol fuel on a energy equivalent basis when compared to gasoline. That’s an enormous improvement over the fossil fuels we use today, and one that we should absolutely pursue if we want to be serious about cutting greenhouse gas emission.

Algenol is looking to quickly expand into commercial production, and wants to partner with power producers and other industrial sources for waste carbon dioxide.

Regulations that support this kind of carbon recycling would provide states and sources of private capital with the confidence to invest in highly promising CO2 solutions like this, while helping to create a market for CO2 that reduces the cost of complying with greenhouse gas reduction targets.

Check out Algenol’s CEO Paul Woods describe the impact that using waste CO2 to create fuels could have on our economy and efforts to reduce greenhouse gas emissions.


Analysis Shows Algae-Based Fuels Significantly Reduce CO2 Emissions

Algae-derived biofuel can reduce life cycle CO2emissions by 50 to 70 percent compared to petroleum fuels, and is approaching a similar Energy Return on Investment (EROI) as conventional petroleum according to a new peer-reviewed paper published in Bioresource Technology. The study, which is the first to analyze real-world data from an existing algae-to-energy demonstration scale farm, shows that the environmental and energy benefits of algae biofuel are at least on par, and likely better, than first generation biofuels.

The study, “Pilot-scale data provide enhanced estimates of the life cycle energy and emissions profile of algae biofuels produced via hydrothermal liquefaction (HTL),” is a life cycle analysis of an algae cultivation and fuel production process currently employed at pre-commercial scales. The authors examined field data from two facilities operated by Sapphire Energy in Las Cruces and Columbus, New Mexico that grow and process algae into Green Crude oil. Sapphire Energy’s Green Crude can be refined into drop-in fuels such as gasoline, diesel and jet fuel.

The study concluded that algae technologies at commercial scale are projected to produce biofuels with lower greenhouse gas emissions and EROI values that are comparable to first generation biofuels. Additionally, algae based biofuels produced through this pathway at commercial scale will have a significant energy return on investment (EROI), close to petroleum and three times higher than cellulosic ethanol. The system that was evaluated recycles nutrients, can accept an algae feed that is up to 90 percent water in the processing phase, and the final product can be blended with refinery intermediates for refining into finished gasoline or diesel product, resulting in significant energy savings throughout the process.

Check out this video of Sapphire in action: