May 30, 08
Sapphire Energy Unveils 91 Octane Green Gasoline From Algae

Sapphire Energy Has announced that they have produced renewable 91 octane gasoline that conforms to ASTM certification, made from a breakthrough process that produces crude oil directly from sunlight, CO2 and photosynthetic microorganisms, beginning with algae.

“Sapphire’s goal is to be the world’s leading producer of renewable petrochemical products,” said CEO and co-founder Jason Pyle, speaking from the influential Simmons Alternative Energy Conference. “Our goal is to produce a renewable fuel without the downsides of current biofuel approaches.

“Sapphire Energy was founded on the belief that the only way to cure our dependence on foreign oil and end our flirtation with ethanol and biodiesel is through radical new thinking and a commitment to new technologies.”

The end result — high-value hydrocarbons chemically identical to those in gasoline — will be entirely compatible with the current energy infrastructure from cars to refineries and pipelines.

Not biodiesel, not ethanol. And no crops or farm land required.

The Sapphire platform offers vast advantages – scientific, economic and social – over traditional biofuel approaches.

Company scientists have built a platform that uses sunlight, CO2, photosynthetic microorganisms and non-arable land to produce carbon-neutral alternatives to petrochemical-based processes and products. First up: renewable gasoline. Critically important, in light of recent studies that prove the inefficiencies and costs of crop-based biofuels, there is no ‘food vs. fuel’ tradeoff. The process is not dependent on food crops or valuable farmland, and is highly water efficient. “It’s hard not to get excited about algae’s potential,” said Paul Dickerson, chief operating officer of the Department of Energy’s Office of Energy Efficiency and Renewable Energy “Its basic requirements are few: CO2, sun, and water. Algae can flourish in non-arable land or in dirty water, and when it does flourish, its potential oil yield per acre is unmatched by any other terrestrial feedstock.”

Scalability key to success

Sapphire’s scalable production facilities can grow easily and economically because production is modular, transportable, and fueled by sunlight – not constrained by land, crops, or other natural resources.

“Any company or fuel that hopes to solve the biofuel conundrum must be economically scalable – and that requires conforming to the existing refining distribution and fleet infrastructure,” said Brian Goodall, Sapphire’s new vice president of downstream technology. Goodall led the team responsible for the highly visible, first-ever Virgin Atlantic “green” 747 flight earlier this year. In addition to a three-decade career in the petrochemical industry, he is a corporate inductee at the National Inventors Hall of Fame.

Domestic production a matter of national security, economic growth

A new domestic energy platform based on sunlight and CO2 has the economic potential to herald a tectonic market shift as well as make the country more secure. Last year, the nation imported over $200 billion of foreign oil, and, with oil prices reaching record heights every week, that number is expected to increase dramatically. Protecting these strategic overseas interests is an increasingly expensive proposition.

“It is imperative, both economically and for national security reasons, that American companies figure out ways to produce oil here at home,” said Sapphire co-founder Kristina Burow of ARCH Venture Partners, the company’s founding investor. “Imagine if even a portion of the $200 billion we spend on foreign crude stayed here: The payoff in new jobs, and domestic economic growth would be huge.”

Developments require new industrial category: Green Crude Production

In fact, Sapphire’s processes and science are so radical, the company is at the forefront of an entirely new industrial category called ‘Green Crude Production.’ Products and processes in this category differ significantly from other forms of biofuel because they are made solely from photosynthetic microorganisms, sunlight and CO2; do not result in biodiesel or ethanol; enhance and replace petroleum-based products; are carbon neutral and renewable; and don’t require any food crop or agricultural land.

The final products meet ASTM standards and are completely compatible with the existing petroleum infrastructure, from refinement through distribution and the retail supply chain.