Ogilvie says that while fuels production from algae may ultimately prove viable, right now the focus on higher-margin biochemicals provides a more sustainable economic base for the business. As an example, propyl-propionate, one of BME’s specialty chemicals, currently sells for some $816 per gallon.

When you look at what’s happening in the biofuels space, I think one of the failures of generation one was focusing on low-margin commodities. The future, I think, is going to be an integrated biorefinery, with products up and down the value spectrum—chemicals all the way to fuels, and that’s the way it makes sense... The focus on fuels without the chemicals is missing the point, and missing the model that has worked for over 200 years, and that’s the oil companies.

—Kelly Ogilvie, speaking at the Algae Biomass Summit

BME utilizes natural strains of bacteria, avoiding for the moment the cost barriers of genetic engineering as well as the longer pathways to commercialization. BME plans to scale from a 1 ton per day demo facility in Seattle, Washington, to a 33 ton per day (1,000 ton per month) pilot facility in Odessa, WA. Currently, BME can produce ethyl-butyrate for about $0.02/gram ($20/kg) at its demo facility, according to Ogilvie.

In July, BME closed a series A financing round, with the lead investor, Rajiv Shah, joining the board.

Bionavitas, based in Redmond, Washington, has developed Light Immersion Technology that enables the rapid production of algae for environmental remediation, manufacturing health and nutraceutical products, and producing biofuels.

Light Immersion Technology can be used to grow algae to remediate selenium, zinc, lead, cadmium, boron, mercury, and other undesirable elements and compounds from industrial waste streams. Blue Marble can then process the generated algae biomass into specialty biochemicals.