renewable energy

Here is a cool bit of news this morning; Boeing is working with Embraer and the Inter-American Development Bank to study the production of renewable jet fuel made from Brazilian sugarcane. Even sweeter is that this jet fuel is produced by one of our customers, Amyris! According to Amyris CEO John Melo the goal here is to, “help us replace fossil fuels with a renewable jet fuel that surpasses both technical and sustainability criteria.”

The study is being directed by ICONE, a non-profit Brazilian research organization, and the World Wildlife Fund is acting as an independent reviewer and advisor. Sounds like it's a dedicated coalition of minds working on this issue. We’re thrilled that we can indirectly support this kind of innovation and will look forward to seeing the results in early 2012.

You can learn more about this announcement by reading the original press release here.

Biogas, a form of renewable energy this is produced through, among other things, animal and human waste (hey, it’s not like you were using it) is one of several developing energy sources whose proponents are exploring membrane separation techniques to improve their purification process. A recent study published in the “Applied Chemistry – A Journal of the Society of German Chemists” experimented with a new method of membrane separation called the “condensing-liquid membrane” (or CLM) in an effort to enrich raw biogas, which typically contains between 50-80% methane, to natural gas quality (at least 95% methane content), with favorable results.

Common membrane materials like Cellulose Acetate and Polyimide have been tried for this application with some success, but the problem is that they can be ruined by the aggressive gases that are present in raw biogas, such as carbon dioxide and hydrogen sulfide. The CLM is a liquid (water in this case) layer that condenses on a porous hydrophilic membrane which then gets regenerated to allow for continuous operation. This support, made from Teflon, gathers water vapor from the biogas on the feed side of the membrane and is partially removed from the permeate side by nitrogen gas, thus allowing for separation to occur in one step as the water is constantly refreshed. One of the more brilliant aspects of the CLM method is that the presence of water in biogas, usually regarded as a disadvantage, suddenly becomes a key component in the process.

Since the membranes are being preserved and not destroyed, the potential exists for this process to be a cost-efficient method of purifying biogas in the future. Researchers will continue to investigate the CLM method in order to find the optimal conditions that will make it even more efficient.

Visit here to read the full report “Effective Purification of Biogas by a Condensing-Liquid Membrane.”

To learn more about biogas, try this site from Alternative Fuels and Advanced Vehicles Data Center and the U.S. Dept. of Energy.

How does a biogas plant work? Watch this animated video to get an idea.