Technology
Unique bio-processing technology
SunEthanol's bio-processing technology is based upon a remarkable proprietary microbial "catalyst" that is uniquely capable of efficiently converting a wide range of cellulosic biomass directly to ethanol. By simplifying and consolidating the costliest aspects of current biomass-to-ethanol technology, SunEthanol can reduce both process and plant capital costs, making large-scale ethanol production from cellulosic biomass cost-effective.
A more economical process
Converting cellulose to ethanol is currently a complex, multi-step process. Cellulosic biomass - plant matter - is an abundant, low-cost source of stored energy. However, unlocking that embodied energy has presented a challenge. Cellulosic biomass is composed of highly ordered sugar polymers, which are shielded from enzyme attack by a matrix of other complex polymers. This makes biomass very difficult to break down into its constituent sugars, in order to ferment these sugars into ethanol.
Typically, cellulosic biomass must go through an intensive pretreatment step, after which enzymes are used to break down the biomass into simple sugars suitable for fermentation by yeast into ethanol. Enzymes, along with the intensive pretreatment required for their use, are the largest single cost component of cellulosic ethanol production. SunEthanol's technology eliminates the need for a separate enzymatic conversion step, and broadens pretreatment options.
Other potential advantages:
SunEthanol's proprietary catalyst offers other potential advantages. It can process an unusually diverse range of biomass feedstocks. It is also able to ferment all fermentable components of biomass (both C5 and C6 sugars, as well as other saccharides and polysaccharides), and ethanol is its primary product.
Strong industry partnerships
SunEthanol is currently partnering with leading industry and R&D partners to develop and implement this technology platform.
See our Frequently Asked Questions for more on our technology, organization and other information
SunEthanol's Q Microbe™ technology is based on a novel microorganism first discovered by Dr. Susan Leschine, a microbiologist at the University of Massachusetts, Amherst. Q Microbe™ converts a wide array of cellulosic material (biomass) from plant and organic matter directly into ethanol.
