SBIR-STTR Award

One Step Catalytic Synthesis of Higher Alcohols
Award last edited on: 5/14/2015

Sponsored Program
SBIR
Awarding Agency
NSF
Total Award Amount
$150,000
Award Phase
1
Solicitation Topic Code
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Principal Investigator
Brian C Vicente

Company Information

Greenyug LLC

861 Ward Drive
Santa Barbara, CA 93111
   (805) 696-6660
   info@greenyug.com
   www.greenyug.com
Location: Single
Congr. District: 24
County: Santa Barbara

Phase I

Contract Number: ----------
Start Date: ----    Completed: ----
Phase I year
2014
Phase I Amount
$150,000
The broader impact/commercial potential of this project will lead to the development of a new technology for a higher alcohols production process that will provide a cost competitive method for producing C6-C13 alcohols (with 6 to 13 carbons) from a renewable feedstock. C6-C13 linear and branched alcohols are used in a variety of applications such as solvents, cosmetics, plasticizers, and surfactants, with a current global demand in excess of 5 million tons per year. It is expected that the process for producing these alcohols will provide at least 30% reduction in capital cost, energy consumption, waste produced and thereby has potential to replace the process by which higher alcohols are currently produced. A major benefit of this new process is substitution of petroleum based non-renewable feedstock with inexpensive, abundant, domestically sourced ethanol. This process will also allow ethanol producers to convert ethanol ($0.4/pound) to a higher value product, plasticizer alcohols, which are priced at $0.95 - $1.2/lb. Utilizing ethanol as a feedstock to make high value chemicals can enable the US ethanol industry to find other markets for ethanol that will supplement the current gasoline additive market and help new cellulosic ethanol technologies gain market access even as the blend wall is reached. This Small Business Innovation Research Phase I project will enable the development of a one- step catalytic process for making higher alcohols that are currently produced via complicated, multi-step processes employing precious metal-based catalysts and petroleum derived feedstock. The focus of Phase I work will be on developing and characterizing novel catalysts, optimizing reaction conditions and understanding the reaction mechanism and kinetics. The proposed one-step process requires a dual-function catalyst that must both act as an alcohol/aldehyde dehydrogenation/hydrogenation catalyst and an aldol condensation catalyst, and identifying a suitable catalyst will be the major hurdle for project success. If successful, catalyst(s) will be developed that can convert bio/renewable ethanol (more than 20%) into plasticizer alcohols with 6 to 13 carbons (greater than 45% selectivity) in a single-pass fixed-bed reactor with no change in performance for at least 500 hours of operation. The current best catalysts can achieve the required ethanol conversion, but selectivity to heavier alcohols remains well below target. Development of catalysts that can meet the selectivity requirement would represent a major advancement in the development of this technology.

Phase II

Contract Number: ----------
Start Date: ----    Completed: ----
Phase II year
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Phase II Amount
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