DuPont and BP targeting multiple bio-butanol molecules; biofuel allows for higher blending ratios
DuPont and BP have announced that their partnership to develop and commercialize biobutanol (previous post and here) is targeting advanced metabolic pathways for 1-butanol as well as other higher octane biobutanol isomers. The companies also announced vehicle testing results demonstrating these advanced biofuels can increase the blending of biofuels in gasoline beyond the current 10 percent limit for ethanol without compromising performance. Furthermore, a full environmental lifecycle analysis of the targeted biobutanol production process has been commissioned.
Speaking at the Agra Informa Next Generation Biofuels conference in Hamburg, Germany, DuPont Biofuels Venture Manager David Anton and BP Biofuels Business Technology Manager Ian Dobson disclosed that the partnership has been developing biocatalysts to produce 1-butanol as well as 2-butanol and iso-butanol – higher octane biobutanol isomers that are of increased interest and utility from a fuels perspective.
Fuel testing conducted over the last 12 months by BP demonstrates that high octane biobutanol can deliver the exceptional performance characteristics (table, click to enlarge) the partnership has previously communicated (including improved energy density/fuel economy compared to current biofuel blends and use in existing fuels infrastructure) at fuel blends greater than the current 10 percent ethanol blend limit.
energy :: sustainability :: biomass :: bioenergy :: biofuels :: ethanol :: fuel blending :: lifecycle analysis :: biobutanol :: biocatalysts :: bioconversion ::
DuPont disclosed that those patents cover the higher octane isomers as well as the previously announced 1-butanol. According to Anton, this places the BP/DuPont partnership in a strong intellectual property position in the butanol areas of greatest interest.
Vehicle testing
Ian Dobson shared new BP engine and vehicle testing data that demonstrated high octane biobutanol at concentrations of 16 percent delivers similar fuel performance compared to current 10 percent ethanol blend gasoline fuels which importantly means that butanol can help achieve higher biofuel penetration without compromising fuel performance. BP has completed a testing program of 16 percent high octane butanol covering fuel formulation, short-term engine performance impacts and long-term, no harm and durability vehicle fleet trials.
Laboratory and vehicle assessment of butanol blends greater than 16 percent also have produced favorable test results. The results show that 16 percent high octane butanol blends have the added advantages of vapor pressure behavior and distillation curves comparable to regular gasoline and, unlike 10 percent ethanol, do not phase separate in the presence of water.
DuPont and BP have commissioned a full environmental life cycle analysis of the proposed biobutanol process that will utilize actual manufacturing design models to guide the process design.
On the basis of the vehicle test results they are now sharing, they believe that high octane butanol offers a way to break through the 10 percent constraint with ethanol in the current vehicle fleet, said Dobson.
References:
Dupont: DuPont and BP Disclose Advanced Biofuels Partnership Targeting Multiple Butanol Molecules - February 14, 2008.
Biopact: DuPont outlines commercialisation strategies for biobutanol, cellulosic ethanol - February 22, 2007
Biopact: Fuel testing shows biobutanol performance similar to unleaded gasoline - April 20, 2007
Biopact: ABF, BP and DuPont in joint venture to build $400 million bioethanol, biobutanol plants in the UK - June 26, 2007
Speaking at the Agra Informa Next Generation Biofuels conference in Hamburg, Germany, DuPont Biofuels Venture Manager David Anton and BP Biofuels Business Technology Manager Ian Dobson disclosed that the partnership has been developing biocatalysts to produce 1-butanol as well as 2-butanol and iso-butanol – higher octane biobutanol isomers that are of increased interest and utility from a fuels perspective.
Fuel testing conducted over the last 12 months by BP demonstrates that high octane biobutanol can deliver the exceptional performance characteristics (table, click to enlarge) the partnership has previously communicated (including improved energy density/fuel economy compared to current biofuel blends and use in existing fuels infrastructure) at fuel blends greater than the current 10 percent ethanol blend limit.
DuPont and BP were the first players in the area of advanced biofuels to announce our intent to not only improve the bio-process to produce commercial volumes of biobutanol, but also to pursue an integrated commercialization strategy that incorporates building pilot and commercial scale facilities, a complete fuel evaluation, and a full environmental life cycle analysis. - David Anton, DuPont Biofuels Venture ManagerUnder the partnership, there currently are more than 60 patent applications in the areas of biology, fermentation processing, chemistry and end uses for biobutanol. The program is designed to deliver by 2010 a superior biobutanol manufacturing process with economics equivalent to ethanol:
energy :: sustainability :: biomass :: bioenergy :: biofuels :: ethanol :: fuel blending :: lifecycle analysis :: biobutanol :: biocatalysts :: bioconversion ::
DuPont disclosed that those patents cover the higher octane isomers as well as the previously announced 1-butanol. According to Anton, this places the BP/DuPont partnership in a strong intellectual property position in the butanol areas of greatest interest.
Vehicle testing
Ian Dobson shared new BP engine and vehicle testing data that demonstrated high octane biobutanol at concentrations of 16 percent delivers similar fuel performance compared to current 10 percent ethanol blend gasoline fuels which importantly means that butanol can help achieve higher biofuel penetration without compromising fuel performance. BP has completed a testing program of 16 percent high octane butanol covering fuel formulation, short-term engine performance impacts and long-term, no harm and durability vehicle fleet trials.
Laboratory and vehicle assessment of butanol blends greater than 16 percent also have produced favorable test results. The results show that 16 percent high octane butanol blends have the added advantages of vapor pressure behavior and distillation curves comparable to regular gasoline and, unlike 10 percent ethanol, do not phase separate in the presence of water.
DuPont and BP have commissioned a full environmental life cycle analysis of the proposed biobutanol process that will utilize actual manufacturing design models to guide the process design.
On the basis of the vehicle test results they are now sharing, they believe that high octane butanol offers a way to break through the 10 percent constraint with ethanol in the current vehicle fleet, said Dobson.
References:
Dupont: DuPont and BP Disclose Advanced Biofuels Partnership Targeting Multiple Butanol Molecules - February 14, 2008.
Biopact: DuPont outlines commercialisation strategies for biobutanol, cellulosic ethanol - February 22, 2007
Biopact: Fuel testing shows biobutanol performance similar to unleaded gasoline - April 20, 2007
Biopact: ABF, BP and DuPont in joint venture to build $400 million bioethanol, biobutanol plants in the UK - June 26, 2007
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