Planemaker Boeing says biofuels show promise
Sugarcane and switchgrass are unlikely to fuel the next plane you ride, but Boeing says development of biofuels is gaining momentum as airlines and armed forces seek alternatives to expensive jet fuel. British billionaire Richard Branson, who earlier announced he wants to see his entire airline fleet to use green fuels by 2020, last week committed US$3 billion to help develop alternatives to fossil fuels, whose rising prices have been squeezing airlines. Nasa and Boeing are working together with Brazilian company Tecbio to develop biokerosene in a project that promises to bring vast job opportunities to small farmers (earlier post), and Argentina's air-force has carried out successful tests of biofuels in a large aircraft (earlier post).
"Fuel is the biggest four-letter word in the industry," Billy Glover, director of environmental performance strategy at Boeing Commercial Airplanes, says. "Fuel efficiency is an economic issue, but it's also an environmental one," adds Glover, whose job involves looking at how Boeing can build planes that fly cleaner and quieter. That means using less kerosene-based JP-8 fuel and looking at alternatives.
"There are a number of feedstocks out there," Glover said, citing sugarcane, switchgrass, soybeans and algae. "Those are being looked at, and there appears to be some promise":
ethanol :: biodiesel :: biomass :: biofuels :: sustainability :: aviation ::biokerosene :: biojet :: climate change
The U.S. Air Force flew a B-52 bomber recently with two of its eight engines using a 50/50 blend of jet fuel and a synthetic alternative. The test flight reflected growing calls for fuel alternatives for military use, a process likely to feed civil applications as well.
The U.S. Department of Defense's technology development arm, the Defense Advanced Research Projects Agency (DARPA), in July asked for proposals on biofuel development. It hopes to find a way to convert crop oil into a synthetic jet fuel that will achieve at least a 60 percent conversion efficiency by energy content and eventually a rate of 90 percent.
Glover said challenges posed by biofuels include the fact they are less stable when stored for long periods and freeze at a much higher temperature than jet fuel. There's also infrastructure to be considered, with more than 10,000 airliners in operation all using engines designed for jet fuel.
"Jet fuel has sulphur in it, and this causes seals to swell, which is good. With biofuels without sulphur, you risk leaks. South Africa already uses a 50/50 blend of jet fuel and coal-derived synthetic fuel, but Glover said this had its limits.
"It's not environmentally friendly at this stage," he said, citing the fuel's higher output of carbon dioxide emissions in production. "What we're flushing out right now is 'What is viable?'," Glover said. "For now biofuels make more sense for land transport than air, but our job is to go find out."
Boeing's next airliner, the 787 due in 2008, is expected to use 20 percent less fuel and be 60 percent quieter than the 767 model it replaces. Its higher use of composites is expected to make the planes last longer as well.
More info:
Dagget, Dave, Alternate Fuelled Aircraft, presented to Boeing’s Transportation Research Board, 23 january 2006 [*.pdf].
The Potential for Renewable Energy Sources in Aviation [*.pdf]. Looks at the feasibility of nuclear aircraft (not safe), methanol and ethanol (too low energy density), bio-methane (low volumes and limited available quantity). Retained options: liquefied H2, synthetic kerosene (including Biomass-to-Liquids) and biokerosene (from oil crops).
"Fuel is the biggest four-letter word in the industry," Billy Glover, director of environmental performance strategy at Boeing Commercial Airplanes, says. "Fuel efficiency is an economic issue, but it's also an environmental one," adds Glover, whose job involves looking at how Boeing can build planes that fly cleaner and quieter. That means using less kerosene-based JP-8 fuel and looking at alternatives.
"There are a number of feedstocks out there," Glover said, citing sugarcane, switchgrass, soybeans and algae. "Those are being looked at, and there appears to be some promise":
ethanol :: biodiesel :: biomass :: biofuels :: sustainability :: aviation ::biokerosene :: biojet :: climate change
The U.S. Air Force flew a B-52 bomber recently with two of its eight engines using a 50/50 blend of jet fuel and a synthetic alternative. The test flight reflected growing calls for fuel alternatives for military use, a process likely to feed civil applications as well.
The U.S. Department of Defense's technology development arm, the Defense Advanced Research Projects Agency (DARPA), in July asked for proposals on biofuel development. It hopes to find a way to convert crop oil into a synthetic jet fuel that will achieve at least a 60 percent conversion efficiency by energy content and eventually a rate of 90 percent.
Glover said challenges posed by biofuels include the fact they are less stable when stored for long periods and freeze at a much higher temperature than jet fuel. There's also infrastructure to be considered, with more than 10,000 airliners in operation all using engines designed for jet fuel.
"Jet fuel has sulphur in it, and this causes seals to swell, which is good. With biofuels without sulphur, you risk leaks. South Africa already uses a 50/50 blend of jet fuel and coal-derived synthetic fuel, but Glover said this had its limits.
"It's not environmentally friendly at this stage," he said, citing the fuel's higher output of carbon dioxide emissions in production. "What we're flushing out right now is 'What is viable?'," Glover said. "For now biofuels make more sense for land transport than air, but our job is to go find out."
Boeing's next airliner, the 787 due in 2008, is expected to use 20 percent less fuel and be 60 percent quieter than the 767 model it replaces. Its higher use of composites is expected to make the planes last longer as well.
More info:
Dagget, Dave, Alternate Fuelled Aircraft, presented to Boeing’s Transportation Research Board, 23 january 2006 [*.pdf].
The Potential for Renewable Energy Sources in Aviation [*.pdf]. Looks at the feasibility of nuclear aircraft (not safe), methanol and ethanol (too low energy density), bio-methane (low volumes and limited available quantity). Retained options: liquefied H2, synthetic kerosene (including Biomass-to-Liquids) and biokerosene (from oil crops).
1 Comments:
An extremely interesting article about kerosene in aircraft. The target for 2020 is too far ahead. We have the designs and prototype for a unique processing plant that will produce biokereosene with 100% conversion of raw plant oil into aircraft fuel. We are currentyly in talks wioth several investors to build a plant. We are expecting to be operational in 2 years from start. Visit bioenerg.co.uk for more information
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