Boeing imagines future network of decentralised biofuel producers

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Mexico passed legislation to promote biofuels last week, offering unspecified support to farmers that grow crops for the production of any renewable fuel. Agriculture Minister Alberto Cardenas said Mexico could expand biodiesel faster than ethanol. More soon. Reuters - December 20, 2007.

Oxford Catalysts has placed an order worth approximately €700,000 (US$1 million) with the German company Amtec for the purchase of two Spider16 high throughput screening reactors. The first will be used to speed up the development of catalysts for hydrodesulphurisation (HDS). The second will be used to further the development of catalysts for use in gas to liquid (GTL) and Fischer-Tropsch processes which can be applied to next generation biofuels. AlphaGalileo - December 18, 2007.

According to the Instituto Brasileiro de Geografia e Estatística (IBGE), Brazil's production of sugarcane will increase from 514,1 million tonnes this season, to a record 561,8 million tonnes in the 2008/09 cyclus - an increase of 9.3%. New numbers are also out for the 2007 harvest in Brazil's main sugarcane growing region, the Central-South: a record 425 million tonnes compared to 372,7 million tonnes in 2006, or a 14% increase. The estimate was provided by Unica – the União da Indústria de Cana-de-Açúcar. Jornal Cana - December 16, 2007.

The University of East Anglia and the UK Met Office's Hadley Centre have today released preliminary global temperature figures for 2007, which show the top 11 warmest years all occurring in the last 13 years. The provisional global figure for 2007 using data from January to November, currently places the year as the seventh warmest on records dating back to 1850. The announcement comes as the Secretary-General of the World Meteorological Organization (WMO), Michel Jarraud, speaks at the Conference of the Parties (COP) in Bali. Eurekalert - December 13, 2007.

The Royal Society of Chemistry has announced it will launch a new journal in summer 2008, Energy & Environmental Science, which will distinctly address both energy and environmental issues. In recognition of the importance of research in this subject, and the need for knowledge transfer between scientists throughout the world, from launch the RSC will make issues of Energy & Environmental Science available free of charge to readers via its website, for the first 18 months of publication. This journal will highlight the important role that the chemical sciences have in solving the energy problems we are facing today. It will link all aspects of energy and the environment by publishing research relating to energy conversion and storage, alternative fuel technologies, and environmental science. AlphaGalileo - December 10, 2007.

Dutch researcher Bas Bougie has developed a laser system to investigate soot development in diesel engines. Small soot particles are not retained by a soot filter but are, however, more harmful than larger soot particles. Therefore, soot development needs to be tackled at the source. Laser Induced Incandescence is a technique that reveals exactly where soot is generated and can be used by project partners to develop cleaner diesel engines. Terry Meyer, an Iowa State University assistant professor of mechanical engineering, is using similar laser technology to develop advanced sensors capable of screening the combustion behavior and soot characteristics specifically of biofuels. Eurekalert - December 7, 2007.

Lithuania's first dedicated biofuel terminal has started operating in Klaipeda port. At the end of November 2007, the stevedoring company Vakaru krova (VK) started activities to manage transshipments. The infrastructure of the biodiesel complex allows for storage of up to 4000 cubic meters of products. During the first year, the terminal plans to transship about 70.000 tonnes of methyl ether, after that the capacities of the terminal would be increased. Investments to the project totaled €2.3 million. Agrimarket - December 5, 2007.

New Holland supports the use of B100 biodiesel in all equipment with New Holland-manufactured diesel engines, including electronic injection engines with common rail technology. Overall, nearly 80 percent of the tractor and equipment manufacturer's New Holland-branded products with diesel engines are now available to operate on B100 biodiesel. Tractor and equipment maker John Deere meanwhile clarified its position for customers that want to use biodiesel blends up to B20. Grainnet - December 5, 2007.

According to Wetlands International, an NGO, the Kyoto Protocol as it currently stands does not take into account possible emissions from palm oil grown on a particular type of land found in Indonesia and Malaysia, namely peatlands. Mongabay - December 5, 2007.

Malaysia's oil & gas giant Petronas considers entering the biofuels sector. Zamri Jusoh, senior manager of Petronas' petroleum development management unit told reporters "of course our focus is on oil and gas, but I think as we move into the future we cannot ignore the importance of biofuels." AFP - December 5, 2007.

In just four months, the use of biodiesel in the transport sector has substantially improved air quality in Metro Manila, data from the Philippines Department of Environment and Natural Resources (DENR) showed. A blend of one percent coco-biodiesel is mandated by the Biofuels Act of 2007 which took effect last May. By 2009, it would be increased to two percent. Philippine Star - December 4, 2007.

Kazakhstan will next year adopt laws to regulate its fledgling biofuel industry and plans to construct at least two more plants in the next 18 months to produce environmentally friendly fuel from crops, industry officials said. According to Akylbek Kurishbayev, vice-minister for agriculture, he Central Asian country has the potential to produce 300,000 tons a year of biodiesel and export half. Kazakhstan could also produce up to 1 billion liters of bioethanol, he said. "The potential is huge. If we use this potential wisely, we can become one of the world's top five producers of biofuels," Beisen Donenov, executive director of the Kazakhstan Biofuels Association, said on the sidelines of a grains forum. Reuters - November 30, 2007.

SRI Consulting released a report on chemicals from biomass. The analysis highlights six major contributing sources of green and renewable chemicals: increasing production of biofuels will yield increasing amounts of biofuels by-products; partial decomposition of certain biomass fractions can yield organic chemicals or feedstocks for the manufacture of various chemicals; forestry has been and will continue to be a source of pine chemicals; evolving fermentation technology and new substrates will also produce an increasing number of chemicals. Chemical Online - November 27, 2007.

German industrial conglomerate MAN AG plans to expand into renewable energies such as biofuels and solar power. Chief Executive Hakan Samuelsson said services unit Ferrostaal would lead the expansion. Reuters - November 24, 2007.

Analysts think Vancouver-based Ballard Power Systems, which pumped hundreds of millions and decades of research into developing hydrogen fuel cells for cars, is going to sell its automotive division. Experts describe the development as "the death of the hydrogen highway". The problems with H2 fuel cell cars are manifold: hydrogen is a mere energy carrier and its production requires a primary energy input; production is expensive, as would be storage and distribution; finally, scaling fuel cells and storage tanks down to fit in cars remains a huge challenge. Meanwhile, critics have said that the primary energy for hydrogen can better be used for electricity and electric vehicles. On a well-to-wheel basis, the cleanest and most efficient way to produce hydrogen is via biomass, so the news is a set-back for the biohydrogen community. But then again, biomass can be used more efficiently as electricity for battery cars. Canada.com - November 21, 2007.

South Korea plans to invest 20 billion won (€14.8/$21.8 million) by 2010 on securing technologies to develop synthetic fuels from biomass, coal and natural gas, as well as biobutanol. 29 private companies, research institutes and universities will join this first stage of the "next-generation clean energy development project" led by South Korea's Ministry of Commerce, Industry and Energy. Korea Times - November 19, 2007.

OPEC leaders began a summit today with Venezuelan President Hugo Chavez issuing a chilling warning that crude prices could double to US$200 from their already-record level if the United States attacked Iran or Venezuela. He urged assembled leaders from the OPEC, meeting for only the third time in the cartel's 47-year history, to club together for geopolitical reasons. But the cartel is split between an 'anti-US' block including Venezuela, Iran, and soon to return ex-member Ecuador, and a 'neutral' group comprising most Gulf States. France24 - November 17, 2007.

The article "Biofuels: What a Biopact between North and South could achieve" published in the scientific journal Energy Policy (Volume 35, Issue 7, 1 July 2007, Pages 3550-3570) ranks number 1 in the 'Top 25 hottest articles'. The article was written by professor John A. Mathews, Macquarie University (Sydney, Autralia), and presents a case for a win-win bioenergy relationship between the industrialised and the developing world. Mathews holds the Chair of Strategic Management at the university, and is a leading expert in the analysis of the evolution and emergence of disruptive technologies and their global strategic management. ScienceDirect - November 16, 2007.

Thursday, December 20, 2007

Boeing imagines future network of decentralised biofuel producers

Increasing air traffic is the ultimate symbol of the world's rapid globalisation. Large jets take thousands of people to the other side of the planet in a matter of hours, fill up their tanks at the airport and carry on to their next destination. Non-stop. One factor that has made this revolution possible is the availability of inexpensive, standardized jet-fuel, made from petroleum. The fuel is the same in Singapore and Boston, in Rio de Janeiro and in Brussels.

However, if it is up to Boeing, this will soon change. The aiframer imagines a world in which there are thousands of independent biofuel producers each making their own fuel from the most efficient local feedstocks and to a common global standard. Boeing's biofuel strategy has greatly expanded and is moving in this direction as the company prepares to select a specific biofuel source for two demonstration flights scheduled next year.

A series of laboratory tests completed by Boeing in the third quarter of this year confirmed that biofuels for large aircraft can be practically derived from far more feedstocks than previously believed, says Bill Glover, Boeing's director of environmental strategy. Glover wrote the report titled 'Alternate Fuels for use in Commercial Aircraft' [*.pdf] in which different biofuel production pathways for aviation fuels are explored. Boeing's lab tests showed that a variety of feedstocks can produce biofuels with kerosene-like freezing characteristics. Boeing also now believes a number of such biofuels can be affordably mass-produced for the aviation industry.

Distributed network
These findings have widened Boeing's vision for the future use of biofuel by airlines. Instead of a single, huge repository of biofuel feedstock to supply the world's airlines, Boeing envisions the growth of a distributed network with multiple feedstocks harvested for biofuel around the world, says Glover. The shift in strategy may have serious implications for the future of the energy industry. Glover likens the change to the way personal computers overtook mainframes about 20 years ago:

energy :: sustainability :: biomass :: bioenergy :: biofuels :: distributed :: decentralisation :: aviation :: jet fuel ::

Industrial energy production may shift from monolithic producers of petroleum to a distributed network of biofuel providers, each cultivating the feedstock most appropriate for its geography and climate, he says. Each biofuel type will be produced to meet the industry's current fuel standard, he adds. So an airliner fuelled by one feedstock type can be refuelled by another biofuel source.

Boeing believes its role will be to serve as a catalyst for a distributed biofuel production system that it sees emerging within the next five years. Unlike an airline, Boeing does not buy fuel in bulk, but it may be able to provide other means of financing and technical support.

The first step is to prove the feasibility of biofuel-powered commercial aircraft. Boeing has teamed with Virgin Atlantic to test a General Electric-powered 747 (more here) and with Air New Zealand to test a Rolls-Royce-powered 747 (earlier post).

The flight-test programme is likely to consist of a single flight and consume a total of about 3,800 litres (1,000 gallons) of biofuel, says Glover. The company is close to selecting a feedstock for the flight-test programme, but Glover emphasises that this biofuel type is for demonstration purposes only.

Research into bio-jet fuels has exploded over the past years, partly because airlines' profitability strongly depends on fuel costs and because bio-jet fuels promise to reduce emissions considerably. But biofuels for aviation present several challenges: they require high-performance characteristics, in particular the capacity to remain fluid at low temperatures and the need for smooth blending with petroleum based fuels. Gradually, biofuels are being designed that approach the required cold tolerance threshold.

Likely candidates are synthetic biofuels, obtained from gasifying biomass that is liquefied by Fischer-Tropsch synthesis ('biomass-to-liquids'). Such fuels can be refined into designer fuels with specific characteristics. Another potential fuel is 'green diesel' based on a hydrogenation process of vegetable oils.

Some recent initiatives in bio-jet fuel research include a large program by the French aerospace industry into second-generation (synthetic) biofuels and other candidates. The project, known as CALIN is being initiated by a conglomerate of research organisations consisting of France's aerospace research agency ONERA, propulsion company Snecma and members of the country's Aerospace Valley group which unites most of Europe's leading aerospace manufacturers, including EADS, Airbus, Air France Industries, Alstom and Dassault (earlier post).

Snecma recently succeeded in testing a CFM56-7B jet engine with an ester-based biofuel at a Snecma site in Villaroche. The engine is produced by a joint venture between Snecma, CFM International, and General Electric Company. The fuel used was a methylester derived from plant oil, mixed with 70% Jet-A1 kerosene. The successful test with the unmodified engine reduced carbon dioxide emissions by 20% (earlier post and here).

A large number of private initiatives are underway to develop biokerosene. Amongst them Diversified Energy which developed biofuels that withstand very cold temperatures and can be used in aviation. Their process consists of freeing up the free fatty acids contained in triglycerides from glycerol and passing them through a catalyst after which a resulting gas is synthesized into a liquid (earlier post)

UOP, a Honeywell company, has accelerated research and development on renewable energy technology to convert vegetable oils to military jet fuels. UOP developed a technique based on hydroprocessing that may yield fuels that meet the stringent requirements (more here).

The University of North Dakota recently received a US$5 million grant to develop military bio-jet fuels (earlier post). Whereas North Carolina State University found an innovative technology for the production of biofuels for jet aircraft based on transforming glycerol, the major byproduct of biodiesel (earlier post).

Obviously, several armies are looking into biofuels for aviation as well. A study for the US Military, written by Sasol, concluded that synthetic biofuels (Fischer-Tropsch) can power the entire military - including its airforce - in case of severe oil supply disruptions (earlier post). Finally, the U.S. Air Force has been experimenting extensively with synthetic fuels, which can be made from biomass. It already ground-tested them in real engines (earlier post).

Brazil's state-owned Petrobras announced it plans to introduce a type of bio-jet fuel named 'Bio QAV' in 120 of the country's airports, with concrete trials to begin in 2008. 'Bio QAV' ('Biokerosene for Aviation') is based on the H-bio second-generation biodiesel production process, which relies on hydrotreating vegetable oils (more here).

And most recently, the US Airforce made the first ever transcontinental flight of a C-17 on synthetic fuels, which can be made from biomass (previous post).

References:
FlightGlobal: Boeing expands biofuel strategy - December 20, 2007.

David L. Daggett, Robert C. Hendricks, Rainer Walther, Edwin Corporan, "Alternate Fuels for use in Commercial Aircraft" [*.pdf], Boeing, 2007.

Biopact: Virgin Atlantic to test biofuel in 747 in early 2008 - October 16, 2007

Biopact: Boeing, Air New Zealand and Rolls-Royce to conduct biofuel flight demonstration - September 28, 2007

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