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Compost heap bacteria could provide 10 percent of UK transport fuel needs
September 09, 2008Bacteria found in compost heaps able to convert waste plant fibre into ethanol could eventually provide up 10% of the UK's transport fuel needs, scientists heard today (Tuesday 9 September 2008) at the Society for General Microbiology's Autumn meeting being held this week at Trinity College, Dublin.
Researchers from Guildford, UK, have successfully developed a new strain of bacteria that can break down straw and agricultural plant waste, domestic hedge clippings, garden trimmings and cardboard, wood chippings and other municipal rubbish to convert them all into useful renewable fuels for the transport industry.
"The bioethanol produced in our process can be blended with existing gasoline to reduce overall greenhouse gas emissions, help tackle global warming, reduce dependence upon foreign oil and help meet national and international targets for renewable energy," said Paul Milner, Fermentation Development Manager of TMO Renewables Ltd, based in Surrey Research Park, Guildford.
The new strain of bacteria allows ethanol to be produced much more efficiently and cheaply than in traditional yeast-based fermentation, which is based on the beer-brewing process and forms the basis for most current commercial bioethanol production.
"Conventional ethanol production is energy-intensive, expensive, and time-consuming as the barley malt or other material being brewed needs to be heated up as a mash in feedstock pre-treatment. Then it is significantly cooled from that high temperature to a lower temperature for yeast fermentation, only to be re-heated when it is later distilled into ethanol. Our process is much more energy-efficient." said Paul Milner.
TMO's microbiologists screened thousands of different wild types of bacteria, looking for one that could survive high temperatures and that liked feeding off a wide variety of plant based materials.
"We found some heat-loving bacteria in a compost heap, from the Geobacillus family, which in their wild form produce lactic acid as a by-product of sugar synthesis when they break down biomass," said Paul Milner. "We altered their internal metabolism, adapting them to produce substantial amounts of ethanol instead".
"Our new microorganism, called TM242, can efficiently convert the longer-chain sugars from woody biomass materials into ethanol. This thermophilic bacterium operates at high temperatures of 60oC-70oC and digests a wide range of feedstocks very rapidly," said Paul Milner.
The scientists estimate that some 7 million tons of surplus straw is available in the UK every year. Turning it into ethanol could replace 10% of the gasoline fuel used in this country. "As our process uses agricultural waste materials such as straw, wood, paper and plants and other cellulosic fibre from domestic and municipal waste, it provides significantly greater environmental and economic benefits than crop-derived biofuels which some believe have contributed to the increased prices of basic food in so many countries," said Paul Milner.
"We have recently completed commissioning the UK's first cellulosic ethanol demonstration facility - one of just a handful worldwide," said Paul Milner. "We are constantly researching new, better ways to produce biofuels. We also believe that our process can be used successfully beyond biofuels to produce other high-value chemicals and drug ingredients that are currently derived from oil."
Society for General Microbiology
The new strain of bacteria allows ethanol to be produced much more efficiently and cheaply than in traditional yeast-based fermentation, which is based on the beer-brewing process and forms the basis for most current commercial bioethanol production.
"Conventional ethanol production is energy-intensive, expensive, and time-consuming as the barley malt or other material being brewed needs to be heated up as a mash in feedstock pre-treatment. Then it is significantly cooled from that high temperature to a lower temperature for yeast fermentation, only to be re-heated when it is later distilled into ethanol. Our process is much more energy-efficient." said Paul Milner.
TMO's microbiologists screened thousands of different wild types of bacteria, looking for one that could survive high temperatures and that liked feeding off a wide variety of plant based materials.
"We found some heat-loving bacteria in a compost heap, from the Geobacillus family, which in their wild form produce lactic acid as a by-product of sugar synthesis when they break down biomass," said Paul Milner. "We altered their internal metabolism, adapting them to produce substantial amounts of ethanol instead".
"Our new microorganism, called TM242, can efficiently convert the longer-chain sugars from woody biomass materials into ethanol. This thermophilic bacterium operates at high temperatures of 60oC-70oC and digests a wide range of feedstocks very rapidly," said Paul Milner.
The scientists estimate that some 7 million tons of surplus straw is available in the UK every year. Turning it into ethanol could replace 10% of the gasoline fuel used in this country. "As our process uses agricultural waste materials such as straw, wood, paper and plants and other cellulosic fibre from domestic and municipal waste, it provides significantly greater environmental and economic benefits than crop-derived biofuels which some believe have contributed to the increased prices of basic food in so many countries," said Paul Milner.
"We have recently completed commissioning the UK's first cellulosic ethanol demonstration facility - one of just a handful worldwide," said Paul Milner. "We are constantly researching new, better ways to produce biofuels. We also believe that our process can be used successfully beyond biofuels to produce other high-value chemicals and drug ingredients that are currently derived from oil."
Society for General Microbiology
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More flexible method floated to produce biofuels, electricity
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What is the pathogenesis of liver damage induced by ethanol?
They investigated the effects of ethanol on the IGF-I system with the involvement of JNK1/2 activity and ADH by using each chemical inhibitor in primary cultured rat hepatocytes. The results indicate that ethanol inducedp-JNK1/2 activation is associated with the IGF-I system and cell viability in hepatocytes.
Discovering drugs, biofuels in tropical seas
The National Institutes of Health has awarded $4 million to a group of Philippine and American scientists led by Oregon Health & Science University to aid in the discovery of new molecules and biofuels technology from marine mollusks for development in the Philippines.
More research needed to make good on biofuel promise, experts say
While cellulosic biofuels derived from grasses, crop residues and inedible plant parts have real potential to be more efficient and environmentally friendly than grain-based biofuels like corn ethanol, more research and science-based policies are needed to reap these benefits, says an international group of experts.
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