Emerging Biofuels Projects....
Presented by:
The Consortium of Southern States Biofuels Producers and Growers
BioFuels Renewable Energy Project in the State of Georgia
An Overview of Sawgrass Potentials as a Renewable Resource
Presented By
Dr. Joseph A. Resnick, Professor Emeritus, Founding Director
The Consortium of Southern States Biofuels Producers and Growers
Introduction
Camelina sativa, Camelina is usually known in English as camelina, gold-of-pleasure, or false flax, also occasionally wild flax, linseed dodder, German sesame, and Siberian oilseed, is a flowering plant in the family, Brasssicaceae. Camelina is native to Northern Europe, Central Asia and has been introduced to North America, possibly as a weed occurring in flax fields.
Camelina needs little water or nitrogen to flourish, it can be grown on marginal agricultural lands and does not compete with food crops. Camelina is ideal for use as a rotational crop for wheat and increases overall health of the soil. It has been traditionally cultivated as an oil seed to produce vegetable oil and compound animal feed.
Archaeological evidence suggests that Camelina has been grown in Europe and parts of Asia for at least 3000 years. During the Bronze Age Camelina was grown and harvested for use of its oil and replaced olive oil as a staple in Central Europe, Greece and parts of Asia Minor.
Camelina contains exceptionally high levels of Omega-3 fatty acids (up to 45%) which is uncommon in most vegetable crops. Oil derived from Camelina is polyunsaturated, with major components being Alpha-linolenic acid (C18-3), Omega-6 fatty acid (C18-2) and other natural antioxidants, such as Tocopherol. Camelina also contains 1-3% erucic acid, natural Vitamin E (approximately 110mg/100g) and has an almond-like taste/flavor.
Over the past 10 years companies such as The Camelina Company (www.camelinacompany.com) have undertaken extensive research as to viability and suitability of Camelina for use as a Biofuel and a cheap feedstock supplement. Other companies, such as Great Plains Corporation and Sustainable Oils Corporation have commenced production of camelina oil as a substitute for BioDiesel Fuels (used vegetable oils, lard, etc.) and have approximately 50,000 acres of land being used to produce camelina. These companies are aggressively contracting with growers throughout the Northwestern USA, targeting areas in the states of Washington, Montana, North Dakota and South Dakota.
Camelina is capable of replacing conventional fossil fuel, such as Diesel Fuel. Research shows that camelina is ideal for use in automotive and aerospace applications as a reliable fuel substitute. Particularly attractive in terms of cultivation is the fact that camelina requires very little water and requires almost no fertilization. Camelina grows on land unsuitable for food crops. It has yields that are roughly double that of soy. The oil it produces is more cold-resistant than the average biodiesel fuel and is ideal for use as a feedstock. It tolerates cold climates well – it has been grown for years in pockets of Montana. It’s supported by research and field trials at a number of land-grant colleges around the country – Oregon State, Montana State, Idaho among them. Camelina grows wild in the US, which is to say it grows here, and grows well, and does not compete with other crops. Camelina has a particularly attractive concentration of omega-3 fatty acids that make camelina meal, left over after crushing, a particularly fine livestock feed candidate that is just now gaining recognition in the US and Canada. According to Sam Huttenbauer, CEO of Great Plains, The Camelina Company, camelina can be grown in a rotation of wheat crops. Farmers who have followed a wheat-fallow pattern, as is often seen in Washington and Oregon, can switch to a wheat-camelina-wheat pattern, realize up to 100 gallons of camelina oil per acre, and gain up to 15 percent more productivity on the wheat.
Thus, Camelina is a crop that goes a mile past fuel vs food, and one step beyond fuel and food, because it produces fuel and more food. Dr. Bill Schillinger at Washington State University recently described camelina’s business model to Capital Press as: “At 1,400 pounds per acre at 16 cents a pound, camelina would bring in $224 per acre; 28-bushel white wheat at $8.23 per bushel would garner $230.” Camelia thrives in areas that experience 10-17 inches of rainfall and in a trial study near Lind in eastern Washington state, Schillinger was able to realize a crop of 10 plants per square foot with 2.08 inches of winter precipitation (down from the area average of 5.04 inches).
Mr. Don Panter, President of Sustainable Oils has developed a more aggressive network of field trials (among them Texas A&M, Tennesseee, Nebraska, Montana State, Oregon State and New Mexico), but that Great Plains has established more relationships with growers. Great Plains has also reached the production stage, while Sustainable is still in grower recruitment and trials.
Present State of Bioenergy Projects in the State of Georgia
Since 2006, more than three dozen alternative energy projects -- ethanol, biodiesel, wood pellets, wood-to-electricity -- have been announced in Georgia with great fanfare and tens of millions of dollars in local, state and federal tax breaks. Most, though, have postponed production, reduced capacity, declared bankruptcy or remained commercially unfeasible. They struggle for financing, especially with the disappearance of credit and the recession.
The federal government, with its on-again, off-again biofuel mandates, also inhibits industry growth. Once-promising markets in Europe have dwindled due to import restrictions. Cheap oil keeps Americans from switching to ethanol and biodiesel, as well.
“To some degree there’s a shaking out that naturally occurs in any new industry when more people get into it than there’s room for,” according to Mr. Greg Hopkins, president of U.S. Biofuels in Rome, GA which halved its production last year. “More than that, though, I don’t think this country has truly decided that alternative fuel is where we’re going.”
American Process Inc., whose Thomaston, GA venture is bankrolled by energy giant Valero Energy, expects to be different. The Midtown-based company, with 40 employees in Atlanta, Greece and Romania, has extensive experience in the pulp and paper industry -- a proving ground for its wood-to-fuel technology. API plans to transform a vacant factory in Upson County, about an hour south of Atlanta, into a biorefinery that could produce 80,000 gallons of ethanol by year’s end (2006).
“Over the last few years there’s been a lot of talk about all these technologies and breakthroughs, but progress has been slow,” API President Theodora Retsina told The Atlanta Journal-Constitution during a recent interview about the bioenergy industry. “We’re setting out to prove that [our technology] is realistic, practical and financially viable, something investors can put their money into.”
Georgia made bioenergy an economic-development priority in 2006, and some of the state’s distressed rural regions have benefited. First United Ethanol in Camilla, for example, produces 100 million gallons of ethanol annually from corn. United Biomass celebrated the opening of a wood-to-biofuel factory several years ago in Nahunta, GA.
In Thomaston, API hopes to turn trees, limbs, grasses and other organic matter into commercially feasible ethanol to be blended with gasoline. Retsina says her process for producing cellulosic ethanol has been proven scientifically in small batches in Atlanta laboratories. Thomaston will serve as a demonstration project to prove her technology is also commercially feasible.
About 30 jobs will be created, including 10 engineers, developers and designers in Atlanta. Retsina said ethanol biorefineries could offer financially hard-hit pulp mills, in particular, another source of revenue.
The Upson County factory should be running by the end of February 2008, and full-bore production, most likely outside Georgia, could begin within three years.
“We have a great opportunity to create a whole new technology boom that will support jobs and exports," Retsina said. "Cellulosic ethanol is a reality -- it isn’t some kind of dream.”
Not a drop, though, fuels the nation’s Fords, Chevys or Hondas. One of the country’s most ballyhooed cellulosic ethanol projects, Range Fuels in Soperton, GA announced big production plans three years ago, but it has yet to produce a single gallon for sale to the public.
Range, which has received nearly $100 million in grants, tax breaks and other incentives from the U.S. Department of Energy, the state of Georgia and local sources, expected to begin production last year. But technical issues, and the recession, pushed the factory’s completion date to next month.
“When it became clear that equity markets would not support financing and building, as originally planned, we had to trim the scope of our project,” said Bill Schafer, the Colorado company's senior vice president for development.
Schafer added that by midyear Range will begin selling ethanol to refiners who will blend it with gasoline. More financing will be needed, though, to expand the Soperton factory for large-scale production.
Forisk Consulting, an Athens-based forestry research firm, compiled a list last fall of 29 wood-based alternative-energy projects announced in Georgia the past few years. Only 12 will likely “make it,” said Forisk’s Amanda Lang. Most are “proposed,” i.e. awaiting permits, financing, contracts or the technology to make them feasible.
Oglethorpe Power Corp., the huge Tucker-based energy cooperative, had planned to build wood-to-electricity plants in Appling, Echols and Warren counties. But it didn’t buy the Echols property and put “on hold” the Appling project, spokesman Greg Jones said. But Oglethorpe will invest an estimated half-billion dollars in the Warren project, expected to generate 100 megawatts of electricity, enough to supply 50,000 homes annually, by 2014. Georgia Power, too, is converting a coal-burning plant near Albany into a biomass factory. “Have we got everything started that was announced? No, but we’re doing pretty doggone good,” said Jill Stuckey, director of the state’s Center of Innovation for Energy. “The prospects look very good for the future.”
Tell that to the biodiesel guys. U.S. factories have the capacity to fill 2.7 billion gallons of biodiesel, but only 15 percent of that amount was produced last year, according to the National Biodiesel Board.
Alterra Bioenergy, with operations in Plains and Gordon, ceased biodiesel production last year. And U.S. Biofuel in Rome, which used to ship all its chicken fat-based biofuel to Europe, cut production by 50 percent.
U.S. Biofuel’s Hopkins and others blame governments on both sides of the Atlantic Ocean for the industry’s torpor. The European Union slapped a huge tariff on imported biodiesel in March that crushed U.S. exports. And domestic blending mandates, requiring a certain percentage of biofuel mixed with diesel, weren’t renewed by the federal government last month.
“Our industry relies so much on federal legislation, but that isn’t the magic bullet to make us less dependent on imports of foreign oil,” Hopkins said. “But Washington could help build us a bridge until we find that magic bullet.”
Last Edited/updated on March 27, 2013 at 2:01 P.M Eatern Time
An Overview of Sawgrass Potentials as a Renewable Resource
Presented By
Dr. Joseph A. Resnick, Professor Emeritus, Founding Director
The Consortium of Southern States Biofuels Producers and Growers
Introduction
Camelina sativa, Camelina is usually known in English as camelina, gold-of-pleasure, or false flax, also occasionally wild flax, linseed dodder, German sesame, and Siberian oilseed, is a flowering plant in the family, Brasssicaceae. Camelina is native to Northern Europe, Central Asia and has been introduced to North America, possibly as a weed occurring in flax fields.
Camelina needs little water or nitrogen to flourish, it can be grown on marginal agricultural lands and does not compete with food crops. Camelina is ideal for use as a rotational crop for wheat and increases overall health of the soil. It has been traditionally cultivated as an oil seed to produce vegetable oil and compound animal feed.
Archaeological evidence suggests that Camelina has been grown in Europe and parts of Asia for at least 3000 years. During the Bronze Age Camelina was grown and harvested for use of its oil and replaced olive oil as a staple in Central Europe, Greece and parts of Asia Minor.
Camelina contains exceptionally high levels of Omega-3 fatty acids (up to 45%) which is uncommon in most vegetable crops. Oil derived from Camelina is polyunsaturated, with major components being Alpha-linolenic acid (C18-3), Omega-6 fatty acid (C18-2) and other natural antioxidants, such as Tocopherol. Camelina also contains 1-3% erucic acid, natural Vitamin E (approximately 110mg/100g) and has an almond-like taste/flavor.
Over the past 10 years companies such as The Camelina Company (www.camelinacompany.com) have undertaken extensive research as to viability and suitability of Camelina for use as a Biofuel and a cheap feedstock supplement. Other companies, such as Great Plains Corporation and Sustainable Oils Corporation have commenced production of camelina oil as a substitute for BioDiesel Fuels (used vegetable oils, lard, etc.) and have approximately 50,000 acres of land being used to produce camelina. These companies are aggressively contracting with growers throughout the Northwestern USA, targeting areas in the states of Washington, Montana, North Dakota and South Dakota.
Camelina is capable of replacing conventional fossil fuel, such as Diesel Fuel. Research shows that camelina is ideal for use in automotive and aerospace applications as a reliable fuel substitute. Particularly attractive in terms of cultivation is the fact that camelina requires very little water and requires almost no fertilization. Camelina grows on land unsuitable for food crops. It has yields that are roughly double that of soy. The oil it produces is more cold-resistant than the average biodiesel fuel and is ideal for use as a feedstock. It tolerates cold climates well – it has been grown for years in pockets of Montana. It’s supported by research and field trials at a number of land-grant colleges around the country – Oregon State, Montana State, Idaho among them. Camelina grows wild in the US, which is to say it grows here, and grows well, and does not compete with other crops. Camelina has a particularly attractive concentration of omega-3 fatty acids that make camelina meal, left over after crushing, a particularly fine livestock feed candidate that is just now gaining recognition in the US and Canada. According to Sam Huttenbauer, CEO of Great Plains, The Camelina Company, camelina can be grown in a rotation of wheat crops. Farmers who have followed a wheat-fallow pattern, as is often seen in Washington and Oregon, can switch to a wheat-camelina-wheat pattern, realize up to 100 gallons of camelina oil per acre, and gain up to 15 percent more productivity on the wheat.
Thus, Camelina is a crop that goes a mile past fuel vs food, and one step beyond fuel and food, because it produces fuel and more food. Dr. Bill Schillinger at Washington State University recently described camelina’s business model to Capital Press as: “At 1,400 pounds per acre at 16 cents a pound, camelina would bring in $224 per acre; 28-bushel white wheat at $8.23 per bushel would garner $230.” Camelia thrives in areas that experience 10-17 inches of rainfall and in a trial study near Lind in eastern Washington state, Schillinger was able to realize a crop of 10 plants per square foot with 2.08 inches of winter precipitation (down from the area average of 5.04 inches).
Mr. Don Panter, President of Sustainable Oils has developed a more aggressive network of field trials (among them Texas A&M, Tennesseee, Nebraska, Montana State, Oregon State and New Mexico), but that Great Plains has established more relationships with growers. Great Plains has also reached the production stage, while Sustainable is still in grower recruitment and trials.
Present State of Bioenergy Projects in the State of Georgia
Since 2006, more than three dozen alternative energy projects -- ethanol, biodiesel, wood pellets, wood-to-electricity -- have been announced in Georgia with great fanfare and tens of millions of dollars in local, state and federal tax breaks. Most, though, have postponed production, reduced capacity, declared bankruptcy or remained commercially unfeasible. They struggle for financing, especially with the disappearance of credit and the recession.
The federal government, with its on-again, off-again biofuel mandates, also inhibits industry growth. Once-promising markets in Europe have dwindled due to import restrictions. Cheap oil keeps Americans from switching to ethanol and biodiesel, as well.
“To some degree there’s a shaking out that naturally occurs in any new industry when more people get into it than there’s room for,” according to Mr. Greg Hopkins, president of U.S. Biofuels in Rome, GA which halved its production last year. “More than that, though, I don’t think this country has truly decided that alternative fuel is where we’re going.”
American Process Inc., whose Thomaston, GA venture is bankrolled by energy giant Valero Energy, expects to be different. The Midtown-based company, with 40 employees in Atlanta, Greece and Romania, has extensive experience in the pulp and paper industry -- a proving ground for its wood-to-fuel technology. API plans to transform a vacant factory in Upson County, about an hour south of Atlanta, into a biorefinery that could produce 80,000 gallons of ethanol by year’s end (2006).
“Over the last few years there’s been a lot of talk about all these technologies and breakthroughs, but progress has been slow,” API President Theodora Retsina told The Atlanta Journal-Constitution during a recent interview about the bioenergy industry. “We’re setting out to prove that [our technology] is realistic, practical and financially viable, something investors can put their money into.”
Georgia made bioenergy an economic-development priority in 2006, and some of the state’s distressed rural regions have benefited. First United Ethanol in Camilla, for example, produces 100 million gallons of ethanol annually from corn. United Biomass celebrated the opening of a wood-to-biofuel factory several years ago in Nahunta, GA.
In Thomaston, API hopes to turn trees, limbs, grasses and other organic matter into commercially feasible ethanol to be blended with gasoline. Retsina says her process for producing cellulosic ethanol has been proven scientifically in small batches in Atlanta laboratories. Thomaston will serve as a demonstration project to prove her technology is also commercially feasible.
About 30 jobs will be created, including 10 engineers, developers and designers in Atlanta. Retsina said ethanol biorefineries could offer financially hard-hit pulp mills, in particular, another source of revenue.
The Upson County factory should be running by the end of February 2008, and full-bore production, most likely outside Georgia, could begin within three years.
“We have a great opportunity to create a whole new technology boom that will support jobs and exports," Retsina said. "Cellulosic ethanol is a reality -- it isn’t some kind of dream.”
Not a drop, though, fuels the nation’s Fords, Chevys or Hondas. One of the country’s most ballyhooed cellulosic ethanol projects, Range Fuels in Soperton, GA announced big production plans three years ago, but it has yet to produce a single gallon for sale to the public.
Range, which has received nearly $100 million in grants, tax breaks and other incentives from the U.S. Department of Energy, the state of Georgia and local sources, expected to begin production last year. But technical issues, and the recession, pushed the factory’s completion date to next month.
“When it became clear that equity markets would not support financing and building, as originally planned, we had to trim the scope of our project,” said Bill Schafer, the Colorado company's senior vice president for development.
Schafer added that by midyear Range will begin selling ethanol to refiners who will blend it with gasoline. More financing will be needed, though, to expand the Soperton factory for large-scale production.
Forisk Consulting, an Athens-based forestry research firm, compiled a list last fall of 29 wood-based alternative-energy projects announced in Georgia the past few years. Only 12 will likely “make it,” said Forisk’s Amanda Lang. Most are “proposed,” i.e. awaiting permits, financing, contracts or the technology to make them feasible.
Oglethorpe Power Corp., the huge Tucker-based energy cooperative, had planned to build wood-to-electricity plants in Appling, Echols and Warren counties. But it didn’t buy the Echols property and put “on hold” the Appling project, spokesman Greg Jones said. But Oglethorpe will invest an estimated half-billion dollars in the Warren project, expected to generate 100 megawatts of electricity, enough to supply 50,000 homes annually, by 2014. Georgia Power, too, is converting a coal-burning plant near Albany into a biomass factory. “Have we got everything started that was announced? No, but we’re doing pretty doggone good,” said Jill Stuckey, director of the state’s Center of Innovation for Energy. “The prospects look very good for the future.”
Tell that to the biodiesel guys. U.S. factories have the capacity to fill 2.7 billion gallons of biodiesel, but only 15 percent of that amount was produced last year, according to the National Biodiesel Board.
Alterra Bioenergy, with operations in Plains and Gordon, ceased biodiesel production last year. And U.S. Biofuel in Rome, which used to ship all its chicken fat-based biofuel to Europe, cut production by 50 percent.
U.S. Biofuel’s Hopkins and others blame governments on both sides of the Atlantic Ocean for the industry’s torpor. The European Union slapped a huge tariff on imported biodiesel in March that crushed U.S. exports. And domestic blending mandates, requiring a certain percentage of biofuel mixed with diesel, weren’t renewed by the federal government last month.
“Our industry relies so much on federal legislation, but that isn’t the magic bullet to make us less dependent on imports of foreign oil,” Hopkins said. “But Washington could help build us a bridge until we find that magic bullet.”
Last Edited/updated on March 27, 2013 at 2:01 P.M Eatern Time