Advanced Biofuel Workshop

BBI International and the 2010 Advanced Biofuels Workshop planning committee welcomes presenters to St. Louis for this convenient one-day workshop on advanced biofuels. More than 400 people are expected to attend to learn about advanced technology updates, algae and second-generation feedstock development, market challenges and trends, R&D activities, policy, finance, project development and more.

Presentation ideas may be related to production, operations, R&D, project development, finance, business, feedstock development, resource analysis, environmental performance or any other topic pertaining to the commercialization of advanced biofuels.   Deadline for submission is January 11, 2010.

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Algae in South Australia

THE U.S. parent company of uranium producer Heathgate Resources has held talks with the State Government over developing a renewable energy fuel in South Australia – from algae.

Premier Mike Rann met for an hour yesterday with Neal Blue, the chief executive officer of General Atomics, which owns the Beverley uranium deposits in SA’s Far North.

Mr Blue said his company was interested in developments in microalgal biofuels in SA because there was huge potential for their use in the future – especially in the aviation industry.

Mr Blue said at least one U.S. commercial airline had already tested biofuels in a passenger flight across America. He said SA was highly placed to develop algal fuels because of its high sunlight, brackish water and carbon dioxide.

Mr Rann said algal biofuel was attractive because of its relatively high oil yield and its efficiency in recycling carbon.

“It is estimated that replacing just 10 per cent of Australia’s mineral diesel with biodiesel from microalgae would bring about a reduction of nearly 4 million tonnes of carbon dioxide emissions from fossil fuels,” he said.

The Federal Government recently granted $2.7 million to an SA-based consortium to develop a pilot-scale biorefinery for sustainable microalgal biofuels and added products.

Read More: http://bit.ly/8cqtrQ

Royal Dutch Shell backs Biofuels

Royal Dutch Shell PLC has roughly doubled its financial support for biofuels start-up Codexis Inc. in the past year, the latest sign that oil companies are slowly and selectively increasing their interest in plants-to-fuels research.

Shell is on pace to spend $60 million in 2009 to fund research at Codexis, nearly twice the amount as the year before, according to regulatory filings. Codexis filed paperwork this week for a $100 initial public offering. The start-up is developing microbes to speed up the chemical reactions that turn inedible plants, such as grasses or stalks, into ethanol and diesel.

Read More: http://bit.ly/91YxFF

PetroSun launches First US commercial scale Algae farm for Biofuel

In Texas, PetroSun will open the first US commercial-scale algae farm for biofuels near South Padre Island. The 1,831 acre site includes 157 separate ponds, and the company said that extraction of algae from water and oil from algae were studied and solved at the company’s pilot farm in Opelika, Alabama. PetroSun said that results from the pilot farm demonstrated a yield of between 5,000 and 8,000 gallons per acre, or a potential oil production of 9-15 Mgy at the South Padre Island facility.

Algae-based research and development continues to pick up in pace, even though the US Defense Department is estimating that the current production cost of algae oil exceeds $20 per gallon.

Recent developments include:

Netherlands, AlgaeLink announced a new process for extracting algae without using chemicals, drying or an oil press. The company said that its patent-pending technique uses 26 kilowatts of power to produce 12,000 gallons of algae oil per hour, with a yield of 50 percent from the initial algae paste.

In Texas, the state’s Emerging Technology Fund will provide $4 million to Texas AgriLife Research and General Atomics
to conduct microalgae research and development.

In Virginia, researchers at Old Dominion University have successfully piloted a project to produce biodiesel feedstock by growing algae at municipal sewage treatment plants. The pilot project is producing up to 70,000 gallons of biodiesel per year.

In Minnesota, Xcel Energy has pledged $150,000 to assist in funding an algae to biodiesel research project sponsored by the University and the Metropolitan Council.

The US Department of Energy recently partnered with Chevron in a research effort to develop higher-yield strains of micro algae.  The Defense Advanced Research Projects Agency is working on a project with Honeywell, General Electric and the University of North Dakota.

In Texas, US Sustainable Energy is awaiting lab results from a test of biocrude production using 20 pounds of algae as a feedstock. The company recently ran its initial test of 20 pounds of 5% oil-content algae feedstock with 40 percent water content, and resulted in an ignitable oil product. This is just the tip of the iceberg.A lot more action is expected in the future.

Read More: http://bit.ly/7NFp1u

NASA Ames Research Center makes biofuel from wastewater

NASA has thrown its weight behind a clever method of growing algae in wastewater for the purpose of making biofuel.onathan Trent, a bioengineer at NASA Ames Research Center in Moffett Field, Calif comments that the forward-osmosis membranes OMEGA only release fresh water into the ocean, and dont permit salty water to contaminate the bags.

Such a process would mainly rely on the energy of the ocean waves to mix the algae, as well as sunlight and carbon dioxide. The offshore locations and the wide oceans would also have more than enough room to grow massive amounts of algae needed to produce biofuels for an energy-hungry world.

One possible future plan would combine the algae-growth system with a gigantic offshore wind farm being built by Germany, Sweden and Denmark. Wind power could then provide lights to keep algae growing underwater and during the nighttime hours – a fitting vision for the sustainable future of spaceship Earth.

Its renewable carbon negative fuel from algae making use of sunlight,sewage and co2 – a solution for today’s problem.

Read More: http://bit.ly/4quZQy

First commercial scale Algae farm in USA

In Texas, PetroSun will open the first US commercial-scale algae farm for biofuels near South Padre Island.

The 1,831 acre site includes 157 separate ponds, and the company said that extraction of algae from water and oil from algae were studied and solved at the company’s pilot farm in Opelika, Alabama. PetroSun said that results from the pilot farm demonstrated a yield of between 5,000 and 8,000 gallons per acre, or a potential oil production of 9-15 Mgy at the South Padre Island facility.

Algae-based research and development continues to pick up in pace, even though the US Defense Department is estimating that the current production cost of algae oil exceeds $20 per gallon.

Recent developments include:

Netherlands, AlgaeLink announced a new process for extracting algae without using chemicals, drying or an oil press.

The company said that its patent-pending technique uses 26 kilowatts of power to produce 12,000 gallons of algae oil per hour, with a yield of 50 percent from the initial algae paste.

In Texas, the state’s Emerging Technology Fund will provide $4 million to Texas AgriLife Research and General Atomics to conduct microalgae research and development.

In Virginia, researchers at Old Dominion University have successfully piloted a project to produce biodiesel feedstock by growing algae at municipal sewage treatment plants. The pilot project is producing up to 70,000 gallons of biodiesel per year.

In Minnesota, Xcel Energy has pledged $150,000 to assist in funding an algae-to-biodiesel research project sponsored by the University and the Metropolitan Council.

The US Department of Energy recently partnered with Chevron in a research effort to develop higher-yield strains of micro algae.

The Defense Advanced Research Projects Agency is working on a project with Honeywell, General Electric and the University of North Dakota.

In Texas, US Sustainable Energy is awaiting lab results from a test of biocrude production using 20 pounds of algae as a feedstock. The company recently ran its initial test of 20 pounds of 5% oil-content algae feedstock with 40 percent water content, and resulted in an ignitable oil product.

This is just the tip of the iceberg.

A lot more action is expected in the future.

Read More: http://bit.ly/7NFp1u

DOE Awards Dynaflow

Dynaflow, Inc., a leader in R&D services and products in fluid dynamics and applied sciences,  that it has been awarded a Department of Energy (DOE) Phase I Small Business Innovation Research (SBIR) contract to develop and demonstrate a new system to extract oil from algae.

The program objective is to contribute to the development and commercialization of cost competitive algae based biofuels that can serve as alternatives to petroleum based fuels.

Dynaflow’s new system utilizes a low-cost, sustainable method that combines the algae harvesting and oil extraction steps. The approach promises greater energy efficiency and scalability than traditional methods for producing biofuels from algae and provides a path to large cost-effective algae based biofuel production.

Read More: http://bit.ly/79ATev