Hybrid News

Filed under: Ethanol

Last month, the Wal-Mart Foundation gave $369,000 to the Arkansas Biosciences Institute for cellulosic ethanol research, specifically biomass-to-ethanol work. For comparison, Wal-Mart earned $351,139,000,000 last year.

While most of the research done at ABI focuses on tobacco-related issues (the institute was formed thanks to the Tobacco Settlement Proceeds Act of 2000), the Wal-Mart money will be used to try and get biofuel out of “the state’s agriculture and forestry resources,” according to Domestic Fuel, which means making ethanol from things like “plant stalks and leaves, agricultural residues and forestry residues.”

Wal-Mart has been supporting ethanol for many years and also has a toe in LNG trucks and electric drive vehicles.

[Source: Domestic Fuel]

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Original post by Sebastian Blanco

Filed under: Ethanol

Canadian cellulosic ethanol producer Iogen has shipped the first 26,000 gallons of an order for Royal Dutch Shell. Iogen recently announced a deal with Shell that would see them cooperate on commercializing cellulosic ethanol production. Iogen has a demonstration plant near the Canadian capitol and produced the biofuel from wheat straw feedstock. Iogen uses a “steam explosion” pre-treatment process that increases the surface area of the raw materials making the enzymes used to break down the cellulose more effective. Iogen produces its own enzymes that are then used in a hydrolysis process to produce glucose. The glucose is then fermented and distilled to produce the alcohol.

[Source: Iogen]

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Original post by Sam Abuelsamid

Filed under: Ethanol, GM

Massachusetts-based Mascoma Corp. has added Dr. Andreas Lippert to its scientific advisory board. Mascoma, along with Coskata, is one of the two companies working on cellulosic ethanol technology that GM invested in earlier this year. Dr. Lippert is the Director of Global Energy Systems for GM and is responsible for strategic analysis and outlook on global energy developments and energy supply chains. Lippert is expected to lend his knowledge in those areas to Mascoma as they move forward with commercialization of cellulosic ethanol production in the next few years. The press release is after the jump.

[Source: General Motors]

Continue reading GM Energy Systems director to join Mascoma advisory board

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Original post by Sam Abuelsamid

Filed under: Biodiesel, Ethanol, Legislation and Policy, USA

It’s not all li-ion battery tech that the federal government is givng support to these days; biofuels are getting some tax dollars as well. The U.S. Department of Energy (DOE) recently announced that six biofuel projects at universities around the U.S. will be getting up to $4.4 million in funding. The good news is that the money is for work in non-food cellulosic ethanol research. Full details are available after the jump, but here are some snippets:

• University of Toledo: For “development of cost-effective biocatalysts capable of increasing product yield in the biological conversion of lignocellulosic biomass.”
• Steven’s Institute of Technology: “To evaluate and demonstrate a novel microchannel reactor to reform pyrolysis oil to synthesis gas (syngas).”
• Montana State University: “To evaluate the oil content of algae cultures available to the universities and identify populations that naturally have higher rates of oil production.”
• University of Georgia: “To develop novel approaches to supply nutrients to oil-producing algal systems resulting in cost-effective algae-biofuel production systems.
• University of Maine: “To determine the optimal yield and productivity of high potential bacteria at moderate to high temperatures.
• Georgia Tech Research Corporation: “To evaluate and model the reaction kinetics in two experimental gasifiers using forest residues under different processing conditions.”

[Source: DOE]

Continue reading DOE offers $4.4 million for university biofuel projects

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Original post by Sebastian Blanco

Filed under: Ethanol

Mascoma Corp is one of the two cellulosic ethanol companies that General Motors invested in earlier this year. Dr. Lee Lynd is one of Mascoma’s co-founders and he and his collaborators at Dartmouth College have published a paper that gives some more insight into Mascoma’s process. They have created a new genetically-engineered bacteria aimed at producing ethanol from biomass. The key to this new microbe is its ability to function at higher temperatures than the naturally-occurring types that have been used previously. The natural bacteria can’t function at temperatures above 37°C and require a significant amount of cellulase enzyme which greatly increases the cost of the process. By operating at temperatures above 50°C, the new microbe requires only 40 percent of the amount of cellulase. The natural bacteria also produce another by-product besides ethanol, organic acids. The resulting output then needs further processing to separate the alcohol from the acid. The genetically-engineered microbes apparently produce no acids, with the fuel being the only product.

[Source: NewScientistTech]

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Original post by Sam Abuelsamid

Filed under: Ethanol

Aside from metals such as iron, steel and aluminum, perhaps the most common material in cars is plastic. Most of the plastic made today is derived from petroleum. Besides the raw materials used, a lot pf greenhouse gases are produced in the processing of plastics. Bio-materials have been a major research area in recent years including Ford’s new soy-foam seats. Researchers from the Hawaii Natural Energy Institute have a developed a class of bioplastics called Polyhydroxyalkanoates that can be produced as a byproduct of cellulosic ethanol production. According to the research, PHA can be produced with only 0.49 kg CO₂/kg of resin. Typical plastics production emits 2-3 kg of CO₂/kg of resin. The energy required in the process is also reduced from 78-88 MJ to only 44 MJ per kg of resin. With the coming of cellulosic ethanol production in the next few years, this could be a potentially huge boon to making the businesses more viable.

[Source: Hawaii Natural Energy Institute, via Green Car Congress]

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Original post by Sam Abuelsamid

Filed under: Biodiesel, Emerging Technologies, Ethanol

As our readers know, the biofuels field of investigation is huge and there are quite a number of upcoming technologies that can make the renewable fuel without competing with feedstocks. The most notable of these technologies use waste streams and often also require less water to make biofuel. Popular Mechanics lists seven of these new biofuel technologies and provides some numbers about how and when they will be available: cellulosic ethanol (both biological and gasified), algal biodiesel, “green gasoline” (obtained from extracting oxygen from sugars to form hydrocarbons), biobutanol, designer hydrocarbons and so-called 4th generation biofuels, the latter two produced directly from genetically modified organisms. As one reader suggests, there’s no mention in the piece of alternative feedstocks for biofuels, such as jathropa curcas, which can grow in unused land. Still, regardless of technology, the question is impact: will any of these become the silver biofuel bullet? Thanks to Carl for the tip.

[Source: Popular Mechanics]

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Original post by Xavier Navarro

Filed under: Emerging Technologies, Ethanol

A recent paper by Wally Tyner published by Purdue University shows that, at least for Corn Belt states (like Indiana), corn stover could be a better cellulosic ethanol source than switchgrass. The paper considers the cost and prospective profits of whether a farmer could decide to plant and sell corn and corn stover, or plant switchgrass. The answer is clear to the author: corn is more productive, the soil quality is low, in which case switchgrass becomes the winner. There is also a consideration about the location of ethanol plants: they need to be near the feedstock, because corn is easily transported but corn stover and switchgrass are not.

Although you can check the complete report for the all the figures, take this statement by Tyner as an example of his summary: “With $6 and higher per bushel corn it [cellulosic ethanol] is already very close economically. And since the federal Renewable Fuels Standard calls for the production of 36 billion gallons of ethanol by 2022, of which 16 billion gallons have to be cellulose, cellulosic ethanol will advance.”

[Source: Purdue]

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Original post by Xavier Navarro

Filed under: Etc., Ethanol, Chrysler

In another of Chrysler’s experiments with new ways of producing biofuel feedstocks (see also here), they have teamed up with Purdue University to make use of an environmentally contaminated site. Instead of the typical agricultural crops, they have planted poplar trees at a site called Peter’s Pond in central Indiana. Chrysler worked with Purdue Associate Professor Rick Meilan develop a new hybrid variety of poplar that can absorb more contaminants from the soil. A second goal of the new hybrid was to make it easier to process the tree into ethanol after harvesting. The trees developed by Prof. Meilan are able to absorb up to ninety percent of contaminants like trichloroethelyne from the soil. The lignin that binds the cellulose together has been modified to allow the cellulose to be more easily broken down.

[Source: Chrysler]

Chrysler Partnership with Purdue University Taps Environmental Powers of Poplars

# Hybrid Poplars Tested at Rural Indiana Site
# Faster Phytoremediation - Using Plants to Clean Up Pollution
# Purdue Researchers Also Developing Poplars for Better Biofuels

Auburn Hills, Mich., Dec 12, 2007 - Chrysler LLC is partnering with Purdue University to test the powers of poplar trees to clean up environmental spills and, in separate work, develop poplars that can serve as feedstock for improved renewable biofuels.

In the first stage of the project, plots of hybrid poplars have been planted at Peter’s Pond, the site of an environmental cleanup being conducted by Chrysler in rural central Indiana.

Chrysler’s collaborator on the project is Purdue Associate Professor Rick Meilan, who is looking for ways to greatly improve hybrid poplars’ ability to clean up contaminants in the environment. Meilan is also part of a team researching altered varieties of poplars that would improve the process of turning harvested plants into bio-ethanol for use in Flexible Fuel Vehicles (FFVs).

“This project supports our most important environmental principles at Chrysler: respect for the environment, returning our former sites to productive use, and promoting the use of clean, renewable, American-made biofuels such as ethanol, in our vehicles,” said Deborah Morrissett, Vice President of Regulatory Affairs at Chrysler.

Chrysler has invested more than $10 billion over the past two decades to either refurbish existing sites or to prepare vacant sites for productive use.

Chrysler has also produced nearly two million Flexible Fuel Vehicles capable of running on E85 (85 percent ethanol), gasoline or a mixture of the two fuels. The company will produce an additional 500,000 FFVs in 2008.

Meilan is part of a research team that is developing altered poplars with much greater ability to take up contaminants. In their research, Meilan and colleagues found that engineered poplars removed more than 90 percent of pollutants such as trichloroethylene (TCE) from a test solution in one week, compared with just 3 percent of pollutants removed by unaltered poplars. TCE, a commonly used solvent, was found in the soil and groundwater at Peter’s Pond.

In addition, the specially-engineered poplars were able to break down the pollutants 100 times faster than the unaltered poplar.

Meilan will plant the specially-engineered poplars at the Peter’s Pond site next spring. Their ability to remove TCE from the soil will be compared with the hybrid poplars already planted at the site.

The process of using plants to absorb pollutants from the soil, known as phytoremediation, should work well at Peter’s Pond since the remaining pollutants are within 10 feet of the surface and readily accessible to poplars’ roots.

“Peter’s Pond is the perfect place to take this process out of the lab and test it on a field-sized scale,” said Meilan.

Meilan and colleagues are also developing hybrid poplars that can be refined into ethanol more easily. One of the barriers to producing ethanol is lignin, a compound that helps give the plant its strength. However, lignin impedes access to cellulose, the primary source of sugar in the plant to be converted into ethanol. By developing poplars with modified lignin, Meilan hopes to make renewable ethanol faster and cheaper to produce.

If the process works out, it can be readily adapted to many other parts of the world, Meilan noted.

“Poplars grow across a wide geographic range and in many different climates,” Meilan said.

“People have had their eye on the poplar for a long time.”

Chrysler’s FFV Lineup

For the 2008 model year, Chrysler offers 11 products with the E85 Flexible Fuel option:

* Dodge: Dakota, Ram, Durango, Avenger, Grand Caravan
* Chrysler: Aspen, Town & Country, Sebring sedan and convertible
* Jeep: Grand Cherokee, Commander

Chrysler also promotes the use of biodiesel, another clean, renewable, American-made alternative fuel. Jeep(R) Grand Cherokee and the Dodge Ram and Sprinter diesel vehicles are all approved for use with B5 (5 percent biodiesel) fuel and are delivered to customers running on B5.

History of Peter’s Pond

The property known as Peter’s Pond was once used for gravel mining operations.

In the mid-1960s, oils from the Chrysler Transmission Plant in Kokomo were disposed of in three abandoned gravel pits. Cleanup of the site was begun in the mid-1980s, and Chrysler continues to monitor the groundwater and soil today.

Two small areas on the site still have small amounts of pollutants. Chrysler proposed the phytoremediation system using poplars to polish the remaining pollutants from the soil and groundwater.

Ultimately, the plan is to return the Peter’s Pond site to farming, a major economic activity in central Indiana.

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BOLD MOVES: THE FUTURE OF FORD Step behind the curtain at Ford Motor. Experience the documentary first-hand.

Original post by Sam Abuelsamid

Filed under: Ethanol

A new study from the American Society of Agronomy throws some cold water on the use of corn stover as a feed stock for cellulosic ethanol. Stover is all the stuff that’s left over after corn is harvested: the stalks, leaves, and husks. The problem is that there may not be enough stover available to make a difference. A lot of stover is needed to be spread on the fields to replenish the organic matter in the soil and to control erosion.

If too much of the stover is consumed in the production of fuel, the ability of fields to produce corn would be degraded significantly. This would significantly reduce the sustainability of stover as a feed stock. Of course the advantage of cellulosic ethanol is that it can be produced from a wide variety of organic matter including many plants that can readily grow on land that isn’t suitable for growing food crops. Even with those kinds of inputs, however, the world’s rate of energy consumption growth is not indefinitely sustainable based on fuels of this type and reductions will be needed.

[Source: American Society of Agronomy]

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BOLD MOVES: THE FUTURE OF FORD Step behind the curtain at Ford Motor. Experience the documentary first-hand.

Original post by Sam Abuelsamid

Filed under: Ethanol, Green Daily

In 2007, all the cars in the American Le Mans Series - with the exception of the diesel powered Audi R10s - ran on a ten percent ethanol-gasoline blend. Sometime during the 2008 season, ALMS organizers plan to have their series become the first to transition to a second-generation biofuel. They plan to shift to an E85 blend that uses cellulosic ethanol.

[Source: AutoWeek]

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BOLD MOVES: THE FUTURE OF FORD Step behind the curtain at Ford Motor. Experience the documentary first-hand.

Original post by Sam Abuelsamid

Filed under: Emerging Technologies, Ethanol, USA

A paper published in the Proceedings of the National Academy of Sciences reports that new breeds of switchgrass yields 20-30 percent higher than earlier strains. This shows that it may be a more viable plant source to produce ethanol than previously imagined. The document states that these newer breeds produce 540 percent more energy than the energy consumed in its production, up from a previous study that estimated yield at 343 percent.

Kennet Vogel, from the US Department of Agriculture’s Agricultural Research Service based at the University of Nebraska in Lincoln, said that the results increased because the study was made at farm scale. He also expects higher outputs when selecting crops specifically for energy production, because they were using plants developed for pasture and conservation.

Related:

• Project BioReGen: Planting trees to recover a damaged ecosystem
• Royal Nedalco will open a cellullosic ethanol plant using yeast, not bacteria
• First cellulosic biomethane station to be opened in Austria

[Source: AFP via Domestic Fuel]

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BOLD MOVES: THE FUTURE OF FORD Step behind the curtain at Ford Motor. Experience the documentary first-hand.

Original post by Xavier Navarro

Filed under: Emerging Technologies, Ethanol, GM, AutoblogGreen Exclusive, Detroit Auto Show, Green Daily

General Motors vehicles and biomass materials are two things that you can find pretty much anywhere on the planet. GM and Coskata Energy announced a partnership today at the Detroit Auto Show that certainly hints at a future where you we will find biomass materials fueling GM vehicles in a lot of places, maybe pretty much anywhere.

If you’ve heard the Coskata name before, it’s likely from the name of the Coskata-Coatue Wildlife Refuge. The Coskata energy company, no relation, was started in July of 2006 with funding by ethanol-magnate Vinod Khosla’s Khosla Ventures as well as Advanced Technology Ventures and Great Point Ventures. Why was all this big money interested in Coskata? Because Coskata claims they will soon reach one of the holy grails of the new energy movement: cheap cellulosic ethanol that can be created, well, pretty much anywhere in the world. The short version of this story: Coskata Ethanol can make ethanol from biomass, municipal solid waste and any other carbon-containing material and GM, which has taken an equity stake in Coskata, wants to promote the heck out of this ability.

More details than you can possibly devour in one sitting after the jump.

General Motors vehicles and biomass materials are two things that you can find pretty much anywhere on the planet. GM and Coskata Energy announced a partnership today at the Detroit Auto Show that certainly hints at a future where you we will find biomass materials fueling GM vehicles in a lot of places, maybe pretty much anywhere.

If you’ve heard the Coskata name before, it’s likely from the name of the Coskata-Coatue Wildlife Refuge. The Coskata energy company, no relation, was started in July of 2006 with funding by ethanol-magnate Vinod Khosla’s Khosla Ventures as well as Advanced Technology Ventures and Great Point Ventures. Why was all this big money interested in Coskata? Because Coskata claims they will soon reach one of the holy grails of the new energy movement: cheap cellulosic ethanol that can be created, well, pretty much anywhere in the world. The short version of this story: Coskata Ethanol can make ethanol from biomass, municipal solid waste and any other carbon-containing material and GM, which has taken an equity stake in Coskata, wants to promote the heck out of this ability.

More details than you can possibly devour in one sitting after the jump.

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BOLD MOVES: THE FUTURE OF FORD Step behind the curtain at Ford Motor. Experience the documentary first-hand.

Original post by Sebastian Blanco

Filed under: Emerging Technologies, Ethanol, GM, AutoblogGreen Exclusive, Detroit Auto Show, Green Daily

General Motors vehicles and biomass materials are two things that you can find pretty much anywhere on the planet. GM and Coskata Energy announced a partnership today at the Detroit Auto Show that certainly hints at a future where you we will find biomass materials fueling GM vehicles in a lot of places, maybe pretty much anywhere.

If you’ve heard the Coskata name before, it’s likely from the name of the Coskata-Coatue Wildlife Refuge. The Coskata energy company, no relation, was started in July of 2006 with funding by ethanol-magnate Vinod Khosla’s Khosla Ventures as well as Advanced Technology Ventures and Great Point Ventures. Why was all this big money interested in Coskata? Because Coskata claims they will soon reach one of the holy grails of the new energy movement: cheap cellulosic ethanol that can be created, well, pretty much anywhere in the world. The short version of this story: Coskata Ethanol can make ethanol from biomass, municipal solid waste and any other carbon-containing material and GM, which has taken an equity stake in Coskata, wants to promote the heck out of this ability.

More details than you can possibly devour in one sitting after the jump.

General Motors vehicles and biomass materials are two things that you can find pretty much anywhere on the planet. GM and Coskata Energy announced a partnership today at the Detroit Auto Show that certainly hints at a future where you we will find biomass materials fueling GM vehicles in a lot of places, maybe pretty much anywhere.

If you’ve heard the Coskata name before, it’s likely from the name of the Coskata-Coatue Wildlife Refuge. The Coskata energy company, no relation, was started in July of 2006 with funding by ethanol-magnate Vinod Khosla’s Khosla Ventures as well as Advanced Technology Ventures and Great Point Ventures. Why was all this big money interested in Coskata? Because Coskata claims they will soon reach one of the holy grails of the new energy movement: cheap cellulosic ethanol that can be created, well, pretty much anywhere in the world. The short version of this story: Coskata Ethanol can make ethanol from biomass, municipal solid waste and any other carbon-containing material and GM, which has taken an equity stake in Coskata, wants to promote the heck out of this ability.

More details than you can possibly devour in one sitting after the jump.

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BOLD MOVES: THE FUTURE OF FORD Step behind the curtain at Ford Motor. Experience the documentary first-hand.

Original post by Sebastian Blanco

Filed under: Emerging Technologies, Ethanol, Flex-Fuel, GM, AutoblogGreen Q & A, AutoblogGreen Exclusive, Detroit Auto Show, Coal to Liquid, Green Daily

In the latest AutoblogGreen podcast, we featured an interview with Coskata president and CEO Bill Roe. This is a transcription of that interview. For a way-too detailed look at the GM-Coskata cellulosic ethanol partnership discussed in this chat, check out this post.

ABG: I’m here with Bill Roe, CEO of Coskata, and we just listened to the presentations and had a little tour of the laboratories here on the site. I am a little bit interested in this partnership, that is kind of what we are learning about here today between your company and GM. We heard a little bit about what GM can do for you, some of the promotion, bringing it to other people and you said during lunch that other car did approach you and GM sort of was the best fit for you. Can you talk a little bit, now that the tape is rolling, about how that partnership came to be? And why you are excited to work with GM on this.

Roe: I think that the two companies, and for similar and yet dissimilar reasons, have an understanding of what is going to have to happen if there is going to really truly be a revolution in transportation fuels. General Motors clearly had undertaken a study to determine who is out there and what are the best bets, and who is going to be quickest to market in the next generation ethanol space. We did not know that. But concurrently we were looking at the enormity of what has to happen for the billions of gallons of ethanol that conceiveably can be produced to ultimately get to market because there is a tremendous amount of infrastructure change and infrastructure development that is going to have to take place. And so, when we began to look at, in our partnership model, who the players would be that we would necessarily want to talk to that had a long range, and I would emphasize that word “long-range”, long view of what had to be done, obviously, the automotive firms came to mind. It just so happened that when we begun to work our way into General Motors to see who could we talk to about this, we found out that they were doing an independent study of their own of next generation ethanol companies, and so we fit right into that discussion. And, they went through the same diligence process with us that they did with - I think they said 14-16,18 other companies, and said; we like many attributes of many of those companies. But we see in Coskata something that is elegantly simply, fast to market and with economics that look like there is as good or better than anything will be in the perceivable future, and that is when they made their decision to partner. That is when we made, certainly, our decision to say “thank you” for supporting us because, again, these really is going to take lots and lots of collaboration and cooperation between major corporations, entrepreneurial start ups, technology companies, universities, and governments to make happen.

Read much more after the jump.

ABG: Some of the things that were described about the partnership was that GM bought an equity stake in the company. A lot of those details you are not talking about.

Roe: Right.

ABG: What does the-as far as the technology that you are developing here, when that soon that when the plant start being produced; what happens to that fuel is not like it can only into on GM cars or anything -

Roe: Not at all.

ABG: I mean, what is GM get of helping you, it is sort of-they can say we are working with a cellulosic ethanol company. What are the boundaries for-you know, what that partnership means for you? Are there any limitations placed on you?

Roe: None. Again, I think the way the think of this is: General Motors, very clearly expects to win in alternative fuel space but they know that somebody has to produce bio-fuels. Somebody has to transport and distribute. Somebody has to retail, and it isn’t going to be just one entity; it is going to be a whole host of entities. And so, no, there are no restrictions in these or whatsoever. I expect that they will be doing similar things with other companies that both produce ethanol or transport it or retail it and they will try to create interconnections between all of that. So that, again, as fast as possible, these new fuel production and delivery mechanism begins to take place. That is the biggest hurdle right now to having viable alternatives to gasoline today is the infrastructure just isn’t there to the extent that it can be. We will be dealing with other people as well. We will be dealing with partners who will get in to the biofuel business because they have raw materials. There is a major forestry company for example that has their own forest. They want to use wood and wood-by product to make biofuels. They want to be in the business of building and owning of operating ethanol plants. And, they want to use our technology and we will help them to do that, and we will participate in that. And, they will have off-take partners who will take that ethanol that is produced into the marketplace and to the retailers and et cetera. That is the way this would work, but none of these relationships are going to be significantly binding from the standpoint of restriction.

ABG: So, it is also very mutual and beneficial for anyone involved.

Roe: Absolutely.

ABG: Some of the slides we saw earlier today pointed out or reemphasize the importance of bio-fuels in the 2007 energy bill-that was pass last month, 36 billion in 2025?

Roe: 2022

ABG: 2022. Long term, GM is working on the Volt, battery-powered cars, hydrogen fuel cars. What do you think the status of ethanol will be in GM or even in the American fuel use in 20 years, in 50 years or are you just focus on getting these to commercialization quickly, and it can be used for as long it is viable?

Roe: I think it is practical to think that these transportation fuels are going to be viable for significant periods of time. Gasoline is not going to go away, no matter what the alternatives might be. It is always going to make sense to have a wide variety of choices, which we do not have today. And, there is going to be economies that develop around those things, clearly. I think that one thing that I find GM saying that I think will be true is that as you begin to see electric cars or hybrid type vehicles coming more and more into the product selection, you will see more ethanol alternatives for the liquid fuel portion of that as well. So, I believe that ethanol have staying power. And remember, as much ethanol that is produced today is all primarily being done as E10 with very little E85, and E85 is really going to magnify the amount of ethanol that is going to be required. So, we are not really concerned right now about whether or not this is just a stopgap and then something else takes over. We should be so fortunate as a race of people on the planet if that would be the case, but these things tend to have a very, very long life cycles, as evident by the fact that we have been using gasoline for decades and probably we will be using it for decades as well.

ABG: Right. Yeah its, there is no end in sight for gas use even though the price is going sky ward. People have done some calculation and figured out that if we took all the corn that we grow in America and made it into ethanol, it would still make up a small portion of the gasoline that we use.

Roe: That is correct.

ABG: Considering the tremendous variety of biomass that you can use with your process, is there really a limit or is it limited by the amount of facilities that you can make to produce it?

Roe: Ultimately, the limits will shift and they will continue to expand but that will only come as U.S. agriculture or other countries, but let us just talk about the U.S. for the moment. U.S. agriculture adapts to the possibilities. I will give you an example. Today, forests have, on average. A 25- to 30-year type of maturity before the tress are cut and utilized, and so you’ve got trees at all different stage as being carefully grown and cultivated, and ultimately used without deforestation, right? In the future, we could be using a lot more of that wood to produce fuels but we will also be doing is there be planting row crops between the rows of trees. It will be switch grass, or it will be miscanthus, or it will be this other high-energy yielding crops that will change the phase of forestry and agriculture, but it will take time for that to develop. So, a crystal ball is very difficult to gaze into with regard to the future here because these is going to be an evolution, and it will grow and change with time, and there will be practical limits that we will hit just as corn hit, less we end up having issues and problems, but we also believe that for the next five to 10 years for sure there are a lot of other materials that we can convert that are simply waste. Construction debris for example, when some house gets torn down, is a perfect fuel for this process and there are collection centers for construction debris and construction waste that we can plug into. Same is true in areas that are tornado allies or hurricane allies, unfortunately tears down a lot of trees, tears down buildings and there are collection centers for that kind of material. We can build a lot of ethanol plants around those types of material and this doesn’t have anything to do with agriculture, does not have anything to do with growing things, it is just collecting them or setting up processes continuous to those, and that is what is going to happen.

ABG: And I think that will excite a lot of the people who come check out AutoblogGreen or are interested in this aspect of the automotive industry or even sort of the environmental movement in general, is finding ways to repurpose stuff that right now is considered waste or unusable. Somehow taking it out of the landfill, taking out of the disposal stream and making it something useful.

Roe: Well, and fortunately the folks that are in, the big players in waste handling and waste aggregation, and waste management are thinking the same way. They understand that landfills need to be a thing of the past, they understand that, and they want to still have a business, and so what that means is, if they are going to be the gatherers, what are they going to do with the stuff. We do a poor job in the U.S. of segregating and sorting waste to compare to some countries. It is much further along in some parts of Europe. And, with minimal handling in segregation of waste, we can turn a lot of that waste material, before it ever sees a landfill into other useable products, and this happens to be one of them. It can be ethanol because we can gasify that material and once gasified it is a relatively strict forward conversion to biofuel.

ABG: Have you been talking with landfill operators or anyone in that side of the-

Roe: We have and we fully expect to have commercial arrangements that we can announce in upcoming weeks and months around plans to work with those people with this technology to convert waste, that is waste today, to useful fuels tomorrow.

ABG: Anything you can talk about as far international plans or you sort of briefly mentioned it. Anything that you can hint that, as far as what might be coming?

Roe: Yes. We talked about the fact that food for fuel is a non-starter in many countries, but some of those countries are rich in other resources, either they have biomass or they have coal, which is a perfect feed stock for these, we just do not talk about much here because of the CO₂ footprint being so much different. When you talk about India, or talk about China, those areas were loom large, we believe, and we will be able to use feedstock of that nature, for example, to make liquid fuels locally from their own raw material. There is an interest in this technology in the Far East and in Asia by a major corporation that has the capability to help set up and make arrangements for utilization technology with Asian feedstocks, and then do trading and transport of the fuels. So, my guess is the way these would likely go is that the first dozen plants or so will likely be built here in the U.S. But, at that point we begin to look at moving into these other areas with our partners, our manufacturing partners, our collaboration partners like GM, into the areas were they want to see and need to see and want take ethanol fuel for transportation vehicles.

ABG: Can you explain a little bit more, why it makes more sense to possibly use coal as a way to create the syngas in other countries than it does here?

Roe: It makes sense from a raw material point of view if you use coal, period. Simply because it is relatively inexpensive. It is very concentrated. It is material handling into gasifiers as well known and well understood. The power of the CO2 footprint isn’t as attractive, for obvious reasons, and so as a result, we think it is important to position the company in its early going as a company that can and will produce fuels from truly renewable resources and coal is not a renewable resource. Now as soon as I tell you that, if you ask, “will these process ever be use to make fuel from coal?” I hope so. It would be stupid not to but we have to be mindful of the big picture story here and the big picture impact. I really think that in short order there will be some strong environmental arguments that can be made for coal-to-liquids using this process. So, as not confuse people with where we are headed and what we are really all about, that’s next. They will not be the first plants that we build, that is for sure, and at some point down the track, I am sure that is going to happen.

ABG: Okay. We will definitely be watching it.

Roe: Very good.

ABG: Thank you very much.

Roe: Thank you.

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Original post by Sebastian Blanco