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BARD Refines Ambitious Algae Farming Plans 1

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BARD Refines Ambitious Algae Farming Plans

“20,000,000 gallons of algae oil / biodiesel per acre per annum” are in reach, according to the firm’s website.

BARD Refines Ambitious Algae Farming Plans

In November of 2009, we reported on a curious algae biofuels firm -- BARD, Biofuel Advance Research & Development.  At the time, the firm was making aggressive claims about algae oil yields. The number the firm used was "8,571,428 gallons of algae oil per acre."

That number is several orders of magnitude higher than what the algae industry considers their best yield. We contacted a number of experts who disputed those claims and we received some less-than-friendly correspondence from the CEO, Surajit Khanna (see below).

The firm's website has since been updated with an integrated biofuels operation business plan. An integrated plan does provide some additional outputs but still wedges the firm between several volatile commodity products like soy beans, food and fuel.

And instead of tempering that 8,571,428 gallon number with a more conservative estimate, BARD has upped the ante and their website now states: "Biofuel Advance Research and Development, LLC. (BARD) has entered into an agreement with The Green Institute Inc. to construct and operate a commercial scale algae system pilot facility located in the Commonwealth of Pennsylvania. The planned facility will produce algae biomass to be used to produce biodiesel, and other commercial products. The pilot facility is estimated to produce 20,000,000 gallons of algae oil / biodiesel per acre per annum [emphasis added]. Initially, the pilot facility will produce 43,070 gallons of algae oil / biodiesel per annum using 6 modules of photo-bioreactors covering 84 square feet."

More from the firm's website: "BARD is building the first full composite plant in the north east region of the United States. The facility will combine a 60M gallon biodiesel production plant and a 66M gallon soy solvent extraction plant and a 66M gallon algae cultivation, harvesting and extraction plant. Soybeans and algae will be used with an established multi-feedstock technology. The global markets for biodiesel are entering a period of rapid growth and transition, thus creating a key opportunity. A fundamental transition in the global fuel production market is now occurring."

"With this composite plant, BARD has a key advantage over standalone bio fuel plants. The soy extraction process has three additional sources of revenue over and above biofuel. The additional revenue sources are soy meal, soy hall [sic] pellets, and the over-production of soy oil. The algae extraction process has one additional source of revenue over and above the biofuel, which is algae cake. BARD has developed a plan to use technology, which is laboratory proven, to produce biodiesel from algae. The algae will be grown on site by the use of carbon dioxide and a photo-bioreactor technology."

The firm is still using photobioreactors and an electromechanical oil extraction process, both methods thought to be highly energy intensive which no firm has yet built to scale. We've contacted the firm and await their response.

In the meantime, here's biofuel investor Vinod Khosla's verdict on algae feedstocks:

Photosynthetic algae are touted as something exciting due to very high batch yields (suggesting greater than 4000 gallons per acre).  However, as discussed earlier, they currently appear to be cost-prohibitive for biofuels applications due to high culturing and processing costs, except perhaps for use in specialty products (e.g., omega-3 supplements, proteins). There are several cost breakthroughs that we believe are necessary for photosynthetic algae to become competitive: continuous high-strain yields (strain survival and resistance to contamination). That said, there is always the possibility of an unexpected technology disruption of the traditional efforts. The Synthetic Genomics effort, is one such possibility, though unpredictable, long term and with substantial GMO risk, and potentially high reactor costs. Other photosynthetic efforts like Joule are also potential shots on goal. In my view none of the traditional efforts seems currently viable to reach economic costs for fuels and some of the newer approaches are too early to assess predictably. This statement is based on our firm having evaluated dozens of business plans based on photosynthetic algae, though there are ones we have not evaluated.
 

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Excerpts from November 2009 article:

Biofuel Advance Research & Development (BARD) is claiming in Biofuels Digest that it can produce "8,571,428 gallon of algae oil per acre." This is from Biofuels Digest's "50 Hottest Companies in Bioenergy."

BARD is in the process of constructing a commercial-scale algae system pilot plant in Pennsylvania that will produce algae biomass to be used to produce biodiesel, and other commercial products, reads the company's website. The pilot facility will begin by producing "43,070 gallons of algae oil/biodiesel per annum using only 6 modules of photo-bioreactors covering approximately 100 square feet." The oil is extracted via ultra sound and the algae are dewatered via centrifuge, said the company on its website. BARD doesn't rely on sunlight, but advanced lighting instead.

The website doesn't specify how much energy is used by the centrifuge, ultra sound and 24/7 algae lighting. After successful operation of the pilot plant the company will try to construct the 66 million gallon capacity algae cultivation, harvesting and extraction plant. 

"I have absolutely no doubt that photobioreactor technology can produce yields at this level – just requires the inputs of photons, CO2 and other trace nutrients," wrote Jim Lane, publisher and editor of Biofuels Digest, in an email. "Doing so economically is another matter – bioreactors have had a tough time so far."

The rest – or at least the cross-section of algae executives and researchers we contacted – take a different view. BARD would have to have a wildly disruptive technology to meet these volume claims. Most algae proponents say that algae, when it becomes mature, will yield 5,000 to 10,000 per acre.

Put another way, the U.S. consumes about 20 million barrels of oil a day. Under BARD's plan, it would only take 35,557 acres of land filled with bioreactors to supply the U.S. with transportation fuel. That's 55.9 square miles, or a farm slightly smaller than Reno, Nev. (57 square miles). Some are more optimistic, theorizing that algae could yield 100,000 gallons of oil an acre of year, but Bard appears to be the only one in the millions bracket.

Dave Jones, the COO of LiveFuels, did some back of the napkin math and expressed some incredulity via email. "How does BARD expect to amplify the total sunlight by a factor of 40x" and "get nearly 4,000x more than first-order expectations?" he said.

According to an algae guru from NASA, also queried via email:

Hmm... According to John Benemann [an algae expert], with 'normal' systems we can expect at the very most 5,000 gal/acre/yr from open ponds. This either means that BARD is doing something very revolutionary or they are not telling us that their yield of 9+ million gal/acre will take them 1,886 years to produce! We have a real problem with light unless of course we use artificial light and then we have an energy problem or a photonic materials cost problem... These guys may have discovered a miracle organism, but I suspect they are selling snake oil rather than making algae oil.

Riggs Eckelberry, CEO of Origin Oil (OOIL.OB) commented: "Intensive industrial algae production may yield between 50-100,000 gals per hectare per year. These are not validated numbers, but they are more realistic than the numbers stated [by BARD]."

According to Bob Walsh, the CEO of Aurora Biofuels: "While it is hard to comment on another company's technology when you are not under the hood, I can say we believe the absolute theoretical maximum is 10,000 gal/acre/year. The white paper GreenFuel Technologies: A Case Study for Industrial Photosynthetic Energy Capture by Dr. Krassen Dimitrov, PhD, March 2007 goes through the calculations. 

"We also believe engineering systems [photo bioreactors and their ilk] will not deliver huge increases in productivity. Engineering has to drive out the typical costs of algae production but cannot double production. Our most recent scientific progress, which decreased photo inhibition increased our capability from the 2,000 gal/acre/year level to consistently producing above 4,000 gal/acre/year.  Our scientific team believes 6,000 gal/acre/year is an achievable target."

And Henrik Vibe Scheller, a professor and researcher in plant biochemistry at Lawrence Berkeley National Laboratory had this to say in an email:

The claim by BARD is almost 2000 times higher than what can be achieved in ponds. Other ideas I have seen use big mirrors or reflectors and then use light guides or optical fibres of some sort to get light into the reactor. The light has to be distributed throughout the tank to avoid the self-shielding effect of the algae themselves. With such a system there is no theoretical limit to the production per acre (or 100 sq feet) – it is just a matter of building the tank tall enough and harvesting the light from a large enough area outside of the reactor. The tank could easily be more than 10 m high. Why not 100 m? 

So it is quite possible to obtain the yields they talk about, but I don't think it is very relevant. The light would still have to be harvested from a much larger area. The problem with this type of system is that they are very expensive and it will take incredible steps in engineering to make it profitable. You never know what engineers can come up with; however you still need the area for light harvesting, so most people in the field believe that open ponds will be the way to go. And even that is quite expensive with current technology.

One really odd thing with the claims of BARD is that they say light will be supplied 24 hours. There is no way to store light, so the only way to do that would be to use another form of energy, e.g., electricity (which could be provided by wind energy and burning of residue from the production) to make light. But that is utterly inefficient. Perhaps if you have a nuclear plant with too much capacity it would make some sense, but then it would probably be much better to use the energy to use a biomass gasification and Fischer-Tropsch process to convert lignocellulosic biomass to liquid fuels.

So even though the yields per acre are possible in a photobioreactor, I still have the feeling that they are selling snake oil.

BARD says it received $40 million in funding from an undisclosed source according to an announcement made about a year ago.

CEO Surajit Khanna didn't tell us much but he wrote this in an email:

Why you or your other folks are comparing our numbers from our technology to open pond based algae technology? Completely bogus. We are not even talking here about open pond nor using sunlight. Because you all don't know what this means so you are challenging our figures.
 
[Whether] you or your people believe in our technology or not – how does that matter to BARD? We are not seeking any funding from you nor seeking any help. Why would the public care about your comments? We don't have to prove to you anything. Just for your information our data is based on our proven lab scale technology. Our scientist has been working on this technology since 1957. The same lab scale [has] been transformed to pilot-plant scale.

That 1957 date is interesting. That's 20 years before NREL began studying algae in the late 1970s. Much of NREL's research became the basis of today's work. And if their scientist has been working on this since 1957, he'll need to work fast to see the results of his efforts.

Tue February 08 2011 12:53:59 AM by Tomcatino 2430 views
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