Algae to the rescue

mheslep

Quote by mattlomb

Has research gone into coupling algae growth and fuel production with today's biggest human emitters of carbon dioxide - i.e. power stations? It seems to me that this could simultaneously solve three problems - the problem of what to do with the carbon dioxide emitted from these power centers, the problem of where to get free carbon for algae growth, and the problem of transporting the fuel required to generate electricity.

A browse through some of the single cell biofuel companies (algae, bacteria) will turn up references to where they claim to have agreement with some large CO2 emitter such as a large power plant to supply the required carbon. It seems though that the more direct solution would be to eventually use biofuels in a (tighter) closed loop: grow them from the power plant carbon and then burn as fuel in the power plant; the power plant electricity is then used instead to run the (future electrified) transportation system instead of biofuels.

OmCheeto

Quote by mattlomb

Has research gone into coupling algae growth and fuel production with today's biggest human emitters of carbon dioxide - i.e. power stations? It seems to me that this could simultaneously solve three problems - the problem of what to do with the carbon dioxide emitted from these power centers, the problem of where to get free carbon for algae growth, and the problem of transporting the fuel required to generate electricity.

I saw a video once of researchers at MIT doing this. As I recall, the heat loving algae progeny survived their cold blooded brethren, and did quite well.

It gave me hope.

But then, I'm that way.

Ivan Seeking

Quote by Ryan_m_b

Interesting analysis of biofuels in general by Dr Tom Murphy, essentially whilst they're good they don't get round the problem of needing vast amounts of space
http://physics.ucsd.edu/do-the-math/...biofuel-grind/

Personally I'm more interested in the idea of artificial photosynthesis. If we could cut out the middle man and just make solar panels capable of taking in water and CO2 and secreting Oil and O2 and do it cheaply and efficiently our problems will be greatly mitigated.

I didn't read the link entirely yet bt I saw that he goes right to corn-ethanol. That is a horrible example that is well known to be a loser. The increased yield per acre-year is one of the biggest advantages algae [and perhaps bacteria] has over other biofuel technologies.

As for the closed-loop power-plant concept mentioned above, note that in a closed loop, not only the water, but also the nutrients could in principle be preserved. Nitrogen fertilizer alone is a significant cost for an algae farm. So it seems to me that a closed loop power scheme may be the first viable option [economically] for a practical algae farm.

The entire farm would be, in effect, a biological solar cell farm.

Ryan_m_b

Quote by Ivan Seeking

I didn't read the link entirely yet bt I saw that he goes right to corn-ethanol. That is a horrible example that is well known to be a loser. The increased yield per acre-year is one of the biggest advantages algae [and perhaps bacteria] has over other biofuel technologies.

It starts with that but then goes onto algae which he does admit is better but has it's own problems.

Ivan Seeking

Quote by Ryan_m_b

It starts with that but then goes onto algae which he does admit is better but has it's own problems.

He seems to be too reliant on the notion of genetic engineering for solving the problems. Then he dismisses GE as a deal breaker without considering that other options exist.

The numbers for algae are certainly more favorable than for traditional (proven) biofuel sources. But keep in mind that we don’t see a clear path yet to squeeze useful juice from algae at appropriate scales/efficiencies. Much of the talk is around genetic engineering to make the algae excrete something useful in quantity. I need not repeat my case for non-complacency regarding this prospect. Also, anyone who has failed at aquarium maintenance (everyone who has tried?) knows how pernicious algae can be at clogging the plumbing and sticking to tube walls, etc. So they should also be working on genetically engineered teflon-coated algae. By that time I’ll also be able to enjoy that three-headed goat!

I can tell you first hand that he's right to express these concerns. But these are not insurmountable problems that can only be solved with genetic engineering. Note also that algae is already grown commercially, so some of these problems have already been managed for decades.

Ivan Seeking

ievolve brought to my attention this recent breakthrough in processing algae, announced today. Thanks ievolve!

The Michigan team’s findings will be presented today, Nov. 1 at the 2012 American Institute of Chemical Engineers Annual Meeting in Pittsburgh.

http://newenergyandfuel.com/http:/ne...l-in-a-minute/

I also spotted this encouraging interview from last April

He mentions that NASA is playing with growing algae in big bladders in the ocean, which was suggested and discussed earlier in this thread. Based on my experience, temperature stability is a huge advantage in partially submerged bladders, nevermind the endless supply of water.

When asked, if he had all the money he needed, how long would it take to start producing 100,000 barrels of fuel [oil] from algae a day, the answer he gave was - one year.

mheslep

Quote by Ivan Seeking

...
When asked, if he had all the money he needed, how long would it take to start producing 100,000 barrels of fuel [oil] from algae a day, the answer he gave was - one year.

Given your background knowledge, and that they currently have zero production capability, what credence do you give such a claim?

Ivan Seeking

Quote by mheslep

Given your background knowledge, and that they currently have zero production capability, what credence do you give such a claim?

I don't know the inside story with Origin oil but it has always been a matter of the cost at the pump. And I believe that is just a problem of throwing enough money at this to work through the mechanics of it. So given a Manhattan Project... sounds pretty optimistic but they clearly know more than I do about this. By March of 2008 I was arguing that given a Manhattan project, we could do this in five years.

What did he say the price was for pure algae oil, I think $5.25? At that price they are almost competitive at the pump now.

Ivan Seeking

When he mentioned that NASA's approach looks very promising, that suggested to me that they recognize the cost and other practical problems with land-based systems.

It will be intersting to see how NASA plans to manage heavy seas and storms. The only solution that made sense to me was to have a simple ballast system that allows you to submerge the containers to a safe depth until conditions are calm again.

Ivan Seeking

One last thought. It seems to make sense that retired oil platforms could be used as the hub of the farm. I did a quick google and found this. I got a number of other types of hits including converting retired platforms into luxury resorts.

The nonprofit Hubbs-SeaWorld Research Institute wants to use Venoco Inc.'s decommissioned Grace platform, in waters about 10 miles west of Ventura, to build an experimental operation that could produce up to 300 tons of fish annually.

http://articles.latimes.com/2004/feb...e-vnfishfarm13

dlgoff

Quote by Ivan Seeking

I don't know the inside story with Origin oil but it has always been a matter of the cost at the pump.

Gasoline is one thing but could existing "home oil heating" users benefit? Wouldn't that cost be competitive?

BTW Have you considered getting back into this somehow; invest, develop, etc?

Regards

Ivan Seeking

Quote by dlgoff

Gasoline is one thing but could existing "home oil heating" users benefit? Wouldn't that cost be competitive?

BTW Have you considered getting back into this somehow; invest, develop, etc?

Regards

Anything that can burn diesel should work. I know some specialized systems can but I don't know about typical oil burners. Like diesel, biodiesel and algae oils require high compression or very high temperatures to burn.

As for me, I have all of my eggs in other baskets now.

dlgoff

Quote by Ivan Seeking

Anything that can burn diesel should work. I know some specialized systems can but I don't know about typical oil burners. Like diesel, biodiesel and algae oils require high compression or very high temperatures to burn.

Thanks for the info Ivan. I'm not a user of "home heating oil", unless propane is considered to be, so I'll have to do some checking on how the burners deliver the fuel. Probably similar to how these work.

Andre

Whilst I can imagine future reasons to follow this path like aviation fuel, I'm wondering if things like if getting enough CO2 to the algeae photo assimilation process has been thought of.

mheslep

Quote by Andre

Whilst I can imagine future reasons to follow this path like aviation fuel, I'm wondering if things like if getting enough CO2 to the algeae photo assimilation process has been thought of.

Yes. Some of the photosynthetic plays have deals with local power plants and have built their demo operations immediately adjacent one, with the limitation that they become dependent on such sources. Then there are the bio fuel approaches fed by carbohydrates, i.e. they get their carbon direct from feedstock, and that approach thus becomes dependent on the transportation of biomass. Also note the concentration of CO2 in water, where the microorganism are grown, is several multiples of that which is present in the atmosphere.

Andre

Quote by mheslep

Also note the concentration of CO2 in water, where the microorganism are grown, is several multiples of that which is present in the atmosphere.

Sure, but consider some algae growing device in the ocean. I see 28 ppm carbon for seawater, so that would be 28 gram per cubic meter, but when you have converted that to algeae, it's essentially done. So if you want more yield, you'd need to provide carbon in some form.

Edit: Obviously more CO2 will enter from the atmosphere. But the total per year seems in the order of magnitude of 100 PgC (10¹⁷ gram) per year, the ocean area is about 361,132,000 km2 so the average flux would seem to be in the order of magnitude of 280 gram carbon per square meter per year. That seems a lot.

Ivan Seeking

Quote by Andre

Sure, but consider some algae growing device in the ocean. I see 28 ppm carbon for seawater, so that would be 28 gram per cubic meter, but when you have converted that to algeae, it's essentially done. So if you want more yield, you'd need to provide carbon in some form.

Edit: Obviously more CO2 will enter from the atmosphere. But the total per year seems in the order of magnitude of 100 PgC (10¹⁷ gram) per year, the ocean area is about 361,132,000 km2 so the average flux would seem to be in the order of magnitude of 280 gram carbon per square meter per year. That seems a lot.

I'm not sure what you're getting at here. Are you taking the amount of CO2 that enters the water naturally? As was discussed beginning at about post 340, CO2 is provided through forced aeration. Growth rates are too slow otherwise. And the aeration is ideally CO2 enriched. If we assume a nominal value of 60% processing efficiency for a farm, then we would expect 40% of all carbon could be returned to the system through the exhaust gases from combustion for power generation. So any farm could have it's own CO2-enriched supply of air.

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Andre Blog Entries: 2 Recognitions: Gold Member	Whilst I can imagine future reasons to follow this path like aviation fuel, I'm wondering if things like if getting enough CO2 to the algeae photo assimilation process has been thought of.