Bacteria to Destroy Greenhouse Gases 207
twivel writes "According to ABC News and this article, scientists are working on creating a bacteria that destroys CO2 and other greenhouse gasses. I wonder what happens if the bacteria works too good?" I thought green slime was vulnerable to fire and crushing weapons, just not edged weapons.
Re:Doesn't DOE know any thermodynamics? (Score:1)
Coal plants - the new solar power (Score:1)
I find this all pretty amusing. Essentially what they are proposing is a coal-burning energy plant, which is made zero-emission by using solar-powered algae. And as the point has been made, why not just burn the algae biomass instead of coal, thereby making it a very complex solar powered plant? What's the advantage over photovoltaic technology?
But it's not such a bad idea really. Consider the pros and cons -
Overall: Photovoltaics are probably better in the long run, but using existing coal burning plants on algae biomass, or using this scrubbing technology to at least reduce emissions, could ease the transition and avoid the vexing obstacle of year round 24/7 power production and storage.
Energy is key here (Score:1)
That is to say, the idea is flawed. Even if they get green slime to survive at high temperatures, they bring sunlight into the smoke stacks, and they think of something clever to do with the carbon generated, they still can't bring in anywhere near enough sunlight to photosynthesize away all the CO2.
Back to the drawing board. Burning coal is still evil.
It's good, but then... (Score:1)
Never did too well in biology class, otherwise I'd probably know...
Re:But I love CO2! (Score:1)
Bacteria heaven .. (Score:1)
Easy answer. Create another Bacteria to eat the first bacteria
Macka
Re:Physics: Matrix Style (Score:1)
In other words... "Can you imagine a Beowulf cluster of those things?"
Re:Just like Star Trek (Score:1)
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oh no (Score:1)
ok ok ok, never mind
Re:This could be very dangerous (Score:1)
Re:Good/Bad? (Score:1)
I'm fully aware that the bacteria in question are unlikely to start the next plague. I was making a play on the previous poster's words. In fact, it sounds like these bacteria are specifically adapted for the hot insides of smoke stacks, so living in a human would probably be too cold for them :)
Re:Stop screwing around with nature! Gah. (Score:1)
I think the question is whether nature has already been screwed around with once by humanity. If we are causing global warming, then it's our responsibility to do something about that, even if it's just out of a selfish need to retain a global environment that we're well-adapted to.
I don't think anyone is interested in affecting the global climate just to be doing it; the focus is on counterbalancing or rolling back global climatic changes that we have already made or that are under way which we realize in hindsight were undesirable.
Re:Stop screwing around with nature! Gah. (Score:1)
That's ridiculous. We don't have accurate temperature data from earlier than the 1800s, and even then the data wasn't collected from a diverse set of locations. So, then, how could we know that "the current Global warming trend is 10 to 100 faster than any previous naturally occurring trend."? The simple answer is, we can't.
We can know about CO2 trends through antarctic ice cores, but we don't really know how closely CO2 correllates with global temperatures. What those CO2 trends do reveal, though, is that a great deal of the carbon dioxide is due to natural causes, such as volcanos.
The usual environmentalist response at this point is to start raving about sulfur dioxiode, CFCs, and water vapor and how they matter more than CO2. If that's the case, then why rant about CO2 in the first place? Speaks volumes to me about how well thought out the environmentalist argument is.
Re:sounds safer than oil-eating bugs (Score:1)
The oil-eating bacteria that were used on the Exxon Valdez spill are naturally occuring - not the product of some scary scientist with bad hair.
Native oil-consuming bacteria occur all over the world. It's just that there usually isn't enough oil around to keep local populations very high.
Like most bacteria, each type requires highly specific conditions (look up the etemology of "specific" and "species") to thrive. Most live in a narrow band of temperatures and require oxygen and light - so they can't live in an oil well.
That being said, it's only a matter of time before someone breeds a "super-bug" that _can_ live in oil wells, and then we can solve this oil addiction once and for all
--Charlie
Re:Read the Article, then Think (Score:1)
...man, think I could get some 'blue-green algae' to do my taxes?
\//
Re:Reference? (Score:1)
Wide spread use (Score:1)
Idiots... (Score:1)
No, the answer, of course, is to NOT burn coal. Go nuclear :-)
Re:Good/Bad? (Score:1)
Re:Somebody flunked Physics 101 (Score:1)
So it would seem that we'd be taking one step forward and two steps backward...
Rather naive (Score:1)
The issue is of cource that you will need as much energy to split CO2 into C and O2 as you got from greating CO@ from C and O2 in the first place.
The suggested coal powerplant with solar collectors would, if they can make it work, be just a solar powerplant as the burning of carbon nets zero energy surplus.
This begs the question of if this really is an efficient solar plant?
And what about nighttime? Does your turbines really enjoy beeing cooled and reheated every day, or are you planning to spend energy on storing the CO2 until morning...
Re:Physics 102 (Score:1)
Sure. They crate sugar of it. That'ts even worse, as the energy contained in that molecule is even higher than for pure carbon.
And when you run out of sunlight (i.e. nighttime) what do these bacteria do? Why, they do the same any photosynthesizing organism do. They burn sugar and creates CO2...
Sorry folks. You can't fight entropy.
Re:Somebody flunked Physics 101 (Score:1)
Its a basic engineering problem. Yes, total solar influx is many many times greater than total human power usage. So why use coal? Well, how do you actually turn solar energy into something we can use? Solar panels are very expensive, since they are essentially huge LEDs that work in reverse. Also, have you ever tried to use solar powered lights? Seems ill advised, at best. Photosynthesis is much more efficient than steam plants. But nobody has figured out how to make that work to power a server. If you have a suggestion, by all means, let someone know.
On a side note, this is also the idea behind 'biomass fuels.' basically, you use plants to create hydrocarbons and sugars that you then convert to fuel. This produces CO2 and H2O, just like regular combustion (because it IS regular combustion) but since the fuel was created by plants using atmospheric CO2 and H2O, it doesn't raise greenhouse gas levels.
Really what we need to do is get the asteroid mining in gear, so that we can cheaply mass-produce platinum catalysts and other rare-metal products, so that we can build big fusion powered cracking chambers that convert excess CO2 to useful chemicals. Of course, that does kind of require cheap, clean fusion power, too, but hey, whats a little boondoggle among friends, eh?
Re:Oops! (Score:1)
Oh come on. How long do you really think it would take the human race to deliberately pollute the atmosphere?
Re:Somebody flunked Physics 101 (Score:1)
I guess that's pretty clean. Yeah.
If I had a couple barrels of radioactive sludge, heck, I could spread it on my vegetable garden.
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Does Anybody Bother to Read the Article? (Score:1)
Re:Oh yeah, that'll work (Score:1)
>The problem is where to put it
That one's easy. Just burn it. It all just goes away then...
But getting rid of the Bacteria becomes a problem (Score:1)
Then we get rid of the plankton by bringing in...
...
...
...
And finally we bring in monkeys to kill them.
And the monkeys will die in the antarctic winter!
SUCCESS!
---homer simpson
You didn't read the article (Score:1)
I'm tired of this. The above post obviously didn't read the article - I quote:
Any such artificial attempt to restore equilibrium in a natural system runs the risk of overcorrecting
and then:
The proper course of action with regards to greenhouse gas is to lower our emissions
For everyone who read the article, its clear that the system, which I should add, is still on the drawing board, is about reducing current emissions out of smokestacks... Exactly what the above comment laments our failure to do.
So, to all of slashdot: read the fucking article before you fucking post!
Oh yeah, and read the fucking article before you fucking moderate!
Re:I wonder what happens... (Score:1)
I was wondering if someone would be me to it.
Great, now I want the miniature version! (Score:1)
Re:Doesn't DOE know any thermodynamics? (Score:1)
it does photosynthesis, invented some 1.000.000.000 years ago
Re:At the stack (Score:2)
Now if they could get the carbon to come out as diamond, they'd have people interested in cleaning up the environment!
Not really. Diamond is popular because Debeer's has a monopoly on it, and so they have a vested interest in keeping the prices artificially high. they make sure hollywood can get plenty of diamonds cheaply, so that it looks like the rich love diamonds. They lock most diamonds up in their vaults so that supply goes down.
Open up their vaults and sell all those diamonds, and poor people would find diamons cheaper then a coat at the local good will.
Re:Just like Star Trek (Score:2)
But consider this - we also act on that system, and our interferences can and will be regulated by the system.
Since Gaia isn't real merciful or discriminate when it comes time to do a little regulating, perhaps we should reduce the need for self-regulation, rather than crying 'Damn the torpedoes' and getting our energy via the cheapest means available.
I'd rather not be indiscriminately killed off during a self-regulation incident.
Thanks anyway.
Don Negro
Re:Oh yeah, that'll work (Score:2)
Re:Read the Article, then Think (Score:2)
By bubbling it through a large artificial lake, a part of the CO2 might, at least by day be converted back into useful biomass.
But you are right, the USA could contribute a lot more by reducing energy consumption. American industry (and other parts of society) use so much more energy per productivity than other industrialised nations because political pressure has always managed to keep energy prices low. In Europe and Japan, where energy was expensive, the industry had no choice but to invest heavily in increasing energy efficiency.
It's already happening! Run! (Score:2)
Most of our oxygen is already produced by bacteria and other single celled algae in the top 10 meters of our oceans.
The reason why we have such an incredibly low CO2 concentration in our atmosphere (a fraction of a percent) is because these algae have optimised this process (called photosynthesis) to perfection over the estimated 3 billion years that they have existed.
The only difference is that if you run the emission of a smoke stack through a bubble bath of cyano bacteria, the CO2 gets fixed before it enters the atmosphere, and not after, which is good, because CO2 emissions apparently cause their 'harm' by changing the CO2 concentration in the atmosphere. Change is evil and scary after all.
Re:The problem with sensible dissent... (Score:2)
The theory of CO2-caused global warming is not just disputed by hardline-creationists (who assume the earth must have been created as it is now and cannot change) and other crackpots.
The radiation band which is absorbed by atmospheric CO2 is already absorbed for just about 100%. It is dwarved by the absorbtion by for instance water (oceans, clouds). It is therefor not by default undisputable that more CO2 will lead to more absorbtion. Covering your umbrella with plastic does not nessessarily help keep you dryer.
I'm no longer as convinced as I used to be that CO2 is unjustly blamed, but I still have strong doubts.
Re:Somebody flunked Physics 101 (Score:2)
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I wonder what happens... (Score:2)
I thought this sounded too well to be true.
Wonderful... (Score:2)
At the stack (Score:2)
Now if they could get the carbon to come out as diamond, they'd have people interested in cleaning up the environment!
Re:Somebody flunked Physics 101 (Score:2)
Bacteria are cheap, and they replicate themselves. This is the same old story. The less efficient solution is usually the cheaper one to implement. The good part is that the inefficiency doesn't waste a particularly scarce fuel like gasoline, and the inefficiency doesn't cause more pollutants to be produced. We've moved that inefficiency to the sweet spot where we can afford it - sunlight is free.
Re:Just like Star Trek (Score:2)
It was also the first "kinetic adjustment", known by some as "percussive maintainance".
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Re:Somebody flunked Physics 101 (Score:2)
The "loss" is the effort, resources, and sheer space required to build and maintain the several *square kilometres* of mirrors that this would require. My argument is that if you're going to this much trouble and expense, you might as well build a photoelectric or photothermal power plant instead of a coal-and-mirrors plant (less effort for the same amount of power).
This is *not* a "free addition" to an existing plant. The cost of the addition will be comparable to the cost of the plant itself.
Re:Somebody flunked Physics 101 (Score:2)
Actually, coal is largely carbon, if I recall correctly. Natural gas, oil and tar are hydrocarbons.
Either way, a fossil fuel plant burns its fuel fairly completely. A hydrocarbon will give you CO2 and water out. There are no CH bonds for the bacteria to draw energy from (which would still require oxidation).
Fossil fuel plants will produce soot, but not very much of it compared to the amount of fuel that they process. Soot is, after all, fuel that can still be burned.
Re:Somebody flunked Physics 101 (Score:2)
Sunlight doesn't magically route itself to the smokestack. The proposed project would use mirrors to divert it.
Enough sunlight has to come into the stack to convert all of the plant's oxidized carbon back into non-oxidized carbon. This represents about a third of the energy throughput of a fossil fuel plant, even if it's burning something rich in hydrogen.
Because bacteria have pretty lousy energy conversion efficiency, you'd probably be better off just building an equivalent area of solar panels instead of your mirrors and coal plant to produce power. You'll need to use at least this much area in mirrors already. This is what the original poster was talking about.
Re:kinda scary (Score:2)
Humanity has been "Playing God®" since the day it decided to pick up some innocent, natural rocks and force them into unnatural shapes, and later into unnatural unions with sticks and vines.
There is no such thing as "playing god" (well, except maybe in this context [lightoftheworld.com]). What you are really objecting to here is scientists "playing Human", because they have some extremely effective tools for doing so.
Certainly, any intentional, major environmental change needs to be very carefully considered. What I think is "kinda scary" is the way a chorus of panicked "AIIIEEE!!! Playing God®!" rises up in response to people merely thinking about things like this.
Thinking is always good, even if Doing may not be.
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"They have strategic air commands, nuclear submarines, and John Wayne. We have this"
Re:Good/Bad? (Score:2)
Famous last words:
Like people? :)
Re:Somebody flunked Physics 101 (Score:2)
Nah, they just put a picture of a Playmate on the cover of the proposal and run it by a Congressman. Maybe it's not a technical review, but it's a review of sorts.
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Re:Isn't this tampering with nature? (Score:2)
Um, yes it is (basically. Well, read this) (Score:2)
Re:Words of wisdom... (Score:2)
Re:Stop screwing around with nature! Gah. (Score:2)
The problem with sensible dissent... (Score:2)
Global warming makes sense in very simple terms: more CO_2 in greenhouse means a hotter greenhouse, so at first glance it should work that way on a planet. Of course, in the real world then you have to consider natural climate drift, the plants that absorb CO_2, and all sorts of other factors. We don't know all those other factors, so of course we don't know for sure what releasing CO_2 at the current rate will do. It's a big, tricky problem and "scientists" who act as if it's solved are impostors.
To put that in short form: I agree about the doubts expressed (though I'm skeptical about the conspiracy; "scientists" have been confidently wrong too often in the past for me to just assume a conspiracy is needed).
However, I imagine a lot of people skimmed this message (that I am replying to) and thought "Hmm, a creationist thinks that global warming is a leftist conspiracy. What a crackpot!" and moved on, disregarding any evidence presented, and subconsciously blacklisting future suggestions that global warming is less than scientific fact.
Whether you are a creationist, or just found the creationist site interesting or amusing, it hurts the case for skepticism about global warming to link to a site which criticizes evolution while criticizing the science behind global warming.
This isn't meant as criticism or a suggestion, just an observation. I wonder how many reasonable ideas get dismissed because they're promoted by people primarily identified by the unreasonable ideas they hold.
(incidentally, the linked creationist website was full of really bad logic; I'm not 100% percent convinced that evolution is correct (for that matter, I occasionally wonder if I'm a brain in a jar living a simulation... I'm 100% certain of no physical fact), but if it's not then our world was certainly created by a trickster god because there is no rational explanation for such things as ancient fossils without an alien intelligence playing a huge prank on us. Arguments that He did such a sloppy job that we can catch him at it are contrived and unconvincing.)
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Karma casino, place your bets!
Re:Stop screwing around with nature! Gah. (Score:2)
Check out http://www.globalwarming.org [globalwarming.org] to at least understand what's going on before you fall for the global warming catastrophists' "the sky is falling" line...
Somebody flunked Physics 101 (Score:2)
Either this takes more power for the light than you get from the power plant, or you have a perpetual motion machine. And if your light source (sunlight?) actually does provide more power than the plant produces, why bother with coal?
As far as I can see, all this story does is point out that Federal bureaucrats fund programs completely without technical review.
Oops! (Score:2)
Great!
I'd just be exceptionally concerned about accidently wiping out too much of the greenhouse. Without it, we'd be Mars.
"What's the temperature outside, bobby?"
"Um... according to our kelva-meter, 200K... so -73C? If I wear my enviro-suit, can I go out and play? It's above -100!"
--
Shaun Thomas: INN Programmer
Re:Doesn't DOE know any thermodynamics? (Score:2)
There are two obvious questions: what is the other final product of the process (what do the bacteria do with the C?) and what is done to it? And: where do the bacteria get the energy from to split up the CO2 again?
The second question is very interesting because if the energy we have to put in (in the form of Sunlight) equals the energy we got out of the coal then why not start with a solar plant and forget about the whole roundabout way with the coal?
The third question is: what will they do at night, when their bioreactor is in the dark (and probably even producing a little CO2).
That just recreates the CO2 (Score:2)
All of these uses amount to burning them (metabolism is the same reaction, but slower), which will release exactly the same amount of CO2 to the atmosphere that were taken out.
It all boils down to that those carbon atoms have to end up somewhere.
So what do you do with the sugar? (Score:2)
And if anyone eats it, it goes back to CO2 + stuff.
Why we don't have a CO2 atmosphere (Score:2)
When a plant splits up the CO2, it gets rid of the O2, which it has no use for, and uses the C to build plant material, such as wood, leafs etc. The plant does not remove any more CO2 from the air than what is accounted for by the carbon atoms in the plant itself.
When the plant dies and gets eaten, the C recombines with O2 and is back in the atmosphere as CO2.
why don't we have an atmosphere full of CO2?
Because over the billions of years, large amounts of CO2 have been turned into plants, who instead of being eaten for different reasons ended up underground, and turned into oil.
Also, a huge part of it is bound in the existing set of living plants. If all plants were to die and get eaten or burned, a huge one time addition of CO2 to the atmosphere would occur.
SLIME (Score:2)
In this case, the other product pretty much has to be more green slime.
So the question then becomes what to do with all the green slime that's filling up your power station. If you just throw it out, it'll die, rot and convert back to CO2.
Pretty clueless scheme...
Re:Somebody flunked Physics 101 (Score:2)
Have you even thought about the numbers? Photsynthesis is what, 5% efficient? Certainly less than 10%. The powerplant/grid system is at most 30% efficient (probably less than 20%, but let's let that one slide). Producing sugar requires MORE energy than is release when the coal is burnt (lb for lb of cardon). So for every Watt of power that is actually consumed, you need in excess of 30 Watts of solar energy. Probably 50-100 in reality. Yikes, that's a LOT of ground that has to be covered with mirrors. Anyone know the energy density of sunlight?. Remeber, you have to double the requirement to allow for nightime (on avarage, 50% of the time). Those mirrors will degrade and require maintainance/replacement. This is also environmentally damaging. Not as much on an acre-for-acre comparison, but there will be many times the acres required (which will ultimately cover grass or other flora, hence degrading the environment). Then what do you do with all the bacterial sludge produced? I doubt if it can be disposed of in an environmentally friendly manner, as this will release the cardon back into the atmosphere. It will require transportation an disposal which will both require additional energy, upping the entire bill.
I can't prove which approach is more environmentally sound, but there are serious reasons to doubt this one a priori.
Growing a biologically oil-rich bacterium and then using it as a fuel source might well be a much saner approach. Of course, it all comes down to actual experience and measurement, but being "natural" because it uses "bacteria" doesn't in any way automatically make a method "better".
To All You Whiners (Score:2)
Caution is not free. Caution would say that we should never have built cars, because they harm the environment. Caution would say that we should not have built the internet, because we may become reliant on something that is unreliable. Caution will damn us to whatever technology is tried and true, destroy innovation, and plunge us back into the dark ages.
This message is not intended to be funny.
Good/Bad? (Score:2)
Re:Just like Star Trek (Score:2)
Besides, there's no evidence that current CO2 levels are much higher than prehistorical levels. And besides, global warming is probably a good thing, since it increases arable land area, providing a place for more plants to be grown, thus reducing the amount of CO2 in the atmosphere.
And furthermore, Gaia is adaptable. If Gaia's temperature increases, more clouds form, reflecting more of the sun's heat away from Gaia, thus reducing the temperature. This is a self-healing system, folks, and no amount of human intervention or hubris has, or can, change the system more drastically than it already has been changed many times before humans had anything to do with it.
ice 9 (Score:2)
Re:This could be very dangerous (Score:2)
In this case, given that the bacteria thrives best in high temperatures (130 F), and they're going to some lengths to create a growing environment for it, I don't think escape is a serious threat. It doesn't sound like THIS STRAIN of the bacteria could survive in the environment outside the plant.
Of coursem there are other strains. And admittedly, overproliferation of algae is a problem in some ecosystems ('algae bloom'). However, my understanding is that this general type of bacteria is one of the most common in the world - it probably exists in one form or another in just about every body of fresh water. You find green algae EVERYWHERE. There's very little risk of introducing it into a new environment that's not prepared for it. Anywhere it
--Sean
Re:Somebody flunked Physics 101 (you flunked chem) (Score:2)
First of all, there's nothing wrong with this equation - except that you left out the concept of losing mass to energy creation. Since so much energy is contained in mass - it makes sense that you would be able to keep converting your material back and forth and getting energy; it's just that the material shrinks a la everything else in the world, ie: not free energy.
Secondly, in any chemical reaction - there are always other compounds produced from reactions in some amount, some are completely unstable and break down into something else, some aren't... ie: you would also get, Carbon monoxide, Cyanide... and a slew of other carbon-something compounds; just in smaller amounts, so mass is lost that way.
I agree with you 100%, why not just use the solar power and not the plant - well because the solar power can not at this time be converted well into direct useable energy. In a very real way, this will utilize solar power if the recombinant carbon could be used again.
unfortunately your entire argument is flawed in that carbon in fact does not combust. To combine stable C2 with oxygen you need to actually add energy to break it apart and have it recombine with oxygen. I do believe the energy required is more than the energy gained by the fusion of C and O2. As these guys [psu.edu] note, "the basis for most coals, is a large, carbon-based molecule that makes up 30 percent of vascular plants such as trees.". Coal is made up of carbon based molecules and not carbon itself.
This is why when you have a fire, you are left with black ash that does not burn; Carbon [myhometechie.com].
Re:Oh yeah, that'll work (Score:2)
Agreed. However, remember Earth Science 101? The earth's original atmosphere had no O2, only CO2. Where did all the C go over millions of years? Not petroleum, but into rocks. Limestone (CaCO3) is a fantastic sink for CO2. If we could find an efficient way to convert the CO2 into limestone or another inert mineral, we could prevent further accumulations of greenhouse gasses in the atmosphere.
Conservation of mass (Score:2)
If we were really out to get rid of CO2 in the atmosphere, we would grow millions of tons of vegetation and plankton in shallow inland seas and then bury the material under sediment before it could decompose. Then we would just have to remember not to dig it up a couple of million years later and set it all on fire... Doh.
Oxygen Euphoria and Starving PETA-people! (Score:2)
Quoted from article:
"I wonder what happens if the bacteria works too good?"
Well, that's pretty simple to answer.
Bacteria consumes CO2 to turn it into oxygen and sugars.
CO2 not available for plants anymore. Plants die.
Government scraps all emissions testing programs, forces automakers to put carburetors and Kettering points back into cars, and then encourages everyone to buy SUVs.
Excess oxygen in air means that simply yawning can create drug-like euphoria. Yawning is banned, probably by the Republicans of such open-minded and fun-loving states as Mississippi and Alabama, and punishable by long jail terms. A criminal element springs up, which allows people to yawn - for a price. Starbucks shares skyrocket due to growth from law-abiding non-yawning citizens. Employers hire only people who are blood-tested to show high caffeine, because they're obviously not yawners; civil rights groups outraged.
With no grass and trees and stuff for the PETA-people to eat, they starve; while McDonalds takes over the market selling burgers made from genetically engineered cattle which chow down on the bacteria.
Lighting a cigarette becomes significantly more hazardous than it already is. Driving your Kettering-point-equipped Lincoln Navigator while smoking is now impossible, due to incandescence of the glowing ember being reflected off the inside of the windshield.
In short, probably not as much as you would expect.
[grin]
Gimme! (Score:2)
The Linux Pimp [thelinuxpimp.com]
Re:It could be done, but ... (Score:2)
Except we're not talking about taking corn (of which only a tiny part can be used) then putting it through another process (fermentation) then putting it through another process (distillation) to make the fuel.
The pond-scum powered diesel ran on the pond scum itself, not on a distillate thereof. It required minimal processing. It might not be any good for powering automobiles, but it might work for small-scale power plants. It's certainly going to do better than photovoltaic cells.
I agree in the long term that we HAVE to reduce our use of fossil fuels rather than trying to cure the symptoms.
Re:Sounds like a good plan but.. (Score:2)
Perfect! (Score:2)
CaCO3 is aka calcium carbonate. So here's what we do:
1) Drink a glass of milk to get a good deposit of calcium on your upper lip ("got calcium?")
2) Breathe normally
CO2 in the air on the way out of your mouth/nose combines with the Ca on your lip to create CaCO2. The extra O is left as an exercise for the student.
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What's really going to happen is this (Score:2)
Well, that went fine they say.
Second, they decide to let it loose in low-income apartment buildings and prisons (since the latter comprise 40 percent of US housing by this time) in the smokestacks of the coal furnaces.
But, they ruled out the other materials in the smokestack. We get biogenetic adaptation of a living organism and
Now we've got furnaces breeding little fire devils. And once they see those BSD commercials, they create their own little mobile fireballs to explore outside the smokestacks and find Open Source (which is what they call Heaven (or H.ll if you'd rather)).
Naturally, they take great glee in poking their little pitchforks into Windows 2010 boxen and frying out the OS, replacing it with their own.
Now look what you've done!
kinda scary (Score:2)
"I don't think that will work, and I don't think it's something we should do," says Cooksey. "We have no idea what the consequences of injecting CO2 into the ocean would be. Many scientists are violently opposed to it."
Does the recent trend in science of "playing God" frighten anyone else? This is seriously large scale, with a possible catastrophic outcome. This might sound trollish, but haven't they though of eliminating the source of the excess CO2, as opposed to dealing with the byproducts?
no mention of any "other greenhouse gases" (Score:2)
I see no mention of any "other greenhouse gases" in the article. The article states that the cyanobacteria feasts solely on carbon dioxide.
Re:Oh yeah, that'll work (Score:2)
This is a non-problem, of all the worries human society on this planet has, "what to do with cyanobacteria or cyanoalgae" is not one of them. Use it for pig-slop, or sell it as a special additive to smooties from Jamba Juice, or scatter it onto tundra, or use it as a fertilizer component, or whatever.
My point is, that the bacteria/algae are not a pollutant, at worst they are a non-toxic waste-product, at best it's a marketable product. Digging Carbon out of the ground isn't problematic for the atmosphere unless you pulverize and oxidize it.
as far as re-release of their carbon goes, that would mean that the sugars in the bacteria had been consumed by some animal (or, technically, the bacteria itself) and I don't think of that as a "bad thing". I don't think the world is suffering from an excess of food products...
Carbon, not Nuclear Waste (Score:2)
Physics 102 (Score:2)
It might be as bad as many think.... (Score:2)
So provided they aren't looking to change the genetic structure of this creature, and attempt to provide it an environment it is used to living in, hopefully the chances of rapid mutation/evolution should be small. After all, if they are already feeding off of CO2 and thriving by the billions out in nature, there doesn't seem to any detrimental effects upon the environment currently due to them.
Of course, if exposure to radically new chemicals and waste allows for a increased chance of mutation (since they've most likely never been exposed to the crap they potentially might be), we could have a problem. Especially if the bateria adapts to survive and proliferate at normal temperatures. I suspect it still needs some medium to grow in, but if it were to become airborne, there could be the (hopefully very small) probability of them consuming CO2 right out of the atmosphere. This could lead to impacting vegetation growth...and if our vegetation cannot survive, we ourselves could have a big problem (ie: lack of O2, food sources, etc).
Not your normal AC.
No danger! (Score:3)
Cyanobacteria already produce the majority of our oxygen. There are unbelievable, unmeasurably large quantities of them in the upper few meters of our oceans. They form a significant fraction of all bio mass on earth. I wouldn't be surprised if they formed the majority of all biomass, but I'm not sure about that. Cyano bacteria are the very reason why our atmosphere contains so little CO2 and so much oxygen.
The 'harm' CO2 is said to cause is not through toxicity, not even because of it's infra red absorbing qualities. What people are worried about is a CHANGING CO2 concentration.
By running the emissions of smokestacks through a bubblebath with cyano bacteria, the CO2 is fixed by these algae before it enters the atmosphere, instead of first having to enter the atmosphere, and then the ocean before it is fixed. Thus the CO2 doesn't change the concentration in the atmosphere.
Inherent Safety of high-temperature bacteria (Score:3)
Also, remember how we reduce water pollution by treating sewage and other point sources - it goes into variants on ponds or vats full of bacteria that eat up the nutrients and outgrow the bad bacteria. This isn't much different. Then there's all the stuff that gets eaten by bugs, big bugs, little bugs, smaller bugs that eat them, fungi, molds, and the rest of the organic gucky stuff that makes up the food chain and carbon cycles.
Re:Somebody flunked Physics 101 (Score:3)
6H2O + 6CO2 ----------> C6H12O6+ 6O2
That's photosynthesis.
Re:Oh yeah, that'll work (Score:3)
The solution is very simple. You burn the plants that you're growing in your power plant to generate electricity! Instead of digging up coal, removing carbon from the ground and putting it into the air, you use a comparatively closed cycle of taking carbon out of the air and then putting it back in. Essentially you've moved to an indirect solar power system; you're storing solar energy in the form of biomass. Biomass isn't a particuarly popular form of generation these days (except as a way of also disposing of unwanted plant matter, which is essentially the problem that you're proposing) but it does have the wonderful property of combining the energy density of fossil fuels with the non-greenhouse causing properties of other renewable energy sources. You can bet it's going to get more popular over time.
Re:This could be very dangerous (Score:3)
The critique is not of the theory, but the virtual impossibility of safe implimentation. Sorry, I wasn't terribly clear before. In this game, good theory and safe implimentation are both needed for an idea to be worth serious consideration. If it can be done, I'm all for it. It is a clever idea.
Nothing new... (Score:3)
Re:Stop screwing around with nature! Gah. (Score:3)
You are aware that the current Global warming trend is 10 to 100 faster than any previous naturally occurring trend. And that this trend is a result of a large increase in CO2 levels in the atmosphere due to human interference. Global warming is *not* a natural event. And even if it were I think that we have a right (and as we caused it a responsibility) to stop it. Don't remember the exact statistic but something like 90% of the populuation of the earth lives with in 50 vertical meters of the sea. We have to stop global warming to avoid displacing all these people (though admitedly sea level rise is only projected at a few meters, but still enough to displace millions). If there were an asteroid heading towards earth would it be "human arrogance" to want to stop it and save the lives of millions? I certainly don't think so.
And Bruce Willis clearly agrees with me :)
Re:Isn't this tampering with nature? (Score:3)
Oh, so it's sorta like Microsoft and Microsoft Outlook then?
Just like Star Trek (Score:4)
My point is (and this is perhaps not so directly applicable to the article, but is reminiscent, anyway): Why is it that we so often look for technology to provide a quick fix for what is really a very complex and difficult social problem? Obviously, it's the easy way out, but does it really work? Think about all the various technical schemes for locking down copyrighted content that we have been discussing lately.
If we can come up with some technical way to reduce the CO2 output of smokestacks, then great. However, I still worry that unless we (and particularly we Americans) wake up and take up the difficult task of addressing all the causes of our massive CO2 output, this new method of scrubbing CO2 is not going to be enough.
Anyway, go cyanobacteria, because every little bit helps.
Comment removed (Score:4)
Re:Somebody flunked Physics 101 (Score:4)
But it's not.
I don't know the precise reaction, but it's something similar to CO2 + H20 + light = O2 + some form of sugar. I don't know how much energy is required to keep the photosynthesis going, but I think it's less than was produced by the burning of the coal in the first place. So, this isn't a full-circle cycle...it's two steps forward and one step back.
Over the whole process, you're taking coal and oxygen and water and ending up with sugar and oxygen and energy released.
Read the Article, then Think (Score:4)
The doctrine of Microbial Infallibility states that microbes can do anything that humans can, and that they do it faster-better-cheaper. But the idea that we put a bioreactor inside a smokestack or factory probably won't be practical. Sunlight is a limiting factor that they try to overcome using mirrors and light pipes. Light will still probably be a limiting factor as it will take a fairly large volume/surface area of green bacteria to slurp up the thousands of tons of CO2 that pass through a smokestack daily. Also, nutrients like N-P-K will be needed in large amounts to fix so much carbon. This will require lots of fossil fuel to fix the nitrogen, and will speed the depletion of limited phosphate resources. And what will they do with the tons of muck that are produced every day - it will probably concentrate more of the Mercury and Cadmium than Carbon.
While the idea is thought provoking, it is an idea that may cost more than its worth. There are a lot of green plants on Earth that have dampened the build-up of CO2, but cant stop it in the face of the growing hordes of industrial humans. This idea doesn't make too much sense to ecologists - even though green bacteria can grow exponentially and soak up lots of gas, they probably need to be coddled, or they would be doing it already!!
The next logical step? (Score:4)
We have bacteria here that photosynthesise. Their carbon source is the atmosphere, their energy source is sunlight.
Why not bypass the middleman (the coal fired powerstation) altogether: grow the bacteria, and harvest them as the carbon source for your power station? You'd have solar power without the need for photovoltaic cells (which are inefficient - and photovoltaic cells take more energy to make than they will ever produce in their lifetime) and the energy source can be stored in a convenient form (the harvested bacteria could be stored in tanks).
There has been some research a bit like this in the past - using pond-scum to power diesel engines. Apparently, you can design a diesel-cycle engine that'll run quite happily on dried pond scum. This effectively gives you a renewable source of energy for your engine.
You'll still need quite large amounts of land to produce enough bacteria or pond-scum, but if you've ever driven through Wyoming or the desert southwest (which has plenty of sunlight, an important ingredient) the land's there.
Oh yeah, that'll work (Score:4)
The other useful byproduct is TREE. CO2 is Carbon plus Oxygen (2 of them). Photosyntesis releases the O, leaving the C behind inside the tree. Since I can't imagine they want things growing inside these smokestacks, I have to wonder where the C is going to go.
The problem with CO2 isn't how to get it out of the air. The problem is where to put it (especially the carbon, since we'd like to keep the oxygen around) once it IS out of the air. All that carbon used to be locked up inside plants/animals (some living, some dead--like coal and oil). I suppose they could scrape the bacteria off every few weeks and put it in an oil barrel, but where do we stack the barrels? Put 'em underground to turn into oil next year?
How about a better idea: stop putting carbon INTO the air?
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Re:This could be very dangerous (Score:5)
Radical leftist "scientists" and their computer models have been known to intentionally lie to us before: witness the laughable computer predictions of the original 1970 Earth Day and the Club of Rome "Limits to Growth" fiasco which assured us with certainty that we would be completely out of oil, gas, copper, zinc, gold, and tin by now. Oh, and the pollution was supposed to be killing us off in the midst of the massive famines that have never happened. In fact, we now have more of all the resources listed above at our disposal than we had then, pollution is sharply down, and food production is at all-time record levels.
A few links that point this out the fallacy of global warming:
A good BBC article with coverage of some reasonable scientific dissent [bbc.co.uk]
A good overview of this from Reason magazine [reason.com]
Another article exposing the political as opposes to scientific basis of the IPCC report. [cnsnews.com]
http://www.globalwarming.org [globalwarming.org] is the source of these and other links exposing the truth about global warming, which is quite simply that there's no credible evidence that it even exists, and that the global warming crowd employs some of the worst science ever seen so long as it fits their political agenda.
It never ceases to amaze me that the numerous self-proclaimed libertarians on Slashdot are so willing to cede their liberty to a politically motivated cabal far more dangerous to our society than the RIAA or the MPAA could ever be. Wake up and pay attention to the things that really matter, and will impact your real freedoms in the future in ways that are truly Orwellian...
This could be very dangerous (Score:5)