Using Enzymes to Help Fight CO2 Build-Up 163
A reader writes to us: "There is a story in the New Scientist that details efforts to use enzymes that destroy ethanol as catalytic converters, turning noxious carbon dioxide into methanol. " The enzymes in question are actually those that are found in the liver - the same one that helps break down alcohol. Cool application of it, if this ever becomes reality.
Re:Another cold fusion-like "discovery"? (Score:1)
Methanol can more efficiently be used as a fuel in fuel cells than by simply burning it. Yes, they won't be released commercially until 2004 but they've been independently predicted to take over a hefty slice of the market pretty soon.
Methanol can more efficiently and easily be obtained a load of other ways such as from the natural gas that's burned off (read 'gone to waste') at oil rigs everywhere or from domestic and agricultural waste.
Re:This is a joke, right? (Score:3)
Basically, they're advocating using CO2 as what amounts to a chemically-based energy storage unit. Methanol may not be the most human or environmentally friendly substance, but it IS easily convertable back into energy, stable and easy to transport, etc. I could see this technology being used (in conjunction with solar or other more convential power systems) as a method of extracting portable energy to fuel rovers and such on Mars, where there's an abundance of CO2 in the atmosphere waiting to be harnessed.
All very 'blue sky', of course. I'd expect that there's other fuel source methodologies that would be more efficient than this process too.
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rickf@transpect.SPAM-B-GONE.net (remove the SPAM-B-GONE bit)
Re:"Noxious" Carbon Dioxide? - NOT (Score:1)
A glass? Evaporation!
Floating ice won't change the water level at all. Sure - the ice shrinks as it melts, but the shrinking is exactly the part of ice that was above water before melting.
So melting the north pole ice won't change the water level at all. Melting glaciers resting on land, such as the south pole icecap, will definitely raise the seas, but nowhere near a "waterworld" scenario.
Re:Hmmm... (Score:2)
Re:Applications in humans (Score:1)
Not to mention, this has absolutely nothing to do with the article, which was about converting CO2 to CH3OH.
Sorry to rant, but I get annoyed when people post stuff they don't know anything about, which has nothing to do with anything.
New Scientist is sloppy: chemistry misses steps. (Score:3)
Step 2: CHOOH
Step 3: CH2O
Step 4: CH3OH
I can't be the only person who noticed that the step from 1 to 2 added 2 hydrogens, step 2 to 3 deletes an oxygen, and step 4 adds 2 more hydrogens... without any mention of where these things are coming from and going to! I'm not a biochemist so I don't know anything about the chemistry of NADH, but a science article ought to at least explain how the equations are balanced.
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Re:Hmmm... (Score:1)
Said SO2, NO2, and H2O all combine in the atmoshere to form H2SO4 and HNO3 and promptly rain down on some forest somewhere, killing it. CO2, is much less water soluble, and accumulates in the atmosphere much easier. CO2 does have the distinction of being the primary control of pH in most bodies of water on the planet.
The problem with burning fuel in an air atmosphere is that you can't exclude nitrogen from the combustion chaimber (I.C.E., not a fuel cell) and always seem to end up with a teeny bit of NO2.
Temkin
Just a thought.. (Score:2)
1) CO2 scrubber produces methanol
2) Methanol is used to provide more power to a fuel cell...
(Obviously, not in violation of the 2nd law of thermodynamics, just squeezing out a little more fuel efficiency..)
I *don't* know if this would be practical (i.e. use more energy to power the CO2 scrubber than the fuel cell would produce... That would be kind of pointless...)
Re:"Noxious" Carbon Dioxide? - NOT (Score:2)
That makes sense, since coral reefs build upon themselves, so the removed carbon is accumulated in lower levels of the reef. Trees, on the other hand, have a relatively fixed level (you do build up soil, but I doubt at the same rate), and as trees die they decompose and the CO2 gets released.
My favorite alternative energy generation technique is off-shore wind generators, as there's plenty of ocean room for them (even on the shelves), and they would provide residences for waterlife. It seems like they would also provide bases for coral reefs, at least in the right water conditions, making them even better environmentally.
Re:Hmmm... (Off Topicish) (Score:1)
*holds hand up high*
Yep. Pissed out of my tiny mind. Had to type with 2 fingers, and close one eye, because depth perception of vision had gone.
Doesn't sound too hard? I was on call overnight for a trading system at a _large_ international merchant bank at the time.....
Fixed the problem, the got a free taxi home !!! Hehehehe!!!!
Anybody else got tales of drunken support?
Strong data typing is for those with weak minds.
Re:"Noxious" Carbon Dioxide? - NOT (Score:2)
it might lower the birth rate - nt (Score:1)
What does Phytoplankton taste like? (Score:1)
Re:Just a thought... (Score:1)
Deosyne
Re:This is a joke, right? (Score:1)
Hmmm... (Score:3)
Enzymes that destroy ethanol... noxious CO2 -> methanol...
So basically they're the kind of like me. I break down ethanol with my liver,
and then produce noxious methane (you know what i mean)
=D
Re:Hmmm... how about Silicon (Score:2)
"Noxious" Carbon Dioxide? (Score:2)
Carbon Dioxide is not 'noxious', any more than our exhaled breaths are. The threat it represents is that of a greenhouse gas, effectively operating as a heat retainer for our planet.
Although, now that I think about it, some people's exhalations are pretty noxious... ;)
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rickf@transpect.SPAM-B-GONE.net (remove the SPAM-B-GONE bit)
Re:"Noxious" Carbon Dioxide? - NOT (Score:1)
I said cover it. Earth is a closed ecosystem.
New Hangover Cure... (Score:1)
Re:"Noxious" Carbon Dioxide? - NOT (Score:1)
With due respect, qualifiers like "pretty much every" and "organization" do not take into consideration WHICH organizations there are out there supporting it. I have seen a a paper denounching GW theory signed by 15,000 scientists, independant and otherwise, all qualified in this field. The problem comes from the scientific method and not following up on the last few steps. These days, they make a theory, sign a treaty and gather no further evidence of impact. Its quite painful to be honest.
Another cold fusion-like "discovery"? (Score:2)
Re:You sir, are a moron! (Score:1)
~70-90% of bergs are sub-surface. I know that. Scientists refer to the atmosphere warming the oceans, where most of the ice in the world resides. At a height of 14,000 to 29,028 feet or so, no matter how much "global warming" occurs, the ice on top of mountains generally either sublimates, or stays put. Go on top of Everest in the middle of its warmest season, and look at all the lovely snow and ice. Now think of raising the temperature 5 or so degrees. And think about the ice still being there.
Re:New Scientist is sloppy: chemistry misses steps (Score:1)
Note: I'm not a biochemist, and my organic chem is really rusty. But if I had to hazard a guess, this would be it.
--Fesh
Re:"Noxious" Carbon Dioxide? (Score:2)
Yeah, but I'll bet those exhalations contain more than just carbon dioxide!
Re:This is a joke, right? (Score:1)
Now would that be useful! Humm, I wonder if I could get a patent on the concept...
Hmmm... (Score:4)
By far the nastiest gasses are NO2 and SO2. These give you that icky brown and yellow smog, which you can see over many industrial cities and major roads during a temperature inversion. They are also the predominant gasses on Venus and are the primary cause of the hellhole nature of that world. They also contribute FAR more to the greenhouse effect than carbon dioxide.
Now, if the enzymes could do something useful with those, I'd be impressed. Clean up smog AND remove the greenhouse effect in one easy sweep. Anyone want to develop a sulpher-based life-form?
Re:achem (Score:1)
Actually, now you're essentially just burning coal in order to create electricity AND run a car (by capturing the CO2 that would have ended up in the atmosphere anyway) instead of burning both coal and gasoline.
Yeah, you still burn methanol, and the energy to produce that has to come from somewhere (so I guess the above statement is a bit misleading, kind of like saying that electric cars are ZEV's since they don't burn anything), but if the energy required to create the methanol is significantly less than that required to create gasoline, then you have reduced the net CO2 emissions. If I read the article correctly, that is the thing they still need to find out.
"... message passing as the fundamental operation of the OS is just an excercise in computer science masturbation."
Re:Hmmm... (Off Topicish) (Score:2)
Oh yes, drunken surfing! Sure, what you see when drunk might cause your eyes to bug out, but the only thing that might crash is ill written code or operating system. Back in the old days when the pooter crashed, one could often see pretty colored characters dancing across the screen. And that was fun.
Coding while drunk often brings out the most lines of code and arguably the most productivity. I once wrote 200 lines of daring assembly language for a Z80 GUI with mouse and keyboard support [attaway.org] on such a binge. The rest of the weekend was spent just to get the damn thing to work!
Re:This is a joke, right? (Score:2)
Don't forget 100% miscible with water. Spill the stuff and any ground water or reservoir it gets into is going to be poisonous....
Methanol is a perfectly fine chemical, as long as you take good care of it. As a large scale fuel, its toxicity makes it Right Straight Out.
Ideally, they could do the same thing to produce ethanol, which is essentially harmless. Unfortunately, that attracts the attention of Mister Tax Man.
Re:Another cold fusion-like "discovery"? (Score:1)
Use the methane to... (Score:2)
Someone run with this idea.. please..
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Sean Dunn
DigitalAnvil.com
Re:There is no ice age coming! (Score:1)
Re:"Noxious" Carbon Dioxide? - NOT (Score:2)
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Look at the sea! (Score:1)
So, the real problem is that because the contact surface between the ocean and the air is too small, (and the temperature too cold?) and the air is above the ocean
Solutions:
What, you thought I actually had one?
Who knows, maybe when the CO2 concentration in the air rises, oceans will start absorving quicker (I am no chemist) and it will all self-regulate in such a way that Siberia is a nice place to live, and we can open resorts in Antarctica (the peninsula must have some nasty surf waves!)
Re:There is no ice age coming! (Score:2)
Yes, I recognize the satire of the posting I'm replying to.
Earth is not a closed system (Score:2)
Re:Another cold fusion-like "discovery"? (Score:1)
This is of course true - but retooling car plants for electric+fuel cell is a lot more complex and involves more commitment than doing a petrol engine>>methanol engine swap.
Methanol can more efficiently and easily be obtained a load of other ways such as from the natural gas that's burned off (read 'gone to waste') at oil rigs everywhere
This is of course true, and I firmly believe it is a crime to throw valuable resources like that away just because it was mixed with the oil - why destroy a dwindling resource?
but more importantly, I read the aim of this technology as wishing to reduce dependence on fossil fuels, and to reverse the CO2 increase caused by that - just changing the flavour of fossil fuel you use can't really help that.
or from domestic and agricultural waste.
Definitely - this is going to be produced anyhow, so should be used.
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Missing something, here (Score:1)
Also, don't forget that all the ice that's sitting on land (e.g. on Greenland and Antarctica) will end up in the oceans if it melts. The ice will go to the seas, the land masses will rise because of the removal of the weight of all that ice. Will that cause a net rising or lowering of sea level? I sure don't know.
Always and inevitably everyone underestimates the number of stupid individuals in circulation
Re:There is no ice age coming! (Score:1)
If that's the case, then we're really just along for the ride and the planet's at the wheel. We know the earth has undergone radical climatic changes in her past (egypt was relatively fertile back 6000 years ago, for example). Perhaps our latest climatic changes are just symptomatic of the 'next big swing'.
When it comes to weather on a geological time scale, we are pretty clueless. Good theories may abound, but unless someone can tell us with certainty when the next ice age is coming or when we're gonna go venusian most people will ignore the situation until it's "too late"... particularly when we can't even say with certainty that pollution we generate is the deciding factor in it all. In that case, is there such a thing as "too late" when really you don't have a significant ability to control it anyways?
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rickf@transpect.SPAM-B-GONE.net (remove the SPAM-B-GONE bit)
Re:"Noxious" Carbon Dioxide? - NOT (Score:2)
But like the above post states the greenhouse effect is what keeps us alive!
that and they keep saying global waming over and over. Last year was the 15th warmest on record for the 21st century. If GW were a serious problem, the last 50 years would be the warmest in a slow progression upwards.
Besides, I think the article is likely incorrect. CO2 is not noxious, CO is.
Re:Hmmm... (Score:3)
Nitrate is also produced by lightning, and IIRC the fertilizing effect is well-known. Adding too much puts it into rivers and lakes (promoting eutrophication and algal blooms), but that's once removed from the main issue.
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Re:New Scientist is sloppy: chemistry misses steps (Score:1)
Step 1: C02 + H2 -> CHOOH
Hydrogen cleaves one of the C=O bonds, with one H attaching to the C, the other attaching to the O.
Step 2: CHOOH + H2 -> CH2O + H20
One H and the OH group combine to form H20, other H attaches to the C.
Step 3: CH20 + H2 -> CH3OH
Hydrogen Cleaves the C=O Bond, with one H attaching to the C, the other attaching to the O.
This balances the equations, but I'm not sure which reacions would need to be done. Needless to say, without the enzymes, they're probably pretty hairy. This particular synthesis was very likely not practical before they started using enzymes as catalysts.
--Fesh
Carbon MONOXIDE is our enemy, not Carbon DIOXIDE (Score:2)
Last time I checked, Animals had a nice symbiotic relationship, we breath O2, and exhale CO2, Plants breath the CO2 and "exhale" O2...
Until we invented automobiles that burn hydrocarbons...
Our lovely vehicles spew out Carbon Monoxide(CO). Thisis both deadly to plants and animals.
Yeah, this article is nice, but it's not the levels of CO2 that we should be trying to reduce from our cars, it's the levels of CO. (Of course, reducing CO2 would help reduce the greenhouse effect, but that's a different story..)
H.
Suggested application has possibilities (Score:2)
Suppose you have a fuel-cell hybrid car. The fuel cells run at high pressure, so you can store the CO2 in tanks (perhaps along with the water, all dissolved as soda water). You can either dump the soda-water and buy more methanol (expensive, perhaps, if carbon taxes are imposed) OR you can hook up to the wind genny, solar panel or wave-power machine somewhere and use the CO2/NADH reaction to regenerate methanol and oxygen from the CO2 and H2O. This effectively puts the exhaust back into the fuel tank. You wouldn't necessarily have to do the regeneration in the car; you could dump the soda water into a tank at home or a station and regenerate it there.
This is equivalent to a battery-powered car, but without any effective daily-range limitation and "recharging time" of a few minutes.
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Re:This is a joke, right? (Score:2)
Only during the daytime. CO2 is used in conjuction with sunlight to produce O2+energy. During nighttime, plants consume oxygen just the same as you and I.
The above equation may be greatly overgeneralized but it's been quite some years since my Biology classes.
If that's what he meant, he was wrong. (Score:2)
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Re: (Score:2)
Re:New Scientist is sloppy: chemistry misses steps (Score:2)
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Energy in = energy out (Score:1)
Big Deal
Re:New Scientist is sloppy: chemistry misses steps (Score:4)
CO2 + H20 <==> H2CO3
(occurs without catalysis, but can be sped up by carbonic anhydrase)
H2CO3 + NADH + H+ <==> HCOOH + NAD+ + H2O
(catalyzed by formate dehydrogenase)
HCOOH + NADH + H+ <==> HCHO + NAD+ + H2O
(catalyzed by formaldehyde dehydrogenase)
HCHO + NADH + H+ <==> CH3OH + NAD+
(catalyzed by alcohol dehydrogenase)
Net reaction: CO2 + 3NADH + 3H+ <==> CH3OH + 3NAD+ + H2O
I think that's balanced. Biochemists are often lax about mentioning hydrogen ions and water molecules in a reaction because it's generally assumed that they're present in abundance in biological conditions.
No joke. (Score:2)
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Forget Global Warning this is a clever hack (Score:1)
New Scientist is kind of crazy to talk about this as being any possible solution to global warming because the energy requirements are excessive and most likely would have to come from a source that dumped CO2 into the atmosphere. And we may or may not need another source for producing methanol. But having shown that their technique works one can assume that other combinations of enzymes will be tried until something really useful is produced.
This reminds me of the proposal to use CO2 in the Martian atmosphere (and liquid hydrogen shipped from Earth) to generate rocket fuel. (CO2 + H2 = CO + H2O. CO + H2 + catalyst = CH4 + O2 (rocket fuel). Elctrolysis the excess water to extend the process.) It was clever, used largely off-the-shelf products and solved an formitable problem.
Having demonstrated that they can produce organics from raw materials, there are any number of possibilities one could speculate on that they could do next. One possibility would be to combine this catalytic converter with efforts to develope artificial chloraphyll. (I believe there was a slashdot article on that) Chloraphyll traps solar energy to liberate an electron, and this catalytic convertor needs a lot of free electrons. If one could successful pair the two processes together the result would be a methanol producing solar panel, which could be organized into farms out in the desert. Solar energy stored as methanol would be more transportable than electricity from solar panels and be available for a wider array of uses.
Brian Brown (beb01@sprynet.com)
Re:Excellent News (Score:1)
Correction (Score:1)
CH2OH + NAD <---> CH2O + NADH
Re:carbon monoxide and ADH (Score:2)
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Re:Another cold fusion-like "discovery"? (Score:1)
Anyway, what happens to the methanol? Is it burnt? That releases the carbon into the atmosphere anyway. Given that both burning processes (fuel->MeoH, MeOH->CO2) are less than 100% efficient (closer to 30%), you would burn more fuel this way, not less.
This only makes sense if you do something to sequester the methanol, like make it into plastic, which costs more energy. Of course, this is at the cost of making burning hydrocarbons considerably more expensive. I'd guess that you would use at least two to three times the fuel you do now.
Kind Regards,
Re:Just a thought.. (Score:1)
Adding more steps just makes the process less efficient. The point you're forgetting is that you don't get the CO2 for free; it takes considerable energy to drive the enzyme reaction in bulk.
It looks seductive, but you're falling into a "perpetual motion" trap here.
Kind Regards,
I've got a solution... (Score:2)
- Precipitate carbonates (calcium, magnesium) from seawater.
- Roast carbonates to oxides, capture CO2.
- Dump any undesired oxides back into the ocean, raising the pH, converting bicarbonate ion to carbonate ion, and helping absorb more CO2. (MgO may be worth saving for conversion to metal.)
- Convert CO2 to CH4 or MeOH using whatever process is desirable. Use as fuel elsewhere.
If you have enough cheap energy, this might actually be feasible.--
Biological cars? (Score:1)
Re:I've got a solution... (Score:1)
1. Precipitate carbonates (calcium, magnesium) from seawater.
There is not enough salt in the world to do this, but I suppose the salt could be recycled at a higher energy cost. This isn't the real problem though.
2.Roast carbonates to oxides, capture CO2.
The real problem is the energy cost of doing this.
No kidding. It's not as expensive as preparing the metal ions for you first step though. But this isn't the real problem either.
3.Dump any undesired oxides back into the ocean, raising the pH, converting bicarbonate ion to carbonate ion, and helping absorb more CO2. (MgO may be worth saving for conversion to metal.)
You've got this step more or less right; use the CO2/CO3[2-](aq) equillibrium to drive CO2 out of the atmosphere into seawater. You could, in principle, do this.
4.Convert CO2 to CH4 or MeOH using whatever process is desirable. Use as fuel elsewhere.
This is the step that makes no sense at all. The energy requirements will be big, but probably not as much as the salt processing in your steps 1 and 2. No, the real problem is what you do with all the methanol. You know you'll have to produce enough to fill the Great Lakes to make a difference, right? Every decade or so?
Methanol is not the worst chemical in the world to handle, by any means, but it is toxic to almost every form of life on the planet.
Never mind that you would need horrific amounts of energy (probably more than the world currently produces).
Kind Regards,
Re:"Noxious" Carbon Dioxide? - NOT (Score:2)
Actually some of those polyps are quite brave! They leap into the water, and hope that the currents will take them into a new area suitable for growth.
Useful for a Space habitat? (Score:1)
put energy in to the system, and most of our energy generation
involves the production of co2.
However, energy is one of the things which is not in short supply when
you're in orbit, but carbon is. This might be a useful part of the
life support system of a space habitat. Allowing co2 to be recycled
as methanol using plentiful solar energy.
The next questions is: what do you do with the methanol?
some other ideas (Score:1)
with cool videos here: http://www.mbari.org/ghgases/deep/release.htm
The Iron Solution (Score:2)
Since photosynthesis removes CO2 from the atmosphere, The Iron Solution [msu.edu] to the global warming problem proposes to radically expand photosynthesis on the planet by fertilizing high nitrogen, low phytoplankton regions of the ocean with the element that limits phytoplankton growth in those regions: iron.
A side benefit of this sort of agriculture is that it would tend to lessen agricultural demand for land-based ecosystems that are currently being slashed and burned for agricultural production, such as rain-forests. Phytoplankton is at the base of the food chain for high protein organisms like fish. People would have to get used to eating less pasta and more halibut -- a small price to pay for the salvation of millions of species, except maybe for Italians.
Solar power it (Score:1)
Re:New Scientist is sloppy: chemistry misses steps (Score:2)
Enzyme-containing fuel cell: problem! (Score:1)
A solution to this might be to use enzymes from deep-sea vent bacteria, they have evolved to stay active under thermal stress. But they still have a finite lifetime, eventually they will lose activity. In living cells, enzymes have very short lifetimes before they are broken down into amino acids and recycled.
Re:Look at the sea! (Score:1)
Re:There is no ice age coming! (Score:2)
Up until 1750 it was the pattern I'd expect to see in a steady system, more or less steady with random variations about the mean.
Unless you can give a reasonable explination for a steady increase since 1750 (When the industrial revolution dramatically increased the amount of fossil fuels being burnt), your theory doesn't hold up.
Scientists Discover Plants Can Convert CO2 -> O2 (Score:1)
A team of scientists working on studying the interaction between tropical frogs on rain forest plants may have made an important unexpected discovery.
Dr. James Tertweiller, who has been living and working all over the state of Parana in Brazil for the last 3 years, said there's some indication that plants -- from the mighty, thick vegetation of our rainforests, down to your household cactus -- appear to be constantly converting carbon dioxide into oxygen.
"The implications are enormous," he said. "We've been so worried about the rising CO2 levels in the atmosphere. But if the plant life biomass of the planet is large enough -- and I think we might be able to acheive this in the forseeable future -- we can actually sustain a fine balance of atmospheric gases."
Policymakers around the world greeted this news with enthusiasm, but expressed some doubts about the economic viability of the plan.
Re:Hmmm... (Score:2)
Re:"Noxious" Carbon Dioxide? - NOT (Score:1)
Re:Just a thought.. (Score:1)
Example: Car produces a few liters of C02 that can be processed into methanol with 15 joules of energy.
Methanol is converted by a fuel cell to produce 17 joules of energy: net gain: two joules..
The problem with this: I have no idea what the energy amounts involved are. It just may be that it takes 17 joules to convert enough methanol to produce 5 joules (net loss: 12 joules)
You obviously can't run a car forever; but such a process might improve the mechanical efficiency...
Hmm... (Score:2)
Re:Hmmm... (Score:1)
One little problem for your assertion there... HNO3 dissociates in water to H+ and NO3-. NO3-, otherwise known as nitrate, is an essential nutrient for plants. It isn't plant-killer, it's plant food.
Close, but wrong, here's why.... NO3- is indeed plantfood, as is SO4--. But it's the hydrogen you have to worry about. pH is proportional to log[H+], or the activity of hydrogen ions (hydronium ions actually, H3O+) in solution. So while the anions are plant food, they exist in concert with highly reactive hydrogen ions, which lower the pH of water enough to cause damage to plant tissue. In most natural waters, this effect is buffered by CO2. CO2 forms carbonic acid when disolved in water and has a couple stages to its disassociation that resist the drop in pH. As pH drops ([H+] activity increases) the disassociation reaction shifts equilibrium towards H2CO3, which is volitile, and causes CO2 to exit the solution. Once the CO2 is gone the pH drops below 4 towards the really acid range.
This is why you see farmers put ammoinum nitrate and ammonium sulfate on their land rather than nitric or sulfuric acid.
Temkin
Re:Carbon MONOXIDE is our enemy, not Carbon DIOXID (Score:2)
If you want to kill a plant, then putting it in a O2 less atmosphere will do it much quicker than a CO2 less atmosphere, the difference between suffocating than starving.
Re:I've got a solution... (Score:2)
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Re:Hmmm... (Score:2)
Some anonymous coward dun said:
If I remember right, most sulfur-eating "bacteria" use hydrogen sulfide as an energy source. (They're delightfully weird critters in any case--more on that below.) Most of the sources of HS2 where sulfur-eating "bacteria" live are underwater "hot vents"--basically small underwater thermal springs and volcanoes--so MAYBE it could be applicable if you put them into smokestacks. ;)
Yes, there is a reason I use quotes around "bacteria". Most of the sulfur-eaters aren't true bacteria, but in an entirely different domain of life altogether (aka superkingdom) called Archaea, which actually has more in common with eukaryotes (like us and most stuff with mitochondria) than "true" bacteria. (As a neat aside--it's also thought that at least one branch of Archaea might well have become mitochondria. :)
Most of the Archaea live in what we'd term extreme environments. Many of the environments are thought to be similar to those of Earth when she was younger, and one big source of Archaea are in ecosystems around "hot vents" which--oddly--are also some of the only ecosystems on the planet which are not dependent on the sun in one form or another. Studies of these ecosystems (which also include big animals, like tubeworms and blind-crabs) have actually given scientists some ideas on how extraterrestrial life might survive (especially on places like the moon Europa--it's thought Europa has water under ice, and it's entirely possible that if the core of Europa is hot enough you might have hot-vents and maybe life)...especially since those animals live in areas that have been traditionally thought of as "dead zones" because surely NOTHING terrestrial could live there :)
Nitpicking (Score:2)
The entire article is about Carbon Dioxide, yet in their graphic of the chemical reaction, they show a nuclear power plant in the background as the generator spitting out "greenhouse gasses"...
Maybe I'm just picky because I grew up 3 miles from the Limerick Nuclear plant in southeast PA, and was forced to learn about it in HS, or maybe its because I work for a utility company. ;)
-- Scott
The greenhouse effect theory (Score:1)
My theory: incr CO2 -> more food for plancton -> more food for fish -> more fish in the ocean -> more food for humans -> more humans -> more CO2 -> etc.
I do on the other hand think we should try to limit it somewhat - but not go overboard like the media has (they just love armageddon stuff).
Reminds me of my childhood... (Score:2)
My mind spun with all the things you could use it for. Well, I'm a little older, a little less enthusiastic, and maybe a little more efficient. Now I know it's just another way to move energy around, like batteries or gasoline.
If it's as efficient as they make out, combined with the new cheap methanol fuel cells, this could be the clean, portable energy solution of the next century. It has every advantage of the hydrogen energy system (well, maybe it loses a little in simplicity of generation), plus the extremely important bonus of how easy it is to move methanol around. There are plenty of other ways to get methanol, too. Forget solar power plants: fermentation of vegetable matter into methanol is simple; you could fuel your cell phone out of your compost bin.
Skip step 3! (Score:2)
O_o
Suggested application is lame (Score:2)
1. Thermodynamics say that in order to convert CO2 into CH3OH you have to use quite a lot of energy. So whatever you burn like that will be bloody inefficient
2. The only productive thing you can actually do with the CH3OH is burn it so back to CO2. It can be converted into some plastics and stuff but the overall demand for such material is not high to satisfy a massive generation of CH3OH.
3. Better stop cutting the brazilian forests. I actually check the labels on all the stuff I buy and try not to buy anything that is not:
3.1. Made of recycled paper (this technology is dirty as well but still better than nothing).
3.2. Made out of planted forests in scandinavia or somehewhere else where they plant at least as much as they cut.
In btw: these labels are almost standard on anything sold in the EU.
Come on! (Score:3)
Re:Another cold fusion-like "discovery"? (Score:3)
*I* wonder how high a percentage of CO2 the mix bubbled through the converter really needs. The problem with electrically powered cars has always been that not enough stored power could be carried for the speed of the motor you want - Motorway speeds will eat all the power you can load onto a mobile base fairly fast. *however*, if you have roadside petrol(gas) stations doing this conversion, you can have the following process:
- Electricity is produced in non-polluting manner (difficult, I know)
- At petrol station, electricity+atmospheric CO2 is converted to methanol and stored (continuous process)
- Cars refuel as normal at station
- Cars burn fuel, returning the original CO2 to the atmosphere it came from
As far as I can tell, this gives you "clean" electrically powered cars, but indirectly.--
Re:"Noxious" Carbon Dioxide? - NOT (Score:1)
NADH recycling (Score:1)
NADH is a very important substance of the energy managment in living beings. Nature has invented a way of recyling it, it's called Life. I'd be really amazed if they found a way of recyling it synthetical. (ok, they will, but probably not in my lifetime). My best bet is genetically manipulating bacteria to do this for us.
Applications in humans (Score:2)
But just look at how societies have always grown up around the simple fact that it takes hours for people to sober up, and imagine a world without that. My cynical mind wonders what hell might replace it.
Nit (Off Topic) (Score:2)
>Important Proir cases effecting DECSS, a must read
affecting, not effecting is correct here...
(this particular mistake is one of my pet peeves - really makes people sound/look uneducated. Almost as bad as "your/you're" problems)
Re:This is a joke, right? (Score:3)
Plants do produce much less O2 during the nighttime, but they do not consume it - they do actually continue the process. Without the added energy of the sun/light source they can only keep this up for so long, but if you check out a book that does a good in depth analysis of photosynthesis and the Kreb's cycle, you should be able to get all of the info there.
Though it used to be common practice in hospitals to remove plants from the patients rooms at night for the very reason you mention - the newer, more accurate research has led to the repeal of these actions.
New Scientist is a popular, not academic, mag. (Score:2)
New Scientist does not even bother captioning most of their pictures, which is probably appropriate because few of them are very relevant to the stories in which they are placed. It is not even in the league of Scientific American in that respect. On the other hand, it is a weekly, and it is fairly thick. I've subscribed to it and found it expensive (in US$) but about as worthwhile for the money as Science News (burden of glitz outweighed by volume of coverage).
--
achem (Score:2)
As for your second idea, that's pretty much how rocket propulsion is done, and you can imagine that what's appropriate for rockets is perhaps not appropriate for cars, and in any event it's expensive and still requires a "big-assed" power plant to provide the electricity for the original electrolysis, because your idea of a closed internal combustion engine by definition couldn't do any work on the outside world (which is what driving cars is all about). Heck, you wouldn't even be able to idle the damn thing, since there's still some friction and you wouldn't get 100% yield if you tried.
Maybe you should patent it anyway, since the USPTO seems to deserve patents like that.
Excellent News (Score:2)
So you can have solar panals generate the electricity for these reactions. Who cares if you need lots of power, the sun supplies more than enough.
This produces methanol which you can then use to power those methanol, air breathing fuel cells that are in developement.
The fuel cells actually burn cleaner than Internal Compustion Engines so you get less nasties in the emmisions, and of course you take the CO2 and start it all over again.
Of course you can also burn it in Gas turbines, which have a nice clean exhaust as well.
Re:"Noxious" Carbon Dioxide? - NOT (Score:2)
--
rickf@transpect.SPAM-B-GONE.net (remove the SPAM-B-GONE bit)
Warming Makes Sea Lower (Score:2)
Sulphur...Yum... (Score:2)
Hey, leave that carbon dioxide alone! (Score:2)
Leave all that automotive carbon alone --- it's our future feedstock!
This is a joke, right? (Score:4)
Methanol is not ethanol. Methanol is toxic when drunk, toxic when the vapor is breathed, toxic when absorbed through the intact skin, and really bad news if you squirt a couple of drops in your eye.
Besides, methanol's only uses are as a fuel and as a raw material for making other compounds. When you burn or catalyze the Methanol as fuel, you get the CO2 back again, and when those other compounds are eventually consumed or destroyed, you get the CO2 back again (and other noxious compounds, by the way).
CO2, on the other hand, is food for plants. If you "cleaned" the atmosphere entirely of CO2, all plants would die, no more O2 would be produced, and eventually all O2 would be consumed and all animals would die. Yes, we are animals, and we would die too.
The New Scientist article is baffling because it seems to have things backwards. Our livers (in the unhappy event anyone is foolish enough to consume methanol - not ethanol) in fact convert methanol into formaldehyde and formic acid, not the other way round. It is this formaldehyde and formic acid that account for the toxic effects - notably permanent blindness and destruction of the nervous system and cerebral cortex (not real fun). I know the article waves its hands and says, oh, the process is reversible. Maybe...
methanol, get drunk cheap! (Score:3)
Nurse: what's the matter sir?
you: I'm about to go blind because of methanol poisoning.
(Now is the time to drink some methanol)
The usual way to cure methanol poisoning: saturation with ethanol. Up to the point of getting poisoned by the ethanol.
Disclaimer: If you actually try this you're pretty stupid, so don't come complaining to me (if you can find me on sound and smell)
//rdj