Posted on 08/02/2002 7:43:06 AM PDT by Paradox
Carbon dioxide turned into hydrocarbon fuel |
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19:00 31 July 02 | ||||
Exclusive from New Scientist Print Edition | ||||
A way to turn carbon dioxide into hydrocarbons has caused a big stir at an industrial chemistry conference in New Brunwick, New Jersey. Nakamichi Yamasaki of the Tokushima Industrial Technology Center in Japan says he has a process that makes propane and butane at relatively low temperatures and pressures.
While his work still needs independent verification, if he can make even heavier hydrocarbons, it might be possible to make petrol. It has carbon chains that are between five and 12 atoms long - butane is four atoms long.
The work suggests the tantalising prospect that CO2, the main greenhouse gas, could be recycled instead of being pumped into the atmosphere.
Many people have tried before to make hydrocarbons by mixing carbon with hydrogen gas in a reaction chamber at very high temperatures, but yields have always been pitiful. Yamasaki has used hydrochloric acid as his source of hydrogen ions.
He bubbles the CO2 into a reaction vessel (see graphic) where it is heated to about 300 °C at 100 times atmospheric pressure. The heat and pressure are low enough, says Yamasaki, to make it feasible to scale up the reaction so it can run on a power station's waste heat.
Using iron powder as a catalyst, Yamasaki says he has made substantial amounts of methane, ethane, propane and butane, which he was able to vent off as gases when the mixture cooled. If he can improve the catalyst's performance he is hopeful of making heavier hydrocarbons such as petrol, too.
William Siegfried, who has lead similar experiments at the University of Minnesota in the twin cities of Minneapolis and St Paul, says his group was only able to make methane at far higher temperatures. But his process also used a nickel-based alloy as a catalyst, rather than iron.
Siegfried's group was investigating whether natural methane deposits might have formed chemically with the metal in rocks acting as a catalyst rather than forming from the decay of rotting biological material over aeons.
Unless Yamasaki's technology can make the more valuable heavier hydrocarbons such as petroleum, which are liquid at room temperature, it will not be much more use than present-day bioreactors, in which bacteria that like to feed on CO2 are induced to produce methane. "Organisms have a special talent for that kind of reaction," says Siegfried. |
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Eugenie Samuel, Boston |
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The CO2 in the Martian Atmosphere will be used to produce methane by the so-called Sabatier process (discovered by the French chemist Paul Sabatier in the nineteenth century). The reaction converts carbon dioxide with hydrogen at elevated temperatures into methane and water (Stephen J. Hoffman, David I. Kaplan,1997):
4H2 + CO2 ---> CH4 + 2H2O
Since no hydrogen is found in the Martian atmosphere, the hydrogen has to be imported from Earth or from the Moon and NEOs. CH4/O2 rocket propellant only consists of 16% hydrogen by mass. Therefore, the reduction in mass that has to be brought from Earth to Mars is still substantial. A quick calculation shows that about 0.222 kg of H2 and 1.222 kg of CO2 are needed to produce 1 kg of water and 0.444 kg of CH4."
Most of us remember from our biology courses that green plants (through photosynthesis) have been doing this for eons.
If so, this professor will never live it down.
(steely)
See, they take seawater, and using copious amounts of electricity, turn it into HCl and NaSO4.
Now this nice gentleman thinks he can take CO2 and combine it with the HCl, to create the light petroleum products like butane.
Isn't this a bit like making a perpetual motion machine?
Of course it does. If it didn't the 2nd Law of Thermodynamics would have been broken. You do know that the making of gasoline, diesel fuel, etc., also all require more energy than the fuel supplies, don't you?
They do not. The energy in gasoline and other fossil fuels is concentrated sunlight. It was stored over millions of years. Thus we are able to obtain large quantities of energy which have been stored for our use. The total energy pumping the crude out of the ground and refining it cannot exceed what is obtained by burning it. This would be (a) silly, (b) impractical, and (c) useless.
How is the machinery used to make refined fuels to be powered? If making the fuel took more energy than combusting it, one could never make any refined fuel--you'd simply run out of power, unless the entire economy were based on nuclear, hydro, or solar power.
THINK about it before posting such nonsense!
--Boris
Sunlight powers the machinery of the Plants, which grow, then die, then get squishied , heated, and turn into fossil fuels.
It would be, if he were suggesting to then run the power plant off the results of the process and use the plant's electricity to produce the HCl. However, since the system has two energy inputs, the fuel burned by this plant and the fuel burned by the plant powering the HCl factory, it's okay for the end result to contain more energy than one of the two inputs. Essentially, if this process were very efficient, it'd be like running a power plant off HCl rather than hydrocarbons.
Of course, the process won't be even remotely that efficient. Instead, the point is to combine the plant's waste productsheat and CO2with HCl to create a product that, one hopes, has more economic value than the original HCl did. Actually, even if the petroleum products have less value than the HCl, this can still make financial sense. It transfers the pollution from this generator to the one that powered the HCl plant; varying regulations may make that worthwhile. And if the HCl plant is run off nuclear power or some other "free" electricity, then the process reduces CO2 emissions as a whole. Not that there's any objective value to that, but again, regulations may make it worthwhile.
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