Ethanol to Hydrogen Reactor Developed 839
guacamolefoo writes "CNN reports that researchers at the University of Minnesota have developed a small (2 ft. high) hydrogen reactor that turns ethanol into hydrogen and then uses a fuel cell to turn the hydrogen into electricity. It notably does not use fossil fuels in the process. I knew that liquor would save us all some day."
Honesht Offishur (Score:5, Funny)
Hmm (Score:5, Funny)
Re:Hmm (Score:5, Funny)
My dad is about 6 feet tall and converts ethanol to methane.
Liquor! (Score:3, Funny)
an old saying (Score:4, Funny)
Making ethanol uses fossil fuels (Score:4, Interesting)
It notably does not use fossil fuels in the process.
It most certainly does use fossil fuels.
Ethanol takes energy to make. Lots of energy, possibly more than it contains [straightdope.com]. That energy comes from fossil fuels. Ethanol is not an energy source; it is a different way to store energy, and not a particularly efficient one.
Using Ethanol as a fuel is mostly a way to funnel money to Corn Belt farmers.
Re:Making ethanol uses fossil fuels (Score:5, Insightful)
No.
Our current industrial-ag model of crop production consumes quite a lot of fossil fuels. That does not mean the same thing as "growing corn and converting it to ethanol requires fossil fuels".
Producing ethanol requires nothing more than the sun, some corn, and bacteria. Yes, you'll notice that list includes an energy source, but not "oil".
Using Ethanol as a fuel is mostly a way to funnel money to Corn Belt farmers.
To that extent, I will agree with you, because we do use an industrial-ag model of crop production. We don't need to, though.
Re:Making ethanol uses fossil fuels (Score:3, Insightful)
Or even with fossil fuels, in such a way that it makes sense to do at all...
Inquiring minds want to know.
Re:Making ethanol uses fossil fuels (Score:5, Insightful)
Using the hydrogen of course. Duh.
Re:Making ethanol uses fossil fuels (Score:5, Insightful)
I don't claim to know whether this is a net gain when all energy costs and byproducts (chiefly carbon dioxide) are taken into account, but don't dismiss the idea out of hand by spuriously equating it to the burning of purified ethanol.
Here's an article with a bit more information. [nature.com]. I found this link elsewhere in this discussion.
Re:Making ethanol uses fossil fuels (Score:4, Informative)
the ethanol vapor only needs to be heated slightly. the catalyzation causes energy to be released (heating it to 700C). the waste heat can then be used to heat the ethanol vapor.
the rhodium is exteremely expensive as far as catalysts go.
Re:Making ethanol uses fossil fuels (Score:5, Insightful)
(I'm a homebrewer going commercial)
Yeast will at best get a corn mash up to about 20% ABV (Alcohol by Volume) To get this any higher, you need to distill it which requires lots and lots of heat (look up the specific heat of water and remember that 80% of your mother liquor is water).
In addition to the alcohol, there are lots of other chemicals - I don't know but I would be pretty sure that some of them would need to be removed or they would corrupt the chemical reactions. I would not be surprised if this reactor didn't require a pretty pure ethanol.
Finally, given the poor efficiency of fuel-cells, you might be better off just burning the ethanol in a micro-turbine. These will run on anything and have nice numbers.
Re:Making ethanol uses fossil fuels (Score:4, Insightful)
A Solar still takes very little knowledge, and no oil to build.
Re:Making ethanol uses fossil fuels (Score:4, Informative)
You can't drink it, of course.
Re:Making ethanol uses fossil fuels (Score:5, Funny)
Re:Making ethanol uses fossil fuels (Score:5, Informative)
Ethanol is an alcohol-based alternative fuel produced by fermenting and distilling starch crops that have been converted into simple sugars. Feedstocks for this fuel include corn, barley, and wheat. Ethanol can also be produced from "cellulosic biomass" such as trees and grasses and is called bioethanol.
Yes it takes a lot of energy to make - a lot of solar energy and water in a method commonly known as 'growing'.
Re:Making ethanol uses fossil fuels (Score:5, Informative)
Today that may be the case. It may not always be that way. I think that if we used more nuclear power, ethanol would make even more sense.
I am not opposed to "alternate energy" sources. I think that ethanol, wind, geothermal, fusion, and solar power should all be researched. We have to use what works for now, and that is fossil fuels, but we won't have fossil fuels forever. We need to look towards the future. We need to be prepared to use other sources of energy.
Even if we didn't use ethanol as a primary fuel source, it can have other benefits. Mixing ethanol with gasoline reduces emissions.
LK
Re:Making ethanol uses fossil fuels (Score:5, Informative)
It's true that energy is required to make ethanol, but the most of that energy is bioenergy from the yeast, converting the starch to ethanol + C02. The starch must be heated before it can be converted (gelatinized), and there is some energy required for that but typically done simply from the heat of crushing the corn.
The bulk would be the distilling process, but you could EASILY create a solar distillery or gelatinizing process, too, which is where the bulk of any added energy comes from.
Point is, you can be as inefficient as you like and claim that it's some corn cartel. But I'm not pulling out my tinfoil hat just yet.
As an aside, it's fairly trivial to get a BATF license to distill for fuel.
Re:Making ethanol uses fossil fuels (Score:5, Interesting)
In short, our current agricultural methods would have to be drastically overhauled in order for corn to be truly viable as a source of anything other than food.
Re:Making ethanol uses fossil fuels (Score:4, Interesting)
I'm not a scientist, but I do play one on Slashdot
Read the fine print (Score:5, Informative)
But there are two considerations to make here that are not part of the above statement:
Re:Read the fine print (Score:4, Informative)
It's converted to electricity, where there is no loss from light (unlike burning).
It does require energy to extract the ethanol, but you are not doing most of the work. And as I stated above, you could easily have a solar distillery, so the bulk of the energy required would be gelatinizing the starch, and the farm equipment. That is a comparitively small amount, when the yeast and the sun are doing most of the work.
Re:Making ethanol uses fossil fuels (Score:5, Insightful)
You might respond to this by saying, "But it takes less energy to get oil out of the ground than that oil eventually produces when burned!" Well, not exactly. The energy that went into making that oil was expended millions of years ago, and it all started as solar energy that was converted into plant and animal matter by the appropriate biological processes. Not really any different than the ethanol produced by plants that are grown with solar energy.
It's just that those hundreds of millions of years produced a large reserve of oil, so that the energy expended in finding it, drilling it, refining it, and transporting it is less than the amount of energy we get out of it -- but the total amount of energy that's gone into getting the oil into a usable form *is* still greater than the amount that's produced when it burns.
The amount of oil available on our planet is finite. There's still plenty of debate about how much is left, but there's never been any indication that more oil is being produced inside the planet, at least not at a rate that's anywhere near what we use it at. Which means we are going to eventually need alternative fuels. (Assuming our rate of consumption doesn't decrease drastically.) That might be 10, 20, 50, 500 years in the future, but it *will* happen.
All that said, there's also no reason why we have to use fossil fuels to produce ethanol. It's just that fossil fuels are currently the cheapest energy source. That won't remain true forever: the cost of all renewable sources will only ever decrease, as technology improves.
Re:Making ethanol uses fossil fuels (Score:5, Insightful)
This is true only with respect to burning ethanol as a fuel in an internal combustion engine. This statement does not appear take into account the difference between an internal combustion engine and the conversion of ethanol to hydrogen to electricty to motive power.
You also are ignoring the fact that the ethanol can be produced using ethanol based energy. The tractor power, the distillation, the factory incidentals, the distribution, all of that energy could be provided by ethanol. That it isn't produced that way yet is due in large part to the lack of a widely available efficient ethanol conversion process.
The "hydrogen-based energy economy" has been hampered by the fact that hydrogen is not as easy to deliver as gasoline. However, ethanol is exactly as easy to deliver as gasoline, and the infrastruture already exists to do so. The problems with converting methanol or ethanol to hydrogen for fuel cells (the expense of the platinum catalysts) has been one of the final roadblocks to widespread adoption of fuel cell powered vehicles.
Crying "corn belt subsidy" before the technology even sees the light of day is counter-productive. Yes, some people are going to get filthy rich off of whatever fuel supplants oil. Unethical people will make financially-motivated decisions to use a "dirty" process and release lots of pollution. There will be more crooked deals with more crooked politicians, there will be kickbacks and porkbarrels the likes of which will relegate Haliburton and Cheney to the junior varsity level. Some oil industry barons will be ruined, many oil industry workers will lose their jobs, and the world will be changed. But it needs to change. The new direction may or may not be ethanol, but it can't remain fossil fuel based forever. And we need to explore those alternatives now.
Re:Making ethanol uses fossil fuels (Score:5, Informative)
This assumes that we are using current techniques to farm the corn and ferment and distill it. If the farm machinery can use biodiesel [biodiesel.org] instead of fossil diesel then that part is taken out. If the the still can be heated using solar heating (direct solar heating [ips-solar.com], not using inefficient solar cells), some use of wind, etc. then it may be possible to make the equation go positive for us.
As long as the input is fossil fuels or ethanol or hydrogen (perpetual motion machine, anyone?), efficiency means we'll come out behind. As plants learned long ago, you need outside input of power for it to be worthwhile which is why some researchers are looking at bacterial catylists among other things [fsu.edu] to split out the hydrogen from water. Plants left hydrogen behind a long time ago [sciencedaily.com] so perhaps we're going down a dead end.
Good NYTimes article... (Score:5, Interesting)
The New York Times ran an interesting story [xent.com] about agriculture and obesity in October, basically discussing how, among other things, American corn has traditionally been so overproduced that corn-growers are desperate to find ways to use it. In the 19th century, the solution was to use it to make alcohol-- the average US citizen's consumption of corn-based alcohol then was more than FIVE times what it is now.
Following the backlash against drinking alcohol around the turn of the century, now much of the corn glut is used as a cheep sweetener. Corn syrup has replaced sugar in most sodas, candy, etc since the 1980s. The article suggests that the move from corn-alcohol to corn-syrup is responsible for the 60% obesity increase plus dramatic increases in "adult-onset" Diabetes.
So is the corn-as-fuel studies a similar way to answer the question-- how do we get rid of all this corn?
Also, see this NYTimes editorial [foodfunders.org]. Some interesting stats in there as well.
W
The real stats behind producing Ethanol (Score:5, Informative)
For reference this site has some good links, including a rebuttal of the Pimental paper (as well as showing the Pimental article).
http://www.econet.sk.ca/pages/issues/ethanolinf
Re:Another article (Score:4, Informative)
Uh. Diesel. Almost all farm equipment have run on diesel for the last 40 years. And bio-diesel is a reality....
Re:Making ethanol uses fossil fuels (Score:3, Informative)
Re:Making ethanol uses fossil fuels (Score:3, Insightful)
You seem to know about this stuff...
Do you know if anyone has considered using wind or solar energy to power the ethanol producing equipment? Considering corn is farmed on lots of land with lots of wind and sun, it seems like this could help ethanol production become more viable.
Re:Making ethanol uses fossil fuels (Score:4, Funny)
Re:Making ethanol uses fossil fuels (Score:5, Informative)
I grow corn in wisconsin and am very surprised to learn that it takes more water than rain. We, for reasons of topology, don't irrigate and our corn and still grow 125-150 bushel corn.
In short, the parent should be modded -1 overgeneralized.
Re:Making ethanol uses fossil fuels (Score:5, Informative)
Yes. In the vernacular "100 bushel corn" is 100 per acre.
Not being of an agricultural bent, I don't know if this is a realistic yield or not.
For my area it is a good yield. I suppose some people might go as low as 80-100, but they aren't making anything at that. Really pro farmers on really good soil might go 175 or even 200 if the weather works with them.
Is this measured on the cob or off?
Off.
For each bushel, how much waste (stalks & cobs, etc) is produced?
A ton. Perhaps literally.
Would burning 150 bushels' worth of (sun-dried) waste produce enough heat to distil 150 bushels' worth of mash?
Dunno. But it may not be the right question anyway. It may well be better to cut the corn like you would for silage and use the entire plant for mash, then use the increased energy production to heat to mix. I'm just speculating though, I haven't fact one to back up that guess.
How much gas does your tractor take to plant & harvest a 1 acre cornfield?
None. We use deisel.
In truth that answer depends on how many times you have to pass over the field. A no-till planter is going to cost you half a gallon an acre and combining is about a gallon and a half.
However, you will typically double or triple that without getting into nutty scenarios. If you are doing zone building that's going to be another gallon and a half, fertilizing can vary between a tenth and a half. If you chop for silage (as I suggest above) you burn three and a quarter per acre right there.
So, the amount varies widly depending on what you're doing.
Is this better/more efficient.. (Score:4, Interesting)
Re:Is this better/more efficient.. (Score:5, Informative)
Re:Is this better/more efficient.. (Score:5, Informative)
(Actual article for this instututions with subscriptions is here [sciencemag.org]. The Science summary is here [sciencemag.org].)
More efficient (Score:5, Informative)
One item of interest is that this new technique converts ethanol to hydrogen at a 60% efficiency rate, compared to the 20% efficiency rate with current technology.
Back to the Future (Score:4, Funny)
Um.... anyway. This technology is a much better thing than the movie.
How to make the Ethanol (Score:3, Redundant)
Re:How to make the Ethanol (Score:4, Informative)
Great, it only takes a gallon of fossil fuel... (Score:4, Informative)
Re:Great, it only takes a gallon of fossil fuel... (Score:4, Insightful)
OB Simpsons quote (Score:5, Funny)
Homer: "one for me" [fills mouth]
heheh (Score:3, Funny)
Cop
Me
Cop
Corn ain't free! (Score:3, Redundant)
Re:Corn ain't free! (Score:5, Insightful)
How many gallons of oil does it take to put a gallon of gasoline in your tank. And remember one gallon of oil does not equal one gallon of gasoline.
Also, if you are going to be paying money to fuel your car would you rather pay it to American farmers and corporations or foreign oil barons and corporations.
Re:Corn ain't free! (Score:5, Insightful)
It sounds a lot to me like saying - "yeah that new C language seems o.k. but you still need language X to write a compiler for it- so what's the point" But once you move beyond that- you can drop language X or in this case fossil fuels. What if your farm equipment starts running on fuel cells? The move from fossil fuels has to take place in steps.
Re:Corn ain't free! (Score:3, Interesting)
I think they're referring to the fact that some fertilizers are actually refined from petroleum products.
Re:Corn ain't free! (Score:4, Informative)
Average Slashdot user (Score:5, Insightful)
But not anywhere close enough for your average Slashdot user.
Re:Average Slashdot user (Score:5, Insightful)
Do you run a hairdryer all day long?
A 1Kw fuel cell, running 24/7 and charging a battery array, would almost take care of a typical home's electricity needs. I agree only 1Kw seems a tad low, but 2Kw would more than suffice for most homes.
For comparison, in CA, on-grid "normal" homes (ie, all the standard electric-sucking toys) with a supplimentary 3Kw solar array (which only really helps for less than eight hours per day) can basically break even on their electic bills.
Missing info (Score:5, Informative)
Ethanol production? (Score:3, Interesting)
Beer has taught me that yeast create ethanol as a metabolic waste product, right? I believe that yeast also create carbon dioxide as a waste product.
I doubt that large-scale industral ethanol plants are using yeast colonies for production... but what do they use? And what are the waste products from that process?
I understand that reducing our reliance on fossil fules is a good thing. However, if substantial amounts of greenhouse (or other undesirable) gas emissions result from the ethanol production process, aren't we just playing Whack-A-Mole with the source of the pollution?
Re:Ethanol production? (Score:5, Informative)
But the real trick is reducing the costs of processing cellulose to ethanol to make it competitive with processing glucose from corn (which is more easily broken down) into ethanol. This is trivial when you eliminate all the subsidies, it's just a bit harder when you consider the heavy corn ethanol subsidies. However, companies like Iogen [iogen.ca] have been producing much more efficient techniques such as enzymatic hydrolysis for breaking down cellulose into an easily fermentable form - which they goes into the yeast fermentation process. The technology is already being deployed at modest scale factories.
So the answer is that yes, yeast do the fermentation. And to make fossil fuel-free, net energy positive ethanol, you just add some weak acid or strong enzymes to the mix earlier on to make sugars that are more easily fermented. As for carbon emissions (as CO2 or otherwise), which you mention, ethanol from cellulose "consumes" as much carbon in the growing plants as it releases when combusted, and in that sense it is both renewable and net-carbon-neutral to the environment. So does ethanol from corn, though the fact that the overall energy production is negative in that case means that the energy deficit has to be made up, generally by burning fossil fuels to generate energy for growing and havesting corn.
Which brings us back to many people complaining here on Slashdot that ethanol is bad for the environment. They just don't understand that ethanol != corn ethanol.
Truly renewable (Score:3, Interesting)
Those GM Hywire commercials are pretty to look at, but don't make it clear to the general public how difficult energy-wise it is to actually produce hydrogen. I hope more research funds get pumped into this kind of technology so we can move toward a hydrogen future at a meanginful pace.
Ugh... (Score:4, Interesting)
Re:Ugh... (Score:4, Insightful)
I take it you've never sniffed the air downwind of a petrolium refinery or an oil well....
Just burn the fossil fuels (Score:3, Interesting)
But it uses no fossil fuels? Well, maybe not directly, but... let's see, where do we get ethanol? Hmm. Well, most of it comes from corn. Corn treated with heat. That heat comes from natural gas, usually. So there's a fossil fuel. What else? Corn has to be harvested. Usually this involves tractors, harvesters, and other large pieces of farm equipment that generally run on.. d'oh! More fossil fuel!
According to the US Dept. of Energy, creating ethanol takes about 29% more energy than it provides. Since most of that energy going into the ethanol-creation process is fossil fuel-based, we'd probably be better off just burning the fossil fuels directly. Using ethanol just burns them up even faster.
A source for more ethanol numbers: http://www.straightdope.com/columns/031128.html [straightdope.com]
Re:Just burn the fossil fuels (Score:3, Insightful)
And when we have powerful enough fuel-cell enginges, we won't have all that farm equipment relying on fossil fuels, so they will be taken out of the equation.
Re:Just burn the fossil fuels (Score:3, Insightful)
The idea was to run stuff like tractors on hydrogen created from ethanol... :-)
please... (Score:5, Insightful)
the shift here is from using fossil fuels that take many years of pressure and heat to create, and mostly lie across oceans - to a fuel source that only takes bacteria, the sun, and a few weeks to create, and can be produced in abundance locally.
if
and the numbers for ethanol creation are referring to -engine-grade-ethanol- which must be (expensively) purified. the ethanol source for the reactor in question -doesn't-.
not to mention that the IOP article says that this ethanol->hydrogen reactor is 3x as efficient as an ethanol engine directly.
Re:Just burn the fossil fuels (Score:4, Informative)
The paper addresses some of the issues raised in the column you linked. Pimentel in particular. It compares the results of several studies and attempts to address them.
Pimentel (who comes up with the negative energy results) tried to include some very hard to quantify items, such as the energy required to build the farm machinery that was used to grow the corn. Certainly a valid input, but he provides no details as to how he came up with his numbers.
$1 of profit of Ethanol maker costs Taxpayer $30 (Score:5, Informative)
(ADM also runs a mammoth ethanol boondoggle [cato.org] based on government subsidies. Every dollar of profits earned by their corn sweetener operation costs consumers ~10$, every dollar earned by their ethanol operation costs taxpayers ~$30.) (ADM also runs a mammoth ethanol boondoggle based on government subsidies. Every dollar of profits earned by their corn sweetener operation costs consumers ~10$, every dollar earned by their ethanol operation costs taxpayers ~$30.)
Re:$1 of profit of Ethanol maker costs Taxpayer $3 (Score:4, Interesting)
Other attributes of HFCS over sugar (from http://food.oregonstate.edu/sugar/hfcs.html):
# retain moisture and/or prevent drying out
# control crystallization
# produce an osmotic pressure that is higher than for sucrose or medium invert sugar and thereby help control microbiological growth or help in penetration of cell membranes.
# provide a ready yeast-fermentable substrate
# blend easily with sweeteners, acids, and flavorings
# provide a controllable substrate for browning and Maillard reaction.
# impart a degree of sweetness that is essentially the same as in invert liquid sugar
# high sweetness
# low viscosity
# reduced tendency toward characterization
# costs less than liquid sucrose or corn syrup blends
# retain moisture and/or prevent drying out
In short, in a mass-production environment, sugar is used where it needs to be used, and HFCS is used where it can be used. I imagine ADM donates liberally to political parties for other reasons. The biggest one that comes to mind is genetic patents.
Re:$1 of profit of Ethanol maker costs Taxpayer $3 (Score:5, Funny)
Re:$1 of profit of Ethanol maker costs Taxpayer $3 (Score:5, Insightful)
A more usefull number would be the ratio of revenue to subsidy. I couldn't find that in the report you linked, but assuming their profit margin is about 10%, then for every dollar I pay for ethanol another three dollars comes from the taxpayers.
no fossil fuels? (Score:3, Insightful)
Since ethanol is usually made from plants which have to be cultivated by equipment that burns oil -- combines, tankers, pumps, etc -- my understanding is that the production of ethanol is actually wasteful of fossil fuels. I've read (but haven't been able to corroborate) that the energy required to produce a gallon of ethanol is actually more than the energy produced by a gallon of ethanol.
So, is it really cleaner when you look at the big picture? Is it more efficient?
There's also the cost. Corn-based ethanol is inexpensive because of the huge subsidies the US government gives corn growers. There have been some primetime specials lately connecting the dots between lobbyists, corn production, and the ever growing waistlines of Americans. The small blurb in the article regarding economic potential for farmers is a huge understatement considering these subsidies.
Is this just cool a Good Thing?
Energy Consumption still an issue (Score:5, Informative)
A bit of googling (http://www.arctic-cat.com/generators/wattage.asp
(This occured to me because I have a fusebox that can't cope with me using a medium iron and an electric heater on low in the same room. Domestic bliss.)
Re:Energy Consumption still an issue (Score:5, Informative)
Yes, but you don't use that iron or toaster 24 hours per day, do you? If it generates 1KW, and you run it 24 hours per day, that 24KWH per day. My latest electricity bill says I used 22KWH last month.
Generally a fuel cell will be used to charge a battery bank which will then be used to power a DC to AC inverter (to get 110 or 220VAC for normal appliances). The battery provides the peak current required for heavy loads, the fuel cell keeps the battery charged.
Ironing the Toast (Score:4, Funny)
I could, if I put my mind to it.
Really what I want to do is make a first slice of toast, then iron that slice while toasting a second slice
-kgj
Details (Score:5, Insightful)
So after liberating some (all) of the hydrogen we are left with C2 and O I would assume it would pick up O2 from the air and make C02 as a by product, with potentially some water also.
Last time I checked C02 was a greenhouse gas. It doesn't add to CO2 levels if (big if) the sources for ethanol production extract the CO2 from the atmosphere at the same rate. Keep in mind it isn't just the raw materials, but energy needed to process and create the ethanol, which may cause pollution in the process.
I would have expected CNN to give the actual chemical by-products, and not just summarize as "no greenhouse gasses" which is extremely misleading. I would also be interested to know how many of the H6 get truly extracted, and what remainder go into water (which would say something about efficiency and power density). Or whether some more exotic compounds are left behind that just C02 and H20 (even if only in trace amounts). A molecule here, a molecule there, and sometimes things aren't as benign as one might first assume.
Good news in any event, just wish there where more details.
Ethanol = major pollution (Score:5, Informative)
Ethanol causes Pollution too [eurekalert.org]
Ethanol wrong for CA [theindependent.com]
I've seen other materials cited saying that ethanol is not harmful. Regardless, I'm sure that the pollution that is generated by your corn-fed in-house ethanol-hydrogen fuel cell will be contained by the time this thing gets to market.
Re:Ethanol = major pollution (Score:5, Informative)
Well, no--not quite. Burning ethanol, in combination with gasoline, in some automobiles, may result in increased emissions. Newer vehicles are designed to better cope with the slightly different combustion techniques required to burn ethanol cleanly.
The question becomes a complete non-issue when discussing fuel cells. No ethanol-air combustion takes place under those circumstances, so no aldehydes are generated.
Not to be flip, but the reason why the smog is so bad in Los Angeles is because there's too damn many people driving oversized single-occupant vehicles. (It's also a consequence partly of geography--the city's location is well-suited for trapping contaminated air.)
Not worth it? (Score:3, Interesting)
The hydrogen is envisioned to replace petrochemicals in automotive uses and small-scale electrical generation with fuel-cells.
The only problem is the ethanol source. Right now it is pretty much corn, period. With present technology, much petrochemicals must be expended to grow the corn and refine it into Ethanol. The fact that no petrochemicals are used in the subsequent conversion to hydrogen is lost on the fact that a large amount of petrochemicals were burned to get the ethanol in the first place.
If a suitably-credentialed person does the math, I think we'd probably find that less petrochemicals would be burned in generating the electricity conventionally, or powering the car conventionally.
We'll have to wait for future tech that can generate the ethanol or hydrogen without using, or by using significantly less petrochemicals.
My idea shouldn't be surprising, because no process is ever 100% efficient.
Why not just burn the ethanol directly? (Score:5, Informative)
Ethanol has been used as a fuel for a long time in many countries, often substituted on a percentage basis with regular gas. It was especially useful during wars etc when petroleum were in short supply.
Because that requires purified ethanol (Score:5, Informative)
More energy is used to purify the ethanol to standards that make it compliant with current internal combustion engines than is ever won back from burning the ethanol. I.e. the ethanol must be modified to emulate gasoline in order to be burned directly, and that takes a lot of energy.
Ethanol having its hydrogen extracted doesn't require any such purification process, making the conversion of ethanol->hydrogen, then burning the hydrogen, vastly more effecient than burning the ethanol directly. three times more effecient, according to the article. This leads to a situation where we can remove traditional energy sources from the equation, using the sun+soil+water to grow the crop, using sun+some small amount of energy to ferment, using some small amount of energy to extract the hydrogen, then burning the hydrogen. As long as the energy won from the sun is greater than the energy used to ferment the ethanol and to extract the hydrogen we have a self-sustaining energy economy (assuming we aren't draining acquafers and the like).
Best of all, we can produce the energy here at home, and stop pouring dollars into countries with regressive religions and toxic idealogies...which in turn might do something to slow the spread of toxic idealogies in our own countries.
actually this WON'T take more fossil fuels (Score:4, Informative)
Corn is not the best feedstock-sugar cane is (Score:5, Informative)
Quick quiz: which nation is the largest producer of ethanol, and what is its feedstock?
And as long as we are injecting facts into this discussion (yes, I'm new here...), while corn production does require lots of water, less than a third of US corn production is irrigated.
And finally, as for all of the "Does producing ethanol require more energy than it uses" discussion, the real question is whether ethanol is an efficient mechanism to capture solar energy and store it in chemical form. The evidence is mixed. The professor at Cornell who is frequently cited is David Pimentel, an entymologist. According to those who specialize in energy, the conclusion for corn-based ethanol is much, much more nuanced. Newer processing plants (those built in the last 3 years) fed by farmers using appropriate nitrogen application techniques are energy-positive. But there are many legacy plants (as well as legacy farmers). Again, in the long-term, the cost of conversion & transport from warmer climes is actually more relevant, though.
And yes, by the way, IAAAE (I am an agricultural economist). In fact, IAAGE (I am a grains economist for a Big Ten University)
Answer: Brazil, sugar cane.
Ethanol doesn't have to come from corn... (Score:5, Insightful)
What is this miracle crop, you might ask?
This miracle crop scares our government, and numerous other larg-scale entities (such as various corporations), because of its multitude of uses, and the fact that it is so easy to grow. At one time, it was grown in plentiful amounts right here in the United States. Then a ban was induced in the early part of the twentieth century (but was lifted briefly for World War 2), and farmers couldn't grow it. Recently, products made from it came under our government's eye again - but the courts beat them back once more (of course, these products are made mostly in Canada, or from the crop grown in Canada). We, the people, are being denied access to growing this crop, and reaping its benefits, by our own government. A government started with a document entitled the "Declaration of Independence" - written on paper made from the very fibers of the crop denied to us today!
So, what is this wonderous crop, you plea?
Say it loud - say it proud - let the world and our corrupt politicians know it: HEMP! HEMP! HEMP!
Some details, and some downsides (Score:4, Informative)
Now, Lanny Schmidt of the University of Minnesota, Twin Cities, Xenophon Verykios of the University of Patras, Greece, and colleagues have developed a potentially portable ethanol converter. In it, a solution of ethanol and water passes through a fuel injector--a nozzle that ordinarily pumps gasoline into a car's motor--and into a gently heated chamber, where it vaporizes and mixes with air. The mixture then passes through a porous plug of aluminum oxide covered with rhodium and cerium oxide, which catalyzes reactions that yield hydrogen and carbon dioxide. The reactions heat the catalyst to over 700C, which keeps the process going. The gadget converts essentially all of the hydrogen in ethanol into hydrogen gas, the researchers report.
"Their process has the advantage that it is very, very fast," says James Dumesic, a chemical engineer at the University of Wisconsin, Madison, who is working on producing hydrogen from sugars. But he points out that the ethanol process also generates a lot of carbon monoxide, which the high-power fuel cells that might someday propel cars cannot tolerate. Gabor Somorjai, a chemist at the University of California, Berkeley, points out that rhodium happens to be "the most expensive catalyst you can ever make."
Making Ethanol can be cheap! Read how here! PLEASE (Score:5, Interesting)
The total cost of delivery of a single gallon of gasoline is still quite high. It has to be mined, shipped to refineries (which uses oil!) refined in several stages (also uses oil), then shipped in individual semi-trucks (also uses oil) to get to it's final destination, which is for the most part a huge network of individual mom-and-pop owned gas stations. In addition to this, tankers fall over, refineries produce the occasional bad batch, pipelines break and need repair (oh boy, how about those SUVs needed to get to the point the pipeline broke in alaska), there are oil spills in Alaska, oil tanker ships. All these indirectly use oil to harvest oil.
As opposed to the infrastructure surrounding ethanol -- a fledgeling (no, I don't mean ADM) industry with some government and corporate funding and only 30 years of poorly funded research backing it. In 100 years, where will we be with this? One really darned great thing about grain alcohol, is that nearly every place in the non-desert world is suitable for growing some kind of grain that can be changed. Sugar cane, barley, hops, corn, rice. All can be turned into alcohol organically, with yeast, and the varieties of each can be grown in nearly every clime in the world, as opposed to having to be mined and distributed on the hub-and-spoke system. Locally managed stills can make enough ethanol to power entire towns for the most part, with a surplus. Believe me, we know the volume homemade, illegal, inefficient, made-by-the-village-drunk 'stills can produce in Arkansas and Tennessee. How about efficient stills made by corporations with the money to put into the research of draining every last drop out of the infrastructure they create? No long, hazardous shipping across outdated hub-and-spoke shipping lines. Fine-grained (no pun intended) distributed, low cost production facilities are a much better way of creating electricity and vehicle fuel.
The really great thing is that all these grains don't
This can be the key, folks. This can avert the disaster heading our way once oil becomes expensive to mine. We just have to put the money in now while we can.
Re:Making Ethanol can be cheap! Read how here! PLE (Score:5, Insightful)
1. Potatoes (really good. soil-healthy crop)
2. Grapes
3. Wheat
4. Sugar Beets
5. Honey
6. Rye
7. Apples
8. Peaches
9. Oats
10. Several types of hardy grasses, including milkweed, dandelions, cattails.
The list goes on. What's more, there's a surplus of all these every year. Regularly, crops simply get dumped into the ocean to mitigate price drops caused by low supply/demand ratio. We already farm too well. What if farmers could sell their entire surplus, every year? The revival of agriculture as a way of life. Even the >gasp small-farm -- remember what I said about local farming being a better way to produce energy because you don't have to ship it?!
The Next Generation of Energy Tech (Score:4, Interesting)
The next step is to begin working to genetically engineer plants that produce more of the kinds of materials that benefit the distillation and catalysis of ethanol. Corn is a poor energy source when you consider what it takes to grow it, and how devastating modern agriculture is to the soil.
Not to mention the fact that agriculture is essentially owned and regulated by Big Oil, who also own the companies that make seeds and the companies which make nitrogen fertilizers. No serious progress is likely to be made in agriculture or energy technology as long as the interests of Big Oil remain paramount.
The smart direction, I think, is to look at aquatic plants, algae, bacteria, and the like. If a bacterium or yeast could be developed to produce ethanol in sufficient quantity, and a closed system could be developed that takes in sunlight and produces all the kinds of things bacteria and yeasts produce - ethyl, nitrogen, methane, etc., it would go an amazingly long way towards improving the efficiency of these processes.
The trouble with our current crude methods is that they are simply unsustainable and produce far too much pollution and waste.
Recently a technique was developed [changingworldtech.com] to convert any kind of solid waste into constituent materials, including a rich form of oil. This project was undertaken with support from ButterBall because the costs of waste disposal for their turkey abattoirs are hilariously high.
Now imagine a similar kind of energy plant, except instead of slow-heating wastes and so forth, it has a chain of vats containing various forms of bacteria, single-celled organisms, simple plants, etc., in a closed ecosystem. Wastes and other materials from one vat are leeched out and channeled to the next vat in line. Nitrogen and CO2 are funneled to the plants, and their oxygen is fed to some single-celled creatures. Round it goes, probably feeding back into itself in a closed loop. Except, of course it isn't a closed loop. Free materials like oxygen, CO2, nitrogen, hydrogen, etc., are constantly being added to the system along with plenty of sunlight. The result is that you end up with a huge abundance of excess which can be siphoned off.
The grail of energy will be to engineer or discover bacteria capable of freeing hydrogen itself. Maybe some of those deep-sea hot vent varieties have some creative genetic ideas!
We are so used to thinking of energy in terms of limitations, and so there seems to be a rush to knock energy out quickly and with great force. The fact is, slower, gentler, more methodical methods are available using the power of living cells. We only have to learn how to utilize and program these molecular machines to do our bidding.
I have a friend who is utterly convinced that Free Energy Devices (also known as Zero-Point Energy Taps) are possible, they exist, and they are suppressed by Big Energy interests. I am naturally skeptical of the idea, but at the same time I'm open to the possibility, if only because at the atomic level everything is going a million miles an hour all the time. If you could tap that energy at the molecular scale I believe you could produce - essentially - a perpetual-energy device.
For example, if you were able to build a device on the nano-scale which captures electrons - like a cashmere sweater - and then instead of just forming a diffuse cloud of electrons were able to channel those electrons into a medium and hold them... well you get the idea. We know static is real, and we know a little bit of it can produce a pretty impressive shock. If a trillion of these devices could fit into a square foot then I imagine you could extract a pretty impressive amount of electrical energy.
There have to be thousands of ways to efficiently borrow excess energy. Another method that occurs to me is to layer materials in a manner such that electrons are caused to flow in a specific direction. I'd be interested to know if layering materials - let's say nickel and copper - can produce energy flow passively, or if a catalyst such as acid or NaCl is always required to "pull" electrons out.
Do you people realize what this means? (Score:5, Insightful)
A compact ethanol to hydrogen reformer means that at least two of the the LARGEST problems stopping the adoption of hydrogen have been solved
1) Transportation:
The existing gasoline transport/storage/dissemination architecture can be used for ethanol
2) Net production of CO2
Until now, the cheapest ways to produce hydrogen have relized on fossil fuel consumption. Now hydrogen can be derived from biomass.
To everyone who complains about ethanol subsidies: corn is NOT the only way to make ethanol. You could probably find a way to ferment whatever is fastest growing--after all, this is not for human consumption.
In summary, I hope this thing is for real...
Re:Not now..... (Score:4, Interesting)
Re:Good Investment? (Score:5, Funny)
Hehe...even if they don't make ethanol for fuel, the mere fact that real Mardi Gras celebrations kick off this weekend through Fat Tuesday here in NOLA will create a pretty good spike in all alcohol sales...
Re:Not now..... (Score:3, Insightful)
Re:Not now..... (Score:5, Funny)
Re:Not now..... (Score:5, Interesting)
I don't have sources handy, but I did research this topic at some length in the past and convince myself that Hemp would have real value if it weren't for our political climate.
Though the strains most effective in terms of biomass, fiber production, etc, are NOT the best strains for recreational use.
One should be aware that hemp has been through extensive selective breeding, and the THC levels have boosted considerably in the last 50 years. However the changes to boost THC have made the plant less effective for other purposes.
PS:
I should not that I'm not a user, but I am strongly in favor of legalization, both for production and recreational uses.
Re:Not now..... (Score:5, Insightful)
cotodoso
Re:Not now..... (Score:4, Insightful)
Burning oil, however, is putting us back to prehistoric CO2 levels.
Using power from our very own stellar fusion reactor located at a convenient approximate 18 light minutes, is much cleaner.
Re:Not now..... (Score:5, Informative)
That's 8 light minutes, and there are no solar panels yet that are efficient enough to drive a car, much less a tractor. Have you taken a look at how many watts [google.com] it takes just to get one horsepower? You'd need a small nuclear reactor to produce enough watts to get the 450 horsepower of a tractor! (A 335 Kilowatt reactor to be exact.) Not to mention the number of batteries it would take to keep a tractor running at night.
Solar power is a niche market. It has its uses, but general power generation is not one of them.
Re:Not now..... (Score:5, Informative)
I was kidding about the nuclear power plant. Mostly because it was assumed that you aren't running it off of a chemical fuel like diesel. You said yourself that the electric mine cars are hooked to a diesel generator. But you're not going to get the necessary energy out of solar panels.
Corn is solar powered. Just because it is not efficent (yet) to convert light directly to electricity, don't forget how much energy falls on every acre of land from the sun. It's just the storage method you use that may be inefficient or polluting.
How much corn does it take to generate 335 kilo-joules of energy? How long does it take for that corn to grow? I'm willing to bet that miles of traditional solar panels will still produce more power over the same amount of time. But who wants to give up hundreds of thousands of acres of land for solar power generation?
If you look at oil, you'll find an even worse energy production rate. How many thousands of years does it take nature to produce a tank of gas?
Face it. Nuclear power is the only source of power that can produce enough power to maintain our civilization long term. Nuclear fuel is plentiful here on earth and in the rest of the solar system, it can be made cheaply, and it doesn't output tons of radioactive material per day. (*cough*coal plants*cough*) Instead of developing low power density fuel cells, we should be developing micro-power plants for use in industrial equipment, and small, safe, and efficient nuclear plants to replace our aging, dirty, and expensive power grid.
Sorry if I'm getting off topic here, but fuel cells are quickly becoming a pet peeve of mine.
PARENT IS TROLL. (Score:5, Informative)
Earth's perihelion: 147,000,000 km = 8.17 light-minutes
Earth's aphelion: 152,000,000 km = 8.44 light-minutes [source [optusnet.com.au]]
Comment removed (Score:5, Informative)
You get carbon dioxide. (Score:5, Informative)
The reactor pushes a mixture of watery ethanol and air over a rhodium-based catalyst heated to about 700 ?C. It takes only five seconds to start up, and produces a steady stream of hydrogen and carbon dioxide with very few other waste products.
Re:The problem is.. (Score:3, Funny)
That's easy: drink enough that you can't see. That way, it doesn't matter that the lights don't work.
Inefficiency (Score:4, Insightful)
Re:Ethanol (Score:4, Insightful)
I don't think so - I would have sworn that although nobody's succeeded at turning lead into gold yet, they HAVE turned BISMUTH into gold. It only cost them a few billion dollars to build the particle accelerator to do it with, too. And they got, as I recall, 8 whole atoms of Gold in the process...
I'm in the wrong line of work - I should get in on that 'particle physics' scam. "Yes, senator, this $50,000,000,000 grant is absolutely necessary if I am to discover the Pineapple Upside-Down Quark before the Soviets, uh, I mean, Red Chinese, uh, I mean, Terrorists do!"
(Note for any humor impaired particle physicists and/or sympathisers reading this - YES, it's a joke! Jeez...)
Re:Energy Balance (Score:4, Informative)
it takes more energy to produce the ethanol than you get back in stored chemical energy. I am sure that no one disputes that.
I dispute this. Having grown up on a grain farm I have a very good handle on the fuel and fertilizer inputs. Being a hobbiest beer and winemaker I have a very good handle on the mashing and fermentation processes. Being very good friends with a fellow who runs a commercial water distillation plant I have a very good handle on the state of high efficieny distillation systems.
This idea stems from work by David Plimentel at Cornel. (see my other post) David analysed horribly ineffecient coal fired distillation systems. His assumptions are incorrect.
One example is as follows. corn can easily produce over 100 bushles per acre. Barley can easily produce over 40 bushels per acre in the dry land farming areas I grew up in. Since barley weighs in at 48 lbs/bushel - that is nominally a tonne of grain per acre.
A 40 acre feild can be plowed in about 6 hours using a tractor and plow that runs about 3 1/2 MPH and burns about 3-4 gallons of fuel per hour. This means that plowing the feild can be done with under about 20 gallons of fuel - or about 1/2 barrel. A tractor of this size is about 70 horsepower and that compares favorably to your SUV which burns 3 gallons of fuel per hour while running down the highway at 60 MPH while it gets 20 MPG fuel economy.
It takes about 4 trips over the feild - one for 1st spring working, another for sowing the grain, another to take it off and another for working the field in the fall. Typically it will lay fallow for one year in 4 and during this year it will need to be worked 3-4 times. Since each trip requires in the ball park of a 1/2 barrel of fuel, the farmer will use about 1/2 x 4 x 1.5 = 3 barrels per crop for the 40 acre feild. To this we need to add fertilizers and these typically are applied when I was doing it at about 40 lbs/acre and each sack of fertilizer weighted 80 lbs so that 40 acre field needed 20 sacks of fertilizer or about 3/4 tonne. Present day fertilization levels are much higher mind you.
Nevertheless, chemically the fertilizer was something like 11-48-0 or 11-55-0 and this translates to 11% nitrogen by weight - typically in the form of ammonium phosphate. The chemical formula is NH4H2P2O5. If we look at jsut the nitrogen which is typically made by starting with Methane (CH4) and replacing the Carbon with a Nitrogen then we are looking at about 11% by weight Nitrogen (which is what the 1st number stands for) and that works out to adding about 11% of 3/4 of a tonne of Nitrogen to the feild. This works out to about 165 lbs of Nitrogen.
On a per pound basis the energy in Methane is not all that much different than liquid fuels... a few percent but within 15%. There is more energy in the carbon bonds than the hydrogen bonds so fuels like Diesel carry more BTU per pound than gasoline (predomenantly parafines: C(n)H(2n+2)) and similarly gasoline carries more BTU per pound than methane.
atomic weights: C=12, N=14, H=1 This implies that CH4=16 and NH4=18. They are within 12% of each other. Thus it is fair to say that 165 LBS of Nitrogen on the feild is about the same as 18/14x165=212lbs NH4.
Since the methane is lighter it is fair to say that we'll need in the ball park of 200 lbs CH4 as a chemical feedstock. At 8 lbs/gallon (Gasoline), 200 lbs represents about 25 gallons or just over 1/2 barrel of oil equivalent (BOE).
Well - we started with the farmer using 3 barrels of oil in the form of liquid fuel to plough the land. Next we calculated the energy input by way of Nitrogen in the form of NH4 and got about 1/2 barrel more - albeit at a low fertilization level so lets double it!!! Now our farmer is up to 4 barrels for his crop of 40 acres. That is 10 acres per barrel... but we do have other unaccounted for energy inputs like the coal used t