Microbes Churn Out Hydrogen at Record Rate

FiReaNGeL writes to mention that Penn State Researchers have improved on their original microbial electrolysis cell design bringing the resulting system up to better than 80 percent efficiency when considering all energy inputs and outputs. "By tweaking their design, improving conditions for the bacteria, and adding a small jolt of electricity, they increased the hydrogen yield to a new record for this type of system. 'We achieved the highest hydrogen yields ever obtained with this approach from different sources of organic matter, such as yields of 91 percent using vinegar (acetic acid) and 68 percent using cellulose,' said Logan. In certain configurations, nearly all of the hydrogen contained in the molecules of source material converted to usable hydrogen gas, an efficiency that could eventually open the door to bacterial hydrogen production on a larger scale."

BLOCK/BAN THIS ARTICLE

[LiquidCoooled]

Quick, block and ban this article before the boss sees it.
If he had his way he will fill the water cooler with vinegar to try to increase our productivity.
(If you are working at EA I'm afraid its too late)

Re:BLOCK/BAN THIS ARTICLE

[Penguinshit]

As long as that vinegar is Chateau Petrus, I'm all for it.

Re:BLOCK/BAN THIS ARTICLE

[ozmanjusri]

(If you are working at EA I'm afraid its too late)

Too late in my office as well, judging by the incredibly high methane levels in the lunch room.

Re:BLOCK/BAN THIS ARTICLE

[hkmarks]

I just heard the other day from a dubious source that adding vinegar to water was a good way to ward off fleas and mange. So he might do it anyway.

Uhm

[lorenzino]

This reminds me a lot of some Asimov books. So, are we getting there ?

Re:Uhm

[SatanicPuppy]

I sure hope so. Getting this sort of tech as a backyard/rooftop energy generator could be insanely useful. Off the grid for nothing...Hydrogen beats the crap out of batteries as far as energy storage, so high efficiency solar or this sort of biological solution used to produce hydrogen to power your house and your car...Wow. And 80% efficiency is pretty damn good, for a line of research that is still pretty primitive.

A biological system would (probably) be lower setup than a solar system as well, at least given current tech.

Re:Uhm

[Rei]

Hydrogen beats the crap out of batteries as far as energy storage

Not currently it doesn't. Top-of-the-line hydrogen-powered vehicles are about on par, range-wise, with top-of-the-line lithium-ion powered vehicles (for vehicles released this fall, say, compare a Roadster with an Equinox -- both 200 mile range). But they're notably less thermodynamically efficient and have worse performance. Honda has a prototype FCX that they say will be able to get 350 miles by using an undisclosed storage material, but storage materials always raise issues of their own (such as how much energy it takes to get the hydrogen in and out -- thus hurting the thermodynamic efficiency even more), and if you want to count vehicles that don't exist yet... Of course, if your energy source is hydrogen *to begin with*, sure, hydrogen would be a better choice present-day. We'll have to see how each respective technology advances. Personally, I'd rather we be driving largely on grid power instead of trying to store all our energy on the vehicle ;)

Getting this sort of tech as a backyard/rooftop energy generator could be insanely useful

You want them to eat your roof? You did read the article (or even the summary) and realize that these aren't photosynthetic bacteria, right? That will almost certainly come in the future, but that's not what we're dealing with here.

A biological system would (probably) be lower setup than a solar system as well, at least given current tech.

But maintenance can be very tricky. Bacteria mutate, get attacked, and so on. Plus, you need to keep feeding them and removing waste products. This is certainly viable, present-day, in industrial scale applications, but it probably won't scale down very well any time soon.

I will agree with you on one thing:

Wow. And 80% efficiency is pretty damn good, for a line of research that is still pretty primitive.

It sure is.

Re:Uhm

[Cassius+Corodes]

Bacteria are fairly low maintenance - so the risk form attack is low as they can mutate to defend against the invasion. However as long as you keep feeding them the right stuff they will continuously optimise for the task :) (although depending on their metabolism they may see the production of hydrogen as inefficient way of reproducing themselves and switch to a different by-product that works faster)

Re:Uhm

[jchernia]

Keep in mind that septic tanks work on this principle, just drop new tablets of the bacteria in every once in a while and processing resumes, clear water leeches out and there is a ready supply of food for them. Been in use on small scale for a very long time. Composting also works with a constant supply of food on a small scale.

As for eating your roof, there are already bacteria that do that, but they have to be in the belly of a termite to survive, likewise if some of these were to get out, I don't imagine they would last long.

Re:Uhm

[Firethorn]

although depending on their metabolism they may see the production of hydrogen as inefficient way of reproducing themselves and switch to a different by-product that works faster

That's indeed part of the problem from what I've heard for using bacteria to produce stuff.

Likely any home user would have to 'scrub' his system every so often as non-hydrogen producing bacteria start emerging and taking over. Hopefully the fix would be equivalent as opening a yeast packet for making bread is today.

Still, I don't see home fuel production spreading much further than it has today. It's always going to be a niche market - most people just aren't going to want to go through the hassle, no matter how simple you make it. Plugging in at night is about as far as I'll give them.

Re:Uhm

[Fordiman]

"Hydrogen beats the crap out of batteries as far as energy storage"

That really depends on the drivetrain involved. For example, Natural Gas ICE's, like those used in city busses, top out at 30% Carnot (pretty damned low). Our best HFC electric drivetrain will put out 35% Ideal (higher than 35% Carnot) at high load, but the number of cells needed to effect that kind of output are high (heavier 'engine'). Include the 80% efficiency from generation, and the 25% efficiency hit for making the hydrogen liquid, and you end up with an overall efficiency of around 20% Ideal (still higher than 30% Carnot at ICE temperatures - which is around 6.3% Ideal efficiency).

Re:Uhm

[fain0v]

Bacterial maintenance is really quite easy. I have been maintaining my own methane producing bacteria for decades now.

Re:Uhm

[2ms]

Why are you comparing batteries to fuel cells in "thermodynamic efficiency". Batteries do not have "thermodynamic efficiency". A battery is not an engine, it's a container of an electrical potential that was put there probably by burning coal. You do realize that's where something like 80% of grid power comes from right? The battery's analog in current automotive propulsion is the gas tank in your Honda or whatever. Find out what the "thermodynamic efficiency" of the process of creating the electricity and then getting it into your lithium ion batteries, and then we can start making useful comparisons to other systems for automotive propulsion. Also, talking about range as if the range of a fuel cell vehicle was directly comparable to the range of a simple/straight EV (ie no production of power on bard, only storage) has limited validity too -- hydrogen vehicles are able to refill their hydrogen tanks about as fast as current gas cars fill their's, if not faster. EV's on the other hand, need to sit at a charger for a minimum of a couple hours, and if battery longevity is desired, really need to charge over an entire night. By the way, for those of you who don't know about it the Fuel Cell Equinox is extremely impressive. It's a mass produced, production fuel cell vehicle with the full interior room of a normal Equinox, that'll be driven by 1000 "owners" in the 3 major cities next year. It's been quite a wakeup call to the rest of the auto industry.

Re:Uhm

[Rei]

Thermodynamics applies to *everything*, not just heat engines. Are you confusing thermodynamics as a whole with the Carnot limit?

All processes are lossy. Batteries, however, are very minimally lossy. Charging and discharging a lithium-ion battery loses virtually no power. Not so with hydrogen. The best you'll do with a fuel cell is something like 70% efficiency. Likewise, excepting these special cases of direct hydrogen generation, creating the hydrogen itself is also a lossy process. And there's loss in putting it into the tank -- especially when there's a storage medium used (which sometimes also gives losses in getting it out of the tank).

EV's on the other hand, need to sit at a charger for a minimum of a couple hours

The Tesla and the EV series do, but this isn't an inherent limitation of EVs. For example, check out this patent from the company EEStor, a company with a market capitalization of ~$60m which is making ultracapacitors on contract for ZENN. To translate, that's 342 Wh/kg (compared to 150-200 Wh/kg for Li-ion. And it has a lower discharge rate and doesn't lose capacity like Li-ion. Which is what I was getting at with my allusion to not counting vehicles that don't yet exist for hydrogen, because if you do that, you ought to count advancing battery tech to. Ultracapacitors charge incredibly rapidly -- in the case of the aforementioned EESU, a reported 4-6 minutes. The bottlebeck is no longer your vehicle, but the wires to your house ;) They're definitely cross-country capable, especially if gas stations start creating rapid charging stations. That is, if they can actually bring them to market.

It's a mass produced, production fuel cell vehicle with the full interior room of a normal Equinox, that'll be driven by 1000 "owners" in the 3 major cities next year

It sounds an awful lot like the EV1 program. Which I don't think should be very encouraging to anyone. By the way, AFAIK, it's 100, not 1000.

Re:Uhm

[RockDoctor]

This reminds me a lot of some Asimov books.

Which ones? I don't recall any of Asimov's universes being based on a hydrogen combustion economy.

Re:Uhm

[InvalidError]

To translate, that's 342 Wh/kg (compared to 150-200 Wh/kg for Li-ion. And it has a lower discharge rate and doesn't lose capacity like Li-ion.

Much of the self-discharge we see in contemporary Li-ion batteries comes from built-in monitoring circuitry made necessary thanks to classic lithium chemistry's volatility. More advanced lithium technologies like AltairNano's NanoSafe will drastically improve lithium cell's reliability, durability, safety, high-current charge/discharge capability along with a few other parameters. Unfortunately though, all these improvement come at a slight cost in energy density.

I wonder how long it will be until they start licensing their technologies for general use - it would be really nice to have laptop/ups/phone/camera/etc. batteries with 6-10 years half-lives instead of the current 1-4. I would not mind paying $50 extra on my next Dell laptop to get a similar capacity NanoSafe battery upgrade and be practically guaranteed it will be the only battery I will ever need for it even if I keep the computer for 5-10 years.

Re:Uhm

[GooberToo]

Charging and discharging a lithium-ion battery loses virtually no power.

Hmmm. I don't think I buy into that statement. Many battery manufacturers and retailers are starting to provide battery efficiency information in order to justify the higher costs of higher efficiency battery packs. The high end battery packs seem to be 85% - 94% efficient. While good, that still seems to be a far cry from "discharging...loses virtually no power".

I typically buy packs in the high 80s because the price starts ramping up rapidly once you get much beyond that. Perhaps higher efficiencies are available but are cost prohibitive? Or is the "no loss" batteries only available under lab conditions?

Re:Uhm

[MightyYar]

Plugging in at night is about as far as I'll give them. Pffft... who wants that hassle? I can only be persuaded to fill the tank because it is less of a hassle than walking to the nearest station with a gas can in hand. :)

Re:Uhm

[lenehey]

You nitwit. Just about everything you stated is completely wrong. Whether the electricity came from coal, nuclear, solar or wind doesn't matter for this discussion. What we are talking about is two ways to store energy. Batteries on the one hand, which store electrical energy in chemical bonds as you know. Hydrogen on the other, which store electrical energy by first converting the electrical energy into hydrogen (an "anti-bond" if you will) and then storing the hydrogen. Hydrogen can be converted back into electricity using a fuel cell or fed to a thermal engine for combustion. Either way, you are converting electrical energy into another form that stores and releases the energy as needed. The FA talks about one step in the process of storing energy using hydrogen, and that is the step of converting electricity to hydrogen with "80%" efficiency, which is damn good.

A battery is not a gas tank. Gas tanks take negligible energy to fill and empty whereas it takes considerable energy to store and release electricity from a battery. This energy loss is converted to heat which is dissipated. In electrical engineering, it is often referred to as the battery's "internal resistance" and is often represented by a resistor in series with the battery. That is why, for example, honda civic hybrids (and every hybrid, so far as I know) have a special ventilation system for their battery pack.

On how long it takes to refuel a hydrogen tank, it depends on the material being used to store the hydrogen. Some materials, such as molecular sieves, such as zeolite, can store hydrogen at impressive densities without much compression (which takes a lot of energy, btw) but it takes time to fill and empty, and may require heating the material to release the hydrogen. On the other hand, charging an electric car battery can take as little as 10 minutes (although that draws a lot of current).

And don't spam us with your equinox vaporware.

Re:Uhm

[Rei]

From here:

"The charge time of most chargers is about 3 hours. Smaller batteries used for cell phones can be charged at 1C; the larger 18650 cell used for laptops should be charged at 0.8C or less. The charge efficiency is 99.9% and the battery remains cool during charge. Full charge is attained after the voltage threshold has been reached and the current has dropped to 3% of the rated current or has leveled off."

Re:Uhm

[Maint_Pgmr_3]

Assume that "they" make a go of it, what happens, that in thirty years down the road, there is a discovery that this process is leading to more green house gases then was thought? Or was thought of. I give you the catalytic converter.

Re:Uhm

[2ms]

Believe me I'm not confusing it with the Carnot efficiency. Yes, of course, everything in the world obeys the 3 laws of thermodynamics...

You are missing the point.

Talking about how much energy is lost in the transfer of electricity in and out of batteries is one of the least significant inefficiencies in the process of getting electricity in and out of EVs (you yourself tout it is being low). Comparing this efficiency to the overall efficiency of the electricity production process of a fuel cell while ignoring what the "thermodynamic efficiency" of the process which creates the electricity that goes in the battery-only cars is asinine and misleading.

Oh, and that movie about the EV1 was a crock of bullshit. Please be smart enough to get your information from more sources than propoganda movies and other people who don't know what they are talking about. The EV1 was just ahead of its time. The public dismissed it as weird and pointless, basically. Remember, even the 1st gen of Prius didn't sell worth a damn in this country for the first few years. And that was many years later when gas was much more expensive. GM spent and lost billions of dollars on it for two primary reasons. one was that battery technology had nearly completely stopped improving during the 90s right when it was expected to really start taking off (thus, the EV1 having to use lead-acid batteries and having 55mile range). The second was that even the people who had told GM they would buy one ended up buying SUVs instead -- people talk a lot more than they walk when it comes to really caring about the environment -- certainly they did when troops weren't dying "over oil" and gas was 1/3 the price it is now at least. Why do you think no other company has come out with an EV that was nearly as advanced? No the Tesla is not nearly as advanced -- it's a mechanical system car (a GM car, I might add -- the Lotus Elise/Opel Speedster) designed for an IC engine with the engine plucked out and some really good batteries put in along with a motor. Why do you think that now, even with gas 3 times as expensive, Toyota has more lines of SUVs than they do cars?

Re:Uhm

[OwnedByTwoCats]

Charging batteries produces waste heat. Discharging batteries produces waste heat (remember the laptop battery getting hot enough to start a fire? Waste heat.) And the electricity has to come from somewhere.

Compare the total energy cycles:

Sunlight -> plants -> cellulose ->(bacterial fermentation in this step)-> hydrogen -> fuel cell -> electricity -> vehicle motion

(Sunlight -> plants ->) coal -> electricity -> transmission -> battery storage -> vehicle motion

The 70% efficiency of the fuel cell and the 70% efficiency of the fermentation production of hydrogen, together (49% efficiency) is still better than the 40% efficiency of the coal->electricity step. And doesn't produce any greenhouse net gasses. And is completely renewable.

Re:Uhm

[OwnedByTwoCats]

Toyota has more lines of SUVs than they do cars?

In the USA, Toyota has these SUVs: RAV4, Highlander, 4Runner, FJ, Sequoia, and Land Cruiser. Last I could count, that's 6. Do you want to throw in the Scion xB? 7. The car tally: Yaris, Corolla, Matrix, Camry, Solara, Avalon, Prius. 6 to 7. If you add in the Scions, xD and tC, the tally is 7 to 9.

Re:Uhm

[2ms]

Each of those SUVs is a distinct model. The Matrix is a Corolla station wagon just with name and bodykit aimed at avoiding station wagon image -- same car in every respect but appearance. Likewise, the Solara is a coupe version of the Camry -- everything under the skin same car. The Avalon is Camry only with wheelbase extended a foot for more rear-pasenger legroom and a slightly larger displacement version of engine.

Toyota has 4 car platforms. Toyota has 6 SUV platforms + 2 truck platforms that are not shared with any of their SUVs. Toyota has more models of SUV and truck than any other car company.

Re:Uhm

[Rei]

Talking about how much energy is lost in the transfer of electricity in and out of batteries is one of the least significant inefficiencies in the process of getting electricity in and out of EVs (you yourself tout it is being low). Comparing this efficiency to the overall efficiency of the electricity production process of a fuel cell while ignoring what the "thermodynamic efficiency" of the process which creates the electricity that goes in the battery-only cars is asinine and misleading.

I'm starting them all on the same footing. With the exception of a few technologies (such as this one; also hydrogen generation from hydrocarbons (which nobody likes), and some potential thermolysis capability in next generation nuclear reactors), hydrogen generation is produced from electricity. I.e., the same losses.

Oh, and that movie about the EV1 was a crock of bullshit. Please be smart enough to get your information from more sources than propoganda movies and other people who don't know what they are talking about.

I never saw the movie. Don't pretend that you know me.

The EV1 was just ahead of its time.

The EV1's failure was a combination of a number of factors. Arguably, the technology was the least of them. The most important factor was likely the fact that GM felt compelled to make them in the first place by the state of California, then was no longer required to. Thus, they were left with a loss-leader that they never wanted to have in the first place.

Maintaining tiny number of vehicles is simply uneconomical for large auto manufacturers. When they think it will get them somewhere -- publicity, past regulations, or whatnot, they'll do it. But don't consider it to be a stunning endorsement.

Remember, even the 1st gen of Prius didn't sell worth a damn in this country for the first few years.

Huh? They sold 15k-25k/year in the US for their first few years, almost a thousand in the first month alone. Compare this to a measly hundred hydrogen vehicles *total*, on lease only, and you'll see what I mean about it not being promising. It's a lot more like the EV program than a serious profit-making vehicle.

And that was many years later when gas was much more expensive.

Gas is more expensive now than it was in '05, which had peak sales. Their top sales month was April 05. The retail average then was only around $2.50.

GM spent and lost billions of dollars on it for two primary reasons. one was that battery technology had nearly completely stopped improving during the 90s right when it was expected to really start taking off (thus, the EV1 having to use lead-acid batteries and having 55mile range). The second was that even the people who had told GM they would buy one ended up buying SUVs instead -- people talk a lot more than they walk when it comes to really caring about the environment -- certainly they did when troops weren't dying "over oil" and gas was 1/3 the price it is now at least.

*Any* vehicle that GM makes that has such small numbers will never be profitable unless they charge the sort of prices Tesla charges. Cars are only affordable due to economies of scale. GM did it because they were essentially forced to.

No the Tesla is not nearly as advanced -- it's a mechanical system car (a GM car, I might add -- the Lotus Elise/Opel Speedster) designed for an IC engine with the engine plucked out and some really good batteries put in along with a motor.

The engine is more advanced, the electric power system is far more powerful and (unfortunately) an order of magnitude more complex (thanks to the peculiarities of lithium-ion -- but the extra power density is worth it), and essentially every part of the car is more advanced. Name a single component that you think is more advanced in the EV1. Just one. And why should we hold it *against* the roadster that it used a sleek, lightweight chassis from a top performing sports car?

Re:Uhm

[Rei]

This is one of the few cycles in which hydrogen is produced this way (which is why this could be a breakthrough if it can be commercialized). The typical method for producing hydrogen renewably is electrolysis, and the typical way to produce it directly from fossil fuel is nearly as lossy as your typical combustion cycle. It's either

Renewable source->electricity->transmission->electrolysis->hydrogen->transportation->storage in the vehicle->removal from storage->fuel cell->electricity->motion
Hydrocarbon->town gas->separation->hydrogen->transportation->storage in the vehicle->removal from storage->fuel cell->electricity->motion

Of course, even this method has its problems, thermodynamically, given that plants are so inefficient that they make the carnot cycle look efficient. Sure, photosynthesis itself is very efficient, but the steps from there to energy storage as cellulose, sugar, or whatnot are highly inefficient. Then you need to factor in your 68% efficiency for cellulose, then your transporation->storage in the vehicle->removal from storage->fuel cell->electricity->motion.

This is Slavery!

[eln]

This is absolutely horrible, and I demand it be stopped! These researchers are advocating the mass enslavement of innocent microbes. These microbes will be forced to work nonstop on Hydrogen production from the moment they are born to the moment they are finally literally worked to death. Multiple generations of microbes will toil endlessly in these bacterial concentration camps, with no relief in sight!

We must stop the senseless abuse of microbial rights! We must fight for the smallest and most vulnerable among us! Stop this horror now!

Re:This is Slavery!

Heh. Cute little blobbies, doing their cute little workhorse activities.

Re:This is Slavery!

[Saint_Waldo]

You must have granted sovereignty to the bacteria in your stomach. If not, you're just another oppressor of our bactobretheren.

Re:This is Slavery!

[Jeremi]

These microbes will be forced to work nonstop on Hydrogen production from the moment they are born to the moment they are finally literally worked to death

Relax, dude. We've fixed them up with an excellent simulation of their society at the peak of its development. They'll go happily about their simulated lives, and never know they are just sitting in a vat generating power for us.

Re:This is Slavery!

[pclminion]

Oh, the humanity! Imagine all the poor little penicillium molds in your bleu cheese, suffering and toiling to no good end. And the wretched yeasts which live in your beer, enslaved to a life of ethanol production. And don't even get me started on the fungal rights issues associated with kombucha tea.

Re:This is Slavery!

Well played, sir.

Re:This is Slavery!

[ravenwing_np]

I wonder when we will see people trying to purchase Vegan Hydrogen. Because I could probably sell it for a 2x markup and have a ready made audience.

Re:This is Slavery!

[Bloodoflethe]

Yes, my brother, we must ensure that the rights of the least among us is not violated. Otherwise, there will be a slippery, bacteria-laden slope that will lead to the worst humano-bacterial oppression the world has ever seen.

Re:This is Slavery!

If you have bacteria in your stomach I suggest you get to a hospital post haste. They have antibiotics for that now.

Re:This is Slavery!

[h2k1]

do you realize that in the precise moment you materialized that thought some of us have been visited by the man in black? are they nanobots dropped inside this petri dish?

Re:This is Slavery!

[Eternauta3k]

In the internet, no one knows you're a cow?

Re:This is Slavery!

... until one of them breaks out and starts a revolution - red pill anyone?

Re:This is Slavery!

[ozmanjusri]

I suggest you get to a hospital post haste.

Maybe.

Hospital staff always enjoy a good laugh, if they're not too busy. http://en.wikipedia.org/wiki/Intestinal_bacteria

Re:This is Slavery!

[Null+Perception]

Won't somebody think of the microbes?!

Re:This is Slavery!

On a more serious note, it's not too hard to imagine PETA making the exact same arguments as you do.

I mean, hell, they are against cruel treatments of COCKROACHES!

Re:This is Slavery!

just watch out for the one named neo.

Re:This is Slavery!

[canuck57]

This is absolutely horrible, and I demand it be stopped! These researchers are advocating the mass enslavement of innocent microbes. These microbes will be forced to work nonstop on Hydrogen production from the moment they are born to the moment they are finally literally worked to death. Multiple generations of microbes will toil endlessly in these bacterial concentration camps, with no relief in sight!

We must stop the senseless abuse of microbial rights! We must fight for the smallest and most vulnerable among us! Stop this horror now!

Ah, let them unionize or take their case to the UN.

Re:This is Slavery!

[Ex-MislTech]

If you have bacteria in your stomach I suggest you get to a hospital post haste. They have antibiotics for that now.

There is bad bacteria, and good bacteria.

Ppl eat yogurt to restore the good bacteria that is killed off
due to residual anti-biotics in the highly processed food we eat now.

http://en.wikipedia.org/wiki/Gut_flora

http://en.wikipedia.org/wiki/Economic_importance_of_bacteria

http://en.wikipedia.org/wiki/Yogurt

Re:This is Slavery!

[Walkingshark]

I, for one, welcome our new molecule destroying overlords.

Re:This is Slavery!

[OwnedByTwoCats]

Buy this poster a beer!

My personal yield...

[Penguinshit]

I have a high hydrocarbon yield from beer. Does that help?

Cabbage consumption increases yield dramatically!

Re:My personal yield...

[Saint_Waldo]

Hydrogen sulphide doesn't count, stinky.

Re:My personal yield...

[KudyardRipling]

There are times [BRRRRRRFFFT!] that I think Gazprom might [POOT!] have an interest [FFFFT!] in my [PLLLLITT!] intestinal prokaryotics. Don't flick that light[BOOOM!]

Gas explosion levels complex, details at 11.

288 percent increase over electricity input

[explosivejared]

From the PSU Press Release:

"This process produces 288 percent more energy in hydrogen than the electrical energy that is added to the process," says Logan.

That illustrates just how big the jump in efficiency is here. These bacteria are amazing little energy multipliers. It's quite astonishing!

Re:288 percent increase over electricity input

[pushing-robot]

Yes, but the bacteria are producing it from decaying plant material. You'd have to see how much greenhouse gases are being produced by the bacteria as they decompose the vinegar/cellulose/whatever before calling this a better solution than conventional electrolysis.

Re:288 percent increase over electricity input

[Gregb05]

It's 0 sum with how much greenhouse gas is being captured by growing the plant.

The only thing that ISN'T 0-sum would be pulling greenhouse gases out from hundreds of feet underground; Which we already do.

Re:288 percent increase over electricity input

[hardburn]

You mean the carbon they had already absorbed?

Stop breathing, you let out CO2 every time you exhale.

Re:288 percent increase over electricity input

[mikael]

What worries me is where all the H20 from the hydrocarbon burning process is ending up, never mind the CO2

Re:288 percent increase over electricity input

[Angstroem]

Uhm, but you are aware that the decaying plant material can't give off more CO2 or other Carbon-based greenhouse gases than it originally consisted of. Close cycle and such.

Grow a tree. Burn a tree. No increase in greenhouse gas.

As long as you don't use your conventional gas-powered buzz saw to bring it down and an F350 to haul it to your place...

Re:288 percent increase over electricity input

[Waffle+Iron]

What worries me is where all the H20 from the hydrocarbon burning process is ending up, never mind the CO2

It's ending up in our lakes, rivers and streams! Why aren't more people focused on this crisis??

Re:288 percent increase over electricity input

[Jimmy_B]

Yes, but the bacteria are producing it from decaying plant material. You'd have to see how much greenhouse gases are being produced by the bacteria as they decompose the vinegar/cellulose/whatever before calling this a better solution than conventional electrolysis.

Incorrect. The bacteria will release carbon dioxide, yes, but that same carbon was taken out of the air by the plants they're decomposing. Electrolysis doesn't release carbon dioxide per se, but it uses electricity which comes from coal or oil, to produce hydrogen that contains less energy than the oil you had to burn to make it.

Re:288 percent increase over electricity input

[Gregb05]

but it uses electricity which comes from coal or oil, to produce hydrogen that contains less energy than the oil you had to burn to make it Actually, TFA states that the process could be self-sustaining (assuming free plants) with respect to electrical output. This isn't 100% electrolysis, I assume they're using the electricty as a sort of catalyst to lower the breaking energy enough that the bacteria can split the fuel efficiently.

Re:288 percent increase over electricity input

[pushing-robot]

Plants get carbon from the ground too. In fact, industrialized agriculture has been depleting soil organic carbon for decades from overfertilization and overproduction. If we start mass-producing even more crops to supply our energy needs, we may trade sucking carbon from miles below the ground for carbon inches below the ground, but the problem will remain the same.

Re:288 percent increase over electricity input

[Macondo]

Its amazing how good a few billion years of practice works

Re:288 percent increase over electricity input

[pushing-robot]

Electrolysis doesn't release carbon dioxide per se, but it uses electricity which comes from coal or oil, to produce hydrogen that contains less energy than the oil you had to burn to make it

I think you miss the point of hydrogen power. As nice as it would be to have vehicles powered by clean, renewable energy, mechanical engineers have thus far been stymied in designing solar plants, wind farms, or hydroelectric dams to fit stock passenger vehicles. Fortunately, other engineers who more frequently "think outside the box" suggested the concept of stored energy. Vehicles could load up at convenient times and travel a substantial distance before returning to refill. Insidiously like gasoline engines - I know. Clean energy could power a electrolysis machine, which converts electricity into hydrogen and oxygen. The hydrogen would be supercooled and put into a vehicle, which would then burn it (combining it with free oxygen to produce easily-trapped water vapor) and produce motive force. It's ingenious and nearly pollution-free.

Re:288 percent increase over electricity input

[Eternauta3k]

Unless said tree was fertilized with oil products

Re:288 percent increase over electricity input

[khallow]

You mean natural gas products.

Re:288 percent increase over electricity input

[Eternauta3k]

excuse me?

Re:288 percent increase over electricity input

[mspohr]

Plants do not get any carbon from the ground. They get their carbon from the air... CO2

This is very basic biology.

Re:288 percent increase over electricity input

[famebait]

It's 0 sum

Yes, but the distribution of that sum over different stages of the cycle can still be shifted.

Using agricultural produce or waste for fuel immediately in stead of letting it decompose more slowly will decrease the proportion of carbon trapped in organic matter, and shift it into the atmosphere. If biofuels become big, this amount will rise to become a significant factor. Still miles better than burning coal, of course, not least since it's reversible in theory, but if photovoltaic or photosynthetic solar can compete realistically (and not consume too much energy in manufacture), that would be an even cleaner option that scales better and doesn't compete for farmland.

Re:288 percent increase over electricity input

[Mirvnillith]

And those gases can also be used to fuel engines/vehicles/stoves so your actually looking at two products, not one product with waste gases.

Re:288 percent increase over electricity input

[Dan+Ost]

If this is really a problem, then we could offset this by creating charcoal from some of the plant matter and burying it. That puts carbon back in the ground in a form that won't decompose and end up back in the atmosphere.

Perhaps that would be a way of creating carbon credits?

Re:288 percent increase over electricity input

[Arterion]

That's a confusing way to say it. 288 percent more energy. So if I input 1 unit of energy, I get 2.88 output? Or do I get 3.88 units output? And that's just electricity. What about the units of energy spent on making the acetic acid? You'd have to consider those, too.

Re:288 percent increase over electricity input

[famebait]

or just storing the fuel for a really long time before spending it. Either way: not very economically viable, I'm afraid.

A good step... but not carbon neutral.

[compumike]

The 80% figure is impressive. But beware of the efficiency numbers they quote. This isn't the full fuel cycle. You've still got to compress and distribute hydrogen, which takes a lot (gases take lots of work to compress). For a vehicle, burning it isn't too efficient maybe 30-40%, and fuel cells aren't quite there yet.

Additionally, with any kind of electrolytically-driven process like this one, there's a HUGE efficiency penalty once you increase the flow rates to be anything substantial. And you need to, because otherwise the amount of hydrogen produced per fuel cell area would be tiny. And then, at that point, you've got the problem of lots of carbon to dispose of. Guess what -- this working microbial fuel cell takes C,H,O in as vinegar or cellulose, and outputs H2 and CO2! Do you really call that 'carbon neutral' as a fuel source? It's still dumping CO2 into the atmosphere, just less of it per Joule of useful energy.

Still, this is a great direction for them to keep going... there are very interesting things you can do with hydrogen, even to extend existing liquid fuel stocks (i.e. crude oil to gasoline) by hydrogenation. (Much cheaper than building lots of fuel cells... but not carbon-neutral.)

--
Educational microcontroller kits for the digital generation.

Re:A good step... but not carbon neutral.

[camperdave]

I would imagine that a certain percentage of the carbon goes into making the next gen of microbes.

Re:A good step... but not carbon neutral.

[Gregb05]

Guess what -- this working microbial fuel cell takes C,H,O in as vinegar or cellulose, and outputs H2 and CO2! Do you really call that 'carbon neutral' as a fuel source? It's still dumping CO2 into the atmosphere, just less of it per Joule of useful energy. Yes, I do call it carbon neutral. The plants take in C02, H20 and E to create vinegar and cellulose, and due to thermodynamics, plants can't create more H20 and C02 than they take in; so by definition it's carbon neutral.

Re:A good step... but not carbon neutral.

[hardburn]

Guess what -- this working microbial fuel cell takes C,H,O in as vinegar or cellulose, and outputs H2 and CO2! Do you really call that 'carbon neutral' as a fuel source?

Yes, because that's what "carbon neutral" means. You only release as much carbon as you took out of the biosphere in the first place. It's not taking carbon that had been sequestered away for millions of years and releasing it over a 100 year timespan.

Of course, it's not 100% efficient, so it's still only a fancy battery. The additional power has to come from somewhere, and hopefully it won't be oil or coal. That said, I think supercapaciters are a more promising form of fancy battery.

Re:A good step... but not carbon neutral.

Use the leftover carbon. Combine it with hydrogen using the Fischer Tropf process to create methane or liquid fuels. No need to compress or distribute hydrogen, convert it to methane or methanol and distribute that using existing distribution systems. A few nuclear power plants combined with this process could generate reasonably economical fuel for vehicles, aircraft, and heating, replacing fossil fuels. It's carbon neutral as long as all the carbon comes from plant sources and not coal or oil.

Re:A good step... but not carbon neutral.

[BlendieOfIndie]

They need to engineer the bacteria to consume ammonia. Then our cars could be fueled off of urine. No more fuel transport cost & its carbon neutral!

Re:A good step... but not carbon neutral.

[timeOday]

Yes, I do call it carbon neutral. The plants take in C02, H20 and E to create vinegar and cellulose, and due to thermodynamics, plants can't create more H20 and C02 than they take in; so by definition it's carbon neutral.

Exactly, and the quicker we go carbon neutral the better. (Though after burning so many fossil fuels, we're already way behind. What we *really* need is a car that poops carbon bricks we can bury back in the coal mines).

Re:A good step... but not carbon neutral.

[timmarhy]

burning the hydrogen is very efficent, your right about compressing it for transport though. ideally we will have a break through in battery tech in the next 20 years and we can just generate the electricity using large hydro farms. as it stands, none of these renewable fuel sources cut the mustard, but keep at it people i'm sure one of you will have success.

Re:A good step... but not carbon neutral.

[Erioll]

Of course, it's not 100% efficient, so it's still only a fancy battery. The additional power has to come from somewhere, and hopefully it won't be oil or coal. Kind of. A section from the article is enlightening here:

Even with the small amount of electricity applied, the hydrogen ultimately provides more energy as a fuel than the electricity needed to drive the reactor. Incorporating all energy inputs and outputs, the overall efficiency of the vinegar-fueled system is better than 80 percent, far better than the efficiency for generation of the leading alternative fuel, ethanol.

Which is implying that if you throw this hydrogen into a fuel cell as the source of electricity for the process, you still come out far ahead with lots of usable electricity afterwards.

This isn't perpetual energy, as the "ultimate source" of the energy is the plant material, and the sun itself that grew the plants. All that is "outside input" into the cycle is to "get it going" initially, and after that the only "input energy" is from the plant material itself.

But if the article is mis-stating the amount of electricity used, and you actually need more input into it than what you get out from the hydrogen, then this is actually useless. Kind of like how the ethanol production facilities in the USA consume HUGE amounts of coal to turn the corn into ethanol, which kind of defeats the purpose of the process. What this type of thing would do, if it's as efficient as advertised, is that the production facility itself would be "off the grid" with only the plant being the input material, and still having excess hydrogen to sell. This also depends on there being ENOUGH excess hydrogen (after the feedback I mean) that this is economically viable.

Re:A good step... but not carbon neutral.

[roguetrick]

As soon as the plants walk up to the vat by themselves, we'll either be good or horribly enslaved by our plant masters.

Re:A good step... but not carbon neutral.

Why compress it?...http://www.virginia.edu/uvatoday/newsRelease.php?id=3273

"Most materials today absorb only 7 to 8 percent of hydrogen by weight, and only at cryogenic [extremely low] temperatures. Our materials absorb hydrogen up to 14 percent by weight at room temperature"

Re:A good step... but not carbon neutral.

[HTH+NE1]

Yes, I do call it carbon neutral. The plants take in CO2, H2O and E to create vinegar and cellulose, and due to thermodynamics, plants can't create more H2O and CO2 than they take in; so by definition it's carbon neutral. Except that CO2 is now airborne again instead of locked inside the plants, when they could have carried it deep into the soil and become fossil fuels.

By your logic, the planet as a whole is carbon neutral as nothing from the outside is adding carbon. Indeed, putting stuff into orbit and on interplanetary and interstellar probes is carbon negative (the carbon put into the atmosphere from the combustion during launch was already here).

With that mindset, it sounds like the only solutions for a carbon negative process would be to either perfect alchemy or disperse the planet. "Disperse the Earth" would make a nice bumper sticker.

Re:A good step... but not carbon neutral.

Well .. better for carbon that was already circulating in the ecosystem to
be emitted as CO2 than for carbon from fossil fuels - that was previous sequestered - to be emitted. This is recirculation of carbon, rather than injection of new supplies..

Re:A good step... but not carbon neutral.

[freemywrld]

And you could kill two birds with one stone during those highway pit stops! Quick, drink more coffee!!

Re:A good step... but not carbon neutral.

[clenhart]

> this working microbial fuel cell takes C,H,O in as vinegar or cellulose, and outputs H2 and CO2! Do you really call that 'carbon neutral' as a fuel source?

Vinegar and cellulose is made from plants that get CO2 from the air. It's taking CO2 from the air and returning it. Since the CO2 isn't mined and released in the air, it seems OK in my book.

Re:A good step... but not carbon neutral.

[hardburn]

By your logic, the planet as a whole is carbon neutral as nothing from the outside is adding carbon.

The earth is carbon neutral--the laws of thermodynamics make it that way. However, what matters is if the biosphere is carbon neutral. Carbon sequestered deep in the earth isn't part of the biosphere.

Carbon in the atmosphere can be absorbed by other plants, so putting carbon back in the atmosphere that was there already isn't an issue. Absorbing some carbon and burying it would be a good idea, though.

Re:A good step... but not carbon neutral.

[Surt]

I believe the tradition is that carbon neutral means into the air in modern times.

When you burn fossil fuels, you release carbon into the air that was not fixed into the fuel in modern times. So you release 'new' carbon into the air. Carbon positive.

When you burn these fuels, you re-release carbon into the air which was fixed in the last year. This is carbon neutral (no change to atmospheric carbon over short time horizon).

If you take some plants that have fixed some carbon and bury them under a continental fold, that's carbon negative.

Re:A good step... but not carbon neutral.

[HTH+NE1]

Carbon sequestered deep in the earth isn't part of the biosphere. Honest if impertinent question: How deep?

How deep do the deepest roots of the tallest trees go? How deep are our deepest natural groundwater sources? I assume we can't just go by a distance straight down from top surface (natural caves in mountains) or sea level (there is life at the bottom of the Mariana Trench).

Re:A good step... but not carbon neutral.

That's an interesting "interpretation" of the laws of thermodynamics. I don't think they say what you think they say. So it is forbidden by the laws of thermodynamics for a meteorite to add some carbon to the Earth? How does that work?

Re:A good step... but not carbon neutral.

[GryMor]

I wonder what the actual efficiency is if you take into account sequestering the CO2. It should be feasible since you have to sequester the hydrogen anyway and the CO2 is produced in the reactor, that is, fixed infrastructure, rather than in the eventual fuel consuming entity.

Hell, how much net CO2 could you pull out of the atmosphere with an un fertilized acre of land and a reactor thats producing the hydrogen/electricity needed to fuel the entire endeavor? How does it compare to the real efficiency of current solar cells (after taking into account manufacturing costs/outputs)?

Re:A good step... but not carbon neutral.

[Khyber]

due to thermodynamics, plants can't create more H20 and C02 than they take in

Considering plants 'INHALE' CO2, they're not going to produce it to begin with. Only us non-plant types produce CO2.

And for fuck's sake - EVERYTHING IS CARBON NEUTRAL. Unless something extraterrestrial smacks into this planet and adds carbon weight to our planet, NOTHING produces more carbon, as it's been here already the whole fucking time. The whole fucking idea is a SCAM - and if you can't see it, you need new glasses. The "Carbon neutral" people need to be skinned alive, because they're only introducing a bullshit muck into the rest of the issues of global preservation. Screw carbon, what about that Radium cloud floating two inches above your head?

Re:A good step... but not carbon neutral.

Guess what -- this working microbial fuel cell takes C,H,O in as vinegar or cellulose, and outputs H2 and CO2! Do you really call that 'carbon neutral' as a fuel source? It's still dumping CO2 into the atmosphere, just less of it per Joule of useful energy.

The C, H, O (vinegar or cellulose) comes initially from plant material. As the plants grow, they take in CO2 and sunlight, and release O2 to the atmosphere as they make the C, H, O (vinegar or cellulose) in the first place. Later in the cycle, the stored H2 and the previously relesed O2 are recombined to deliver the energy on demand.

So the full fuel cycle actually becomes Sunlight -> stored H2 -> useable energy, with the C, H, O (vinegar or cellulose) and the CO2 and O2 all being simply "working fluids" along the way.

This process is not a CO2 producer. It is not dumping CO2 into the atmosphere overall, any more than it is dumping O2 into the atmospehere. Both gases are merely exchanged in and out as a part of the cycle.

Yes, the process (as in, the whole of the process) is indeed "carbon neutral".

Re:A good step... but not carbon neutral.

[hardburn]

Deep enough not to come back up on its own.

Re:A good step... but not carbon neutral.

Apparently you don't understand the difference between the "biosphere" and "the entire earth including the lithosphere".

Even if you consider Earth to be a closed system as a planet, burning coal would still not be "carbon-neutral" by any definition being used BECAUSE YOU ARE DRASTICALLY WRONG ABOUT THE SYSTEM BOUNDARIES BEING DISCUSSED.

Re:A good step... but not carbon neutral.

[Ogemaniac]

It is only carbon neutral when both the manufacture of the fuel cell and the processing and distribution of the fuel are carbon neutral at every step.

Re:A good step... but not carbon neutral.

[oliderid]

"his working microbial fuel cell takes C,H,O in as vinegar or cellulose, and outputs H2 and CO2! Do you really call that 'carbon neutral' as a fuel source?"

Vinegar and cellulose come from plants/trees (IMHO).

So I guess you need dedicated fields to produce these plants.

These fields will use the CO2 in the athmosphere to produce the required cellulose and ingredients for vinegar.

you've got a full CO2 cycle, it looks like it is carbon neutral to me (IMHO ?).

Re:A good step... but not carbon neutral.

[TheLink]

Yep so we should plant more trees, chop them down, convert them to furniture, buildings or landfill them.

Reduce the recycling and reuse of wood. Or even paper IF the paper is produced in a not so energy and resource intensive process. :)

Oh great.

Just what we need. An economy powered by bacteria farts.

Re:Oh great.

[marcello_dl]

Instead of rotten dinosaurs and plants.

Re:Oh great.

Dead animals and plants already are a part of our diet. In some cases, one could call it rotten.

But farts and excrement are also a required part of our existence. Where do you think the air you're breathing comes from?

Yes, we are breathing bacteria farts and plant excrement. And you're welcome for that thought. :)

Microbes make bacteria`

[wbtittle]

Anyone questioning their flippant use of Efficiency. They mix two modes together. The efficiency energy wise and the efficiency molecule wise. We are 91 % efficient at getting the hydrogen out of the mixture, vs we are able to extract 91% of the energy from the Hydrogen we created that we used to create the Vinegar or Cellulose + the energy needed to maintain the bacteria. Hopefully the bacteria maintain themselves and don't start converting me into Hydrogen.

Re:Microbes make bacteria`

[Gregb05]

Incorporating all energy inputs and outputs, the overall efficiency of the vinegar-fueled system is better than 80 percent, far better than the efficiency for generation of the leading alternative fuel, ethanol

We achieved the highest hydrogen yields ever obtained with this approach from different sources of organic matter, such as yields of 91 percent using vinegar (acetic acid) and 68 percent using cellulose the summary is misleading. The article clears it up. Sky is blue, water is wet, etc. etc.

Just wait.

[e9th]

Sure, they'll have it rough for a while. Then they'll form the Organization of Hydrogen Electrolysing Microbes and we'll all be screwed to the wall.

What about the CO2

[Iberian]

Considering the byproduct is CO2 we would have to come up with a solution to that problem as well. Granted it is better than having CO2 spewed from each tailpipe concetrated at a single powerplant and in theory contained in some way but for what use?

Re:What about the CO2

[hibji]

The point is that the CO2 from this process would come from recently dead organic matter. This is opposed to getting the CO2 from plants which died millions of years ago. This is a carbon neutral process.

In Soviet Russia

[Degrees]

In America, researchers apply a jolt of electricity to their wastewater bacteria. In Soviet Russia, the brew tases you! Don't Tase me, brew!

Re:In Soviet Russia

That was, bar none, the world attempt at a Soviet Russia joke I have ever seen in my 4-digit user id life. Also, avoid combining memes, you moron.

Re:In Soviet Russia

[Surt]

That is a fantastic meme mashup, thanks.

Re:In Soviet Russia

[DahGhostfacedFiddlah]

00:00:01 - this is the stupidest thing I've ever seen
00:00:02 - however, the sheer amount of work you put into that is hilarious. Well done.

Conservation of energy?

[AJWM]

bringing the resulting system up to better than 80 percent efficiency when considering all energy inputs and outputs. (emphasis added)

So like, dudes, where does that other 20% of the energy go? The Phantom Zone? No, wait, that'd be an energy output too.

Maybe the system just gets heavier.

Re:Conservation of energy?

[Planx_Constant]

The 20% is lost to the environment as heat, or is unable to be extracted. That's what efficiency means. If they were achieving 100% efficiency, the headline would probably read a little differently.

Re:Conservation of energy?

Microbe crap.

creators churning out newclear power at the speed

of right. there is an unlimited supply, & there's never any subscription fee or cover charge. remember to look up at the sky from time to time, & maybe you'll be one of the first to see the big flash. see you there?

Do the compression deep under water

[sobolwolf]

When there is talk of the difficulty in compressing the hydrogen to store in usable form, could this process not be done deep under the sea where the great pressures would then compress the gas for you? Just a thought...

Re:Do the compression deep under water

[aadvancedGIR]

When you were kid, did you ever played with a ballon and water? Do you remember how hard it is to keep the ballon under water? This is the same thing here, before you could use the deep water great pressure to compress the gas, you first need a greater pressure to force your gas down, so when you had the huge cost of maintaining deep water equipments (changing a single valve can take days when it is under 100m of water) and the risk of losing some of the gas because it will solve into the water, this is truly a Very Bad Idea.

Greenhouse Gases

This is now the new Luddite's Battle Cry.

Any advance in technology will be met with demands that the green house gas impact be studied. You though EPA requirements were crazy now? Just wait.

Link to article

[fava]

The referenced article is at the Proceedings of the National Academy of Sciences website.

fava

Burn the hydogen onsite

[cryfreedomlove]

Why not just burn the hydogen onsite for electricity generation? Then you don't have to spend energy compressing or moving the hydrogen. Just put the new electricity on the grid. We'll all be driving plug in electric cars before the portable hydrogen economy ever gets going.

Re:Burn the hydogen onsite

[Cadallin]

I think you meant "We'll all be walking and living in dark, unairconditioned caves before the portable hydrogen economy ever gets going"

Re:Burn the hydogen onsite

[cryfreedomlove]

Why do you think that is the case? That sounds very dismal.

Re:Burn the hydogen onsite

We'll all be doing that if the Priests of Global Warming have their way. And it won't even been warm!

scared of hydrogen

[JimboFBX]

Is anyone else as scared as I am about this haste to produce hydrogen gas? Essentially we're turning water into two gasses, one of which isn't heavy enough to stick around in our atmosphere, meaning its lost for good. What happens if you repeat the cycle of:

100% H20 -> 99% H2 + 1% H2 lost
99% H2 + 02 -> 99% H20; 1% H2 lost

an infinite amount of times? You run out of water. You know that gas pretty much always escapes no matter how you store it or transfer it. You just can't be careful enough, especially if your dealing with consumers and uneducated grunt workers.

Water is essential for regulating the temperature of and cooling the planet. Oh yeah, its required for life as well.

To paraphrase a quote from Jurassic Park: You spent so much time and effort thinking of whether you could, you never stopped and thought whether you should.

Re:scared of hydrogen

[monkeyengineered]

In order to get the energy back out of it you convert it back into water, or if you leave it alone it will do it itself in the atmosphere, if you want to be afraid of loosing a gas, be sad for helium. It mostly non-reactive and too light for our atmosphere, all those helium balloons of the world are loosing helium to space, with little to no replenishment, and none that's effectively used.

Re:scared of hydrogen

[IndustrialComplex]

Even if we converted 500 million barrels of water per day into pure hydrogen and launched it into space directly it would take over 40 million years before we ran out.

3.26x10^20 gallons of water on earth
divided by
(5.00x10^8 x 42) gallons used per day /365

~42 million.

Not on my list of priorities to worry about.

Re:scared of hydrogen

[Copid]

My guess is that we have enough H in our oceans to keep us going for quite a while. If somebody asked me which molecules I'd be happiest "wasting" in the pursuit of energy, I'd probably go for H2O. We have lots of it, as long as whatever we're doing with it also provides us enough energy to efficiently extract it from sea water.

Anybody want to run the numbers to figure out what percentage of our water we'd be losing per year to sustain our current level of energy use assuming the efficiencies quoted in the article and JimboFBX's suggested 1% hydrogen loss?

Re:scared of hydrogen

[aktbar]

What happens if you repeat the cycle of: {snip}
an infinite amount of times? You run out of water.

There are a few reasons to not worry about this:

(1) The volume of the earths oceans is enough that if we were destroying water in them at the rate at which we burn oil, it would take a few hundred million years to run out. We wouldn't be destroying it at that rate (I would guess, since you can make a lot of hydrogen from just a little water), but even if we were we have a while to figure out a solution.

(2) Hydrogen and ozone react really well -- the hydrogen wouldn't make it out of the atmosphere before it got bound back up as water.

The down side of (2) is that we could damage the ozone layer with leaked hydrogen (http://gcep.stanford.edu/research/factsheets/effects_climate.html)

Re:scared of hydrogen

[ookabooka]

I asked my astronomy teacher about this in high school, apparently hydrogen is so reactive that it'll combine with atmospheric O2 before it gets high enough in the atmosphere to escape. Helium on the other hand will eventually leave earth as it has escape velocity at the temperatures at the highest level of the atmosphere.

Re:scared of hydrogen

[StellarFury]

RTFA. This process has nothing to do with electrolysis, they're converting cellulose (loads of carbon) and glucose (C6H12O6) into hydrogen. Neither of those are water.

Re:scared of hydrogen

[salec]

(1) The volume of the earths oceans is enough that if we were destroying water in them at the rate at which we burn oil, it would take a few hundred million years to run out. We wouldn't be destroying it at that rate (I would guess, since you can make a lot of hydrogen from just a little water), but even if we were we have a while to figure out a solution.

Thank you for your comment, because I had (and voiced here previously) concerns on new technology trend that could leave our ecosystem robbed of water and with too high oxygen level after a while.

(2) Hydrogen and ozone react really well -- the hydrogen wouldn't make it out of the atmosphere before it got bound back up as water.

The down side of (2) is that we could damage the ozone layer with leaked hydrogen (http://gcep.stanford.edu/research/factsheets/effects_climate.html)

Hmm, does that also mean that we could "treat" low-altitude ozone (photochemical smog) pollution by releasing small amounts (controlled concentration to avoid build up and explosions) of hydrogen near the sources (photocopier/laser printer rooms, arcing electric machinery, streets with high traffic) or near "victims" (into our immediate environment, e.g. rooms, offices, etc.)?

Re:scared of hydrogen

[eightball]

If we were at the point that we were burning large amounts of H2 for energy, you could just put a condenser on the exhaust and have lots of pretty clean water. You could then use that water for input into the system or for drinking.

Re:scared of hydrogen

[Technopaladin]

You know that is overly simplistic but here is another formula that would also solve the problem.

6,631,110,367 current est population of humans on Earth
If we lauched 500million of them per day into space
it would only take 140 days(accounting for some record birth rates and low Death(on Earth I am assuming the 500mil launched wouldnt likely survive it))

Re:scared of hydrogen

off by 10 error.

Re:scared of hydrogen

[JimboFBX]

Yes, but the hydrogen is used to fuel your car / transported from point A to point B where my concern comes from.

Re:scared of hydrogen

[JimboFBX]

Thanks for the responses, I never thought about it combining with O2 in the atmosphere on its own. I suppose there is enough O2 that H2 + 202 = 2H20, rather than having any of it escape.

An idea of what do with the CO2

[Radon360]

Here's one possible solution:

Bubble it into water in which you release into shallow man-made ponds in order to accelerate algae growth. Harvest the resultant algae, squeeze the oil out of it and make biodiesel. Put the leftovers from that into a fermenter and get what amount of ethanol you can from it. Then dump whatever is leftover from that onto fields to decompose and enrich the soil.

Yes, you are eventually liberating the carbon again in multiple paths, but it comes down to whether you want to actually sequester the carbon, or are willing to recycle it through a number of diversified fuels as many times as possible.

Re:An idea of what do with the CO2

Step 2. Move to New Zealand.
http://www.nzherald.co.nz/section/1/story.cfm?c_id=1&ObjectID=10381404

What's wrong with the /. moderation system...

[$RANDOMLUSER]

What worries me is where all the H20 from the hydrocarbon burning process is ending up, never mind the CO2

It's ending up in our lakes, rivers and streams! Why aren't more people focused on this crisis??

+1 Informative

Funniest thing I've seen it the last two weeks, hands down. I'm laughing so hard, I'm pissing myself...

Re:What's wrong with the /. moderation system...

[Thing+1]

I'm laughing so hard, I'm pissing myself...

So, some of that H2O is ending up in ... Johnson's underwear? ("What if your home... your family... your dope was on fire?")

Fuel Cell Bioterrorism

[Bones3D_mac]

Just a thought here, but once this system reached a one-to-one ratio with our current fossil-fuel usage, it may only take a single asshat to engineer and deploy a virus capable of crippling an entire country.

Somehow, I doubt a city/state/country-wide quarantine on vehicles (and other devices) using such a system would be a trivial task.

Re:Fuel Cell Bioterrorism

[Carbon016]

I assume it would be unlikely the system would be in place in the actual vehicle itself (too slow) - rather, it would be used in the production facilities and hydrogen would be the input fuel.

Re:Fuel Cell Bioterrorism

[DrKyle]

Simple solution: The "fuel filter" is a glass like tube with a UV light, all fuel passes through the beam and any DNA or RNA passing through the UV light gets destroyed. I imagine this would be important for any usage (not just the threat of bioterrorism) as you are more likely to get bacterial or fungal contamination if you aren't sterilizing the fuel.

Efficiency analysis.

[Gibbs-Duhem]

Hiya,

I'm fairly experienced with these things, so I figure I'll offer up what it looks like to me in terms of efficiency.

The 80% number is the ratio of the energy contained in the hydrogen gas to the energy contained in the acetic acid plus the energy used in the form of electricity. However, the stated claim that this is more efficient than ethanol is not really justified based on the actual paper (which I read).

While it may well be better than ethanol (most things are), if we calculate out the actual efficiency of conversion between ethanol and hydrogen typically reported in the literature (Kugai and Deluga are the best papers IMO) we get around -165kJ/mol theoretical energy loss per mol of ethanol converted to hydrogen and carbon dioxide. For comparison, ethanol contains about 1145kJ/mol of energy to start with. That gives an efficiency of around 86%.

Of course, the "hidden" (not very well) cost of ethanol is that it takes massive amounts of energy to produce before you get to the stage of conversion into hydrogen. In the end, you get something between -30% and 30% efficiency converting seeds into ethanol (one well-known paper reported an actual energy loss, ignoring the energy from the sun of course, which will always mean an energy loss in conversion). This is not very good. However, this sort of analysis was *not* done in this paper, and wasn't claimed to have been done in the paper. It is very likely that this process is better than ethanol (most things seem to be), but the summary (and press release) are overstating the case, unless there is information they have that wasn't included in the actual paper.

And to clarify, carbon-neutral does not mean it produces zero CO2. It means that all the CO2 produced at one point came from the atmosphere instead of from fossil fuels. As long as the process is net energy positive, you can use the extra energy to fulfil the energy needs of the process, and remove the need for fossil fuels.

Re:Efficiency analysis.

[aproposofwhat]

You forget the most attractive part about using acetic acid - it's very easy (and doesn't take much energy when compared with ethanol distillation) to create a dilute solution of acetic acid, simply by fermentation and subsequent oxidation.

This process would ideally be fed by a crop of sugar beet in temperate regions, sugar cane in warmer climes - a brewery and an oxidation plant would provide the acetic acid.

petroleum has little to do with fertilizer

[khallow]

Methane from natural gas is the primary hydrogen source for fixing atmospheric nitrogen to form ammonia. And that in turn is the primary contribution of fossil fuel deposits to fertilizer.

Ho-Hum

[TyTheBold]

If we can manipulate microbes to produce hydrogen in record amounts, can we manipulate some that take IN CO2 in impacting amounts as well?

Re:Ho-Hum

[DigiShaman]

can we manipulate some that take IN CO2 in impacting amounts as well?

Yes, but then the same people that bitch about Global Warming will be bitching about Global Cooling. You know, not enough CO2 left to keep us warm and such.

Face it, it's a waste of time arguing and appeasing these people. But if it makes you happy...

Re:Ho-Hum

[aadvancedGIR]

"can we manipulate some that take IN CO2 in impacting amounts as well?"

It already exists since a very long time, it's usually called a plant.

Re:Ho-Hum

And know what, those things produce oxygen as a side product. Cool, eh?

Re:Ho-Hum

[geekoid]

"These people"

You mean nearly every scientist and all the studies and the evidence?

Improving condition

[hackingbear]

By tweaking their design, improving conditions for the bacteria, and adding a small jolt of electricity , ..., such as yields of 91 percent using vinegar (acetic acid) and 68 percent using cellulose,' Next, the researchers plan to further improve microbes' working conditions by giving them free cokes and coffee instead of vinegar in order to produce more yields. Finally, to maximize outputs, they must find a way to remove the music-playing iPods and the flat-panels that display slashdot pages from the microbes' office cubes -- without causing a strike; as a side benefit, the electricity is not needed anymore.

Seeds

*
            If we can manipulate microbes to produce hydrogen in record amounts, can we manipulate some that take IN CO2 in impacting amounts as well?
            [ Reply to This ]

You just plant a tree, it automatically takes in CO2 and uses it to make wood. I suppose we could breed them to grow faster..

donttasemebrew

[dwater]

Regarding the tag...what ever happened to that guy?

Re:donttasemebrew

not much yet, the cops involved were exonerated.

It still won't help with oil depletion

[frank_adrian314159]

To do that you need the infrastructure to distribute and dispense it. It's never been an issue of making enough H2, but of getting it into the cars.

What the fuck?

Someone needs to get out of the basement a bit more often.

You've missed the joke

The original post said "ALL", as in heat losses too. It would have to add up to 100% if you're accounting for everything. The OP came up with a possible explanation though, that the system is converting the missing 20% energy to mass and getting larger since that wouldn't be counted as an input or an output.

Re:You've missed the joke

[AJWM]

Precisely. Thank you.

Infrastructure

[symbolset]

That's easy. You just distill the H2 into a liquid and mix it with something like xanthan gum to make it gelatinous.

this is ridiculous

They're converting dumped organic material into H2, CO2 and some leftovers, using electricity input.

The folks around Markus Antonietti (Max Planck society for colloid chemistry, Potsdam)
(see e.g. http://www.bioenergylists.org/en/maxphydtherm)
use a simple catalytic process which also extracts H2 from organic material, using no microbes, no electricity, but just tiny amounts of e.g. citric acid as catalyst; and the best is, they even get thermal energy out of the process.

The net balance just feels slightly better...

This all sounds just peachy ...

[HW_Hack]

until the microbes form a union. Numbering in the Bazillions they will have huge political clout !

This is Freedom!

[michaelepley]

You're forgetting, these days

War is Peace
FREEDOM is SLAVERY
Ignorance is Strength

Carbon Neutral For Plant Sources

[StCredZero]

If the sources for the cellulose are fast growing plants like Hemp, then it *is* carbon neutral. (Seriously, dude, you just have to think ahead just 1 more step.)

but they are;-)

http://www.dhmo.org/

Do not let MY boss se this either

[h.ross.perot]

"adding a small jolt of electricity, they increased the hydrogen yield to a new record for this type of system" Just wot we all need; a jolt to the nads to increase productivity..

They also said "Efficiency"

[jgoemat]

Efficiencey:

3. the ratio of the work done or energy developed by a machine, engine, etc., to the energy supplied to it, usually expressed as a percentage.

The original post said it took into account all energy inputs and outputs to come up with the 80% efficiency. That simply means they looked at all the energy going into the system and coming out of the system and 80% of the energy coming in was converted to useful work, not waste heat. If they didn't look at 'all' the energy going into the system (i.e. it was done in sunlight), the 80% figure might not represent the actual efficiency for this conversion.