How Artificial Leaves Could Generate Clean Hydrogen

An anonymous reader writes "At Imperial College London, researchers have embarked on a £1m project to study, and eventually mimic, photosynthesis. Part of the 'artificial leaf' project involves working out exactly how leaves use sunlight to make useful molecules. The team then plans to build artificial systems that can do the same to generate clean fuels such as hydrogen and methanol. These would then be used in fuel cells to make electricity or to directly power super-clean vehicles."

FARK

[gurps_npc]

This is not an announcement of an advance, it is an announcement of intention to BEGIN research.

Not news. Fark.

I hereby announce that I am studying how bees fly. I plan on creating a bee suit to let 300 pound people fly.

Re:FARK

[thestudio_bob]

Sorry... it's already been done. http://simpsons.wikia.com/wiki/Bumblebee_Man

Re:FARK

[jacktherobot]

I'll finally be able to realize my dream of directing a live action movie adaptation of super mario galaxy starring ron jeremy!

Re:FARK

[WindBourne]

I plan on creating a bee suit to let 300 pound people fly.
Oh, good. I think that has a MUCH better chance of happening then our moving towards a hydrogen economy. The simple fact is, that hydrogen is actually WORSE than any other options. Even right now, current in production Batteries are already better than what hydrogen can or ever will do.

Re:FARK

[confused+one]

Best way to store hydrogen is using a carbon atom.

Re:FARK

[3waygeek]

First, I doubt that you will have a small fusion reactor in our cars anytime soon

What are you talking about -- it's at most six years off.

Re:FARK

[bugnuts]

Hydrogen, currently, has higher energy density, BUT has issues with storage, as well as usage (motors are very inefficient and fuel cells are a LONG ways off). LONG before hydrogen issues are solved, batteries will have a higher energy density (assuming that hydrogen can not be compressed infinitly).

Fuel cells are currently being used in cars today, so they are definitely NOT a "LONG ways off".

All of your complaints are just complaints, that have already been addressed. It's FUD.

Electric motors are far more efficient at converting power to usable kinetic energy than gasoline engines, yet you actually try to bring this up? Are you "that guy" who makes up non-issues? Sure sounds like it. Hell, if you're so convinced that current engines are so efficient, they can just burn the hydrogen instead.

And to counter a previous statement you made saying there's no free source of hydrogen, you're wrong. I have a solar photovoltaic (pv) panel that can give me "free hydrogen" from water, and I can use the O2 in other applications. And a car can convert it back to water, essentially making it a solar-powered car, with zero emissions. PV panels convert water and use some energy used to liquify the H2, sell the O2, then car converts remaining H2 back to H2O with a free electron used to run the engine.

The only concession I'll give you is that pv panels would not be able to produce enough for all the cars, were they all retrofitted. But that's the entire point of tfa, to find more efficient methods of getting hydrogen. It would take work to develop a hydrogen economy, and still have enough fuel for those that wanted it. But, if other more efficient methods of producing hydrogen could be found, that'd make it take far less space and be much more efficient. Currently available panels range in efficiency from 8% (for A-Si) to 20% or so (hybrid A-Si + C-Si), and electrolysis of water uses a lot of energy (which is why it give so much energy back). Harnessing the crapton of power from the sun for this is the obvious way to do it, so usable methods of stripping off the hydrogen is important.

Re:FARK

[bythescruff]

...working out exactly how leaves use sunlight to make useful molecules.

Finally, we know what stage 2 is!

Stage 1: (whatever)

Stage 2: Solve the mystery of photosynthesis, which has been baffling scientists for decades.

Stage 3: Profit!

Finally!

[Monkeedude1212]

It staggers the mind to think of the amazing technological advances we've made but we still haven't taken the time to unlock the secrets of photosynthesis. Given environmental concerns, I thought this would have been done a long time ago.

The down side:
Biology will get even HARDER.

Re:Finally!

If you wanted photosynthesis research done, why don't you do it yourself instead of leaning on the people who donate their time and energy to...

Oh. Wait. Sorry. I thought we were talking about a feature missing in an FOSS package.

Re:Finally!

[flaming+error]

> I thought we were talking about a feature missing in an FOSS package.
But aren't we?

AFAIK there's no reason any joe off the street can't go do photosynthesis research and post his findings. Funding and specialized advanced degrees are real nice to have, but they're technically not part of the scientific method.

Re:Finally!

[VisceralLogic]

Great point! Historically, a lot of ground-breaking research has been done by folks without degrees or funding... just an insatiable curiosity.

Yeah right

[nmrtian]

Photosynthesis has traditionally been one of the "hard" problems to solve. These guys are going to figure it out for 1 million pounds and then use it to produce fuel? I'll put my money on cold fusion first.

Energy from multiple sources

[David_Hart]

If we combine this with the efforts on artifical tress that generate energy from solar and kenetic motion (http://www.solarbotanic.com/) then we would have a perfect energy ecosystem.

My only concern would be how flammable these tress would be? Remember, only you can prevent forrest fires... (grin)

David

Re:Energy from multiple sources

[Zarf]

I stand corrected.

Dangerous Future Tech

[DarkMage0707077]

So, if this works, would we then have whole artifical forests creating hydrogen and methanol? How safe would these things be? I imagine a forest would require access to sunlight, but it's somewhat difficult to have proper safeguards on a place that has a big window in it. And with these "trees" being full of methanol/hydrogen, one spark or too MUCH sun/heat and the whole place goes up like a bomb.

Re:Dangerous Future Tech

[Hope+Thelps]

Obviously we'll need somewhere to put them. Possibly we could clear some woodlands to make room for them.

Re:Since when is methanol "clean"?

[blueg3]

If you get it by removing the same quantity of carbon from the air (which is what photosynthesis does), it's carbon-neutral. It's clean because it doesn't contain things other than methanol, and the combustion products of methanol are relatively harmless.

Re:Since when is methanol "clean"?

[TigerNut]

One of the combustion products of methanol is formaldehyde, and that's not harmless.

Linky to Wikipedia

Re:New Idea?

[Rei]

He was correct. Certain steps in the photosynthetic process are very efficient, but the fact that only part of sunlight is photosynthetically active, the fact that plants don't process all light that hits them, and that not all energy they produce goes into biomass, generally limits the total biomass yield to 3-6%. Food crops generally yield between a fraction of a percent and a couple percent of the solar energy that hits them as food, but practical growth limitations make that even lower (by a good margin). To give an example of how that comes into play, sugarcane is a rare photosynthesis exception, at about 8% efficiency turning sunlight to biomass, but only 0.13% solar efficiency to ethanol. That's 4000 liters per hectare of 225W/m^2 insolation land. That's 7.1e13 joules of solar energy to prduce 9.36e10 joules of ethanol. Awful efficiency, no?

Re:New Idea?

[MyLongNickName]

Here is a link to one of the few intelligent articles I found written on the subject. link

Re:Amazed that you are not modded up

[squoozer]

I would guess that they are intending to use the methanol on a fuel cell rather than a regular internal combustion engine. Fuel cells produce essentially nothing but co2 and water. It should also be fairl easy to put a catalytic converter on the exhaust to remove any traces of methanol. Over all I think methanol could be a great fuel.

Re:New Idea?

[Rei]

1/3rd as much power huh? in terms of joules or BTUs, yes, but where one power source is coming from the ground, the other is coming from power plants, and we don't have those power plants!

1) Hydrogen isn't "coming from the ground".
2) We *do* have those power plants, according to the DOE.

Also, the local grids (last mile) can't handle that extra load...

3) Since when? Even a full recharge to a Volt every night -- 8kWh plus a little more for conversion losses (say, 9kWh total) -- can be done on a single normal 110V socket in 6 hours. How exactly is that going to tax the local grids?

Also off-peak is NOT considered "night time" but varies by region and time of year. in the summer, off-peak is typically midnight to 5AM. but BEVs take 8-10 hours to charge, oops.

"Oops yourself". First off, "Off peak" generally starts at around 11:00 and ends at around 6:00. 12 to 5 is just somewhat deeper of an off-peak than 11 to 6, but you're definitely not going to overload the grid. Secondly, 8-10 hours on even a 110V/15A socket (and a 110V/15A will *not* overload the grid) is 48 to 60 miles range per day. Only a small fraction of the US population drives that much. If you want to talk, say, dryer socket-level charging, even 100 miles of range is just over four hours.

Also, once we move to fast charge, it will NOT be stady, stable off-peak loads.

That's not how fast charge works. Commercial fast chargers tend to have battery banks that they draw from. The banks are trickle charged (and ideally, smart-charged).

Also, if you read the link's data, they are NOT storing H2, they're making it as part of a catalytic process.

A) What link are you talking about?
B) Hydrogen cannot be made "in a catalytic process". It's an energy sink, not a source.

It's only kept in short term, low pressure tanks for 12-36 hours.

Doesn't matter. It's still hugely expensive. So is large-scale hydrogen production and compression equipment.

These types of tanks are CHEAP

They absolutely are not. Hydrogen tanks are typically composite (since they embrittle metals). Often carbon fiber with a polymer lining. Show me a large, cheap carbon fiber tank and I'll show you a living unicorn.

efficient

Nonsense. Electrolysis is 50-80% efficient (with the more efficient systems being more expensive due to lower throughput), and you generally lose 10-20% of the remaining energy in compression. Then you have the fuel cells at 40-60% efficiency (you can get slightly higher in the lab, but that's only under controlled conditions, with pre-compressed oxygen rather than uncompressed air). Or you have an H2 ICE generator, at ~40% efficiency.

and have extremely little leakage

Hydrogen leaks through steel at about 100 times the rate propane does (which is positively a leaker compared to gasoline). It is the easiest chemical on the world to leak, bar none.

EV batteries contain toxins, rare chemicals, and though the most recent technologies are highly recyclable, its a messy expensive process, not to mentoin LiIon pack failure and fires...

Wrong on every front. One, the types of batteries mainly being used for EVs today are lithium iron phosphate and manganese spinels. Neither of these are toxic. You can legally just throw them straight in the trash. Two, they contain no "rare chemicals" (fuel cells do, however! They use platinum). Three, the recycling process is neither "messy" nor "expensive"; most packs are having their recycling costs included in the purchase price. Four, LiP and LiMnO2 cells have almost no fire risk, unlike the LiCoO2 cells that most people are familiar with from laptops and cell phones (only Tesla is using those).

I also read the DOE result when it came out recently, and there are a few things you should note: 1) the study completely ignored local grid distribution, and was a statement of average available energy across the USA (total poewr p