Why Hydrogen DOES Have a Future

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Why Hydrogen DOES Have a Future. Go to brilliant.org/Undecided/ and get 20% off your subscription and a 30 day free trial with Brilliant.org! In the summer of 2023, the Rijnstate hospital of Elst, The Netherlands opened its doors. What makes this particular campus interesting is how it generates its energy. Heat pumps, PV panels, and an electrolyzer all work in concert to maintain a constant supply of power. The building collects energy from over 1,300 solar panels located on both the roof and the ground floor. When there’s a surplus of solar, that energy goes toward electrolysis, the splitting action that produces hydrogen. This then allows for hydrogen fuel cells to kick in as a form of reserve power when the sunnier supplies are low.
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4 дек 2023

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@UndecidedMF 5 месяцев назад

Is hydrogen still worth exploring as an energy storage medium? Go to brilliant.org/Undecided/ and get 20% off your subscription and a 30 day free trial with Brilliant.org! If you liked this, check out Why This NASA Battery May Be The Future of Energy Storage ru-vid.com/video/%D0%B2%D0%B8%D0%B4%D0%B5%D0%BE-2zG-ZrC4BO0.html

@blogobre 5 месяцев назад

'cisro' is pronounced 'C. S. I. R. O.' specifically.

@adr2t 5 месяцев назад

Personally, no still, main reason is you are converting H from something else - always - and thus you always going to never have a good return on the power you use. Granted, if it comes directly from the sun (not solar plans it self), but the light, then it will have a better value as the sun is free, but you are still using up a resource we still need such as clean water. Water that normally we have to clean up to some level and in some places clean from salt water that takes even more power. Batteries already have a return rate of 90% - and uses resources that can be recycle once mine out. Let alone, dont have to waste resources we need to live. At best, its a long shelf life of power storages, but even, I would argue that not even true because its hard to store the stuff from pressure to the stuff leaking from its storage container. Let alone the the floor space it takes just to make, store, and burn where batteries take even less floor space of that. The big move will be moving away from Li and into Na batteries along with switching from Carbon to something else like S or Si. Na allows for more batteries to be produce + reduce the cost while the other two help with power dens of the batteries themselves.

@peacepoet1947 5 месяцев назад

I still believe that hydrogen directly from solar panels will become a source of fuel for off the grid living. Batteries are a problem as vehicle fires increase as the Sun hits us with an EMP in the future as the magnetic fields weaken.

@aufoslab 5 месяцев назад

i have no future..

@justanothercomment416 5 месяцев назад

@@adr2t H is energy storage, not a fuel. Most currently comes from NG. It's just more expensive fuel than the status quo. Beware anyone telling you otherwise.

@themekfrommars 5 месяцев назад

For reference, the Netherlands hospital hydrogen/solar example is a quoted 60% self-sufficient for total energy needs. Impressive for such a large consumer of energy.

@BMWHP2 5 месяцев назад

It should be investigated how much Hydrogen is leaking during the production, storage, transport and usage. Leakage of hydrogen (already about 18% during electrolysis) is preventing methane from breaking down in the atmosphere. That is contributing to global warming.

@MostlyPennyCat 5 месяцев назад

@@BMWHP2 Yes, but with increased focus on _not releasing the methane in the first place_ Honestly, it's like proper forget "an ounce of prevention is better than a pound of cure" Or gram of prevention and kilogram of cure if you're not American.

@UndecidedMF 5 месяцев назад

While I think those reports are overblown (the benefits outweigh the negatives), it's an interesting point to raise.

@ProjectileGrommet 5 месяцев назад

⁠@@BMWHP2are you referring to the Rocky Mountain institute briefing from Jan 2020? Just curious

@eddymaddix1786 5 месяцев назад

@@UndecidedMF Matt those reports come from reputable sources: Priceton (acee.princeton.edu/acee-news/switching-to-hydrogen-fuel-could-prolong-the-methane-problem/), Nature (www.nature.com/articles/s41467-022-35419-7), UK Government (assets.publishing.service.gov.uk/media/624eca7fe90e0729f4400b99/atmospheric-implications-of-increased-hydrogen-use.pdf), Columbia (www.energypolicy.columbia.edu/publications/hydrogen-leakage-potential-risk-hydrogen-economy/)

@RetiredRhetoricalWarhorse 5 месяцев назад

As an opponent of people touting hydrogen as the salvation I welcome these developments. I hope they will in fact be able to commercialize these products at scale and it isn't just a scam to get venture capital.

@dufung3980 5 месяцев назад

Container embrittlement is often the issue, but on the large scale I like it’s storage duration. Mathematically the larger the vessel the less waste of containment material, which is part of why larger is better. Picture an inch thick water bottle’s internal volume vs an inch and a half thick vessel the size of an olympic pool. Bigger the better.. Also not soo much irretrievable waste as batteries leave behind.

@cad4246 5 месяцев назад

Have you looked at liquid air energy storage?

@DaveEtchells 5 месяцев назад

Yeah, the inefficiency of electrolysis was the main problem I had with the idea of an H2 economy. (Although safe, efficient, dense and high cycle-life storage for transportation usage is an issue for that energy segment.)

@williammeek4078 5 месяцев назад

I’ll believe it when I see it.

@znail4675 5 месяцев назад

The key thing here is that hospitals also needs the oxygen making that part needed anyway making the power storage feature bonus. Without that so do I think batteries make more sense still.

@johnhiggs325 5 месяцев назад

I see hydrogen as another “battery” to transport and/or store green energy. We need to keep developing different storage methods because they will fill different situational needs.

@TheIgle 5 месяцев назад

Its super helpful at hospitals where there is a need for pure oxygen and distilled water unlike in most other places. Maybe some industrial uses could also use it.. but I don't know who else might need oxygen and have water like is needed.

@DaraParsavand 5 месяцев назад

Yes it is a battery (green hydrogen) of course. A very inefficient battery unfortunately due to poor performance of the fuel cell side (and less so the electrolysis side). I don’t see this changing unless we get a lot of high temp fission reactors with high temperature waste heat which can be used to get more H2 per unit electricity. I’m not even convinced that will do it. And regular batteries will also get better. H2 is a very tough solution.

@victortaveira8271 5 месяцев назад

Compressed air sites is a good candidate to store energy and accompany a high eroi

@a-don13 5 месяцев назад

@@DaraParsavand yeah it's looking like batteries will be the foundation of our global civilization for the next few centuries, maybe until we won't even need to store energy anymore.

@wvangool 5 месяцев назад

@johnhiggs325 did you know hydrogen can already be stored safely as a powder with the same energydensity as diesel? A Dutch startup called H2Fuel is in the process of making this commercially viable. No more compressing H2 in special pressurized chambers and no more any safety concerns. It is superinteresting tech. Combined with these technological advances in H2 electrolizers I think the future of H2 is bright.

@dishwashersafe222 5 месяцев назад

The hospital use case of an electrolyzer to get hydrogen for heat and oxygen for medical uses is cool! But the obvious question is how does that compare to using that electricity instead for a heat pump and a conventional air separation unit for oxygen. Even assuming only excess solar is used, I'd hazard a guess that adding battery storage might make more sense. This is the type of analysis that matters and I'd like to see more of.

@multienergico9299 5 месяцев назад

There is a group where I work that looked into batteries vs hydrogen storage, apparently hydrogen is much more economical. Air separation units are very power hungry and don't do well with fluctuations or sudden ramps.

@user-jm8sy5ox2j 5 месяцев назад

Batteries have a problem where they are very expensive and they don't get cheaper with the more you buy. If you get a electrolytic separator, a generator, and tanks to store hydrogen for later then you only have the high capitol cost when you buy the generator and separator. More tanks to increase your capacity are very cheap in comparison. Liquid hydrogen stored in a tank is also much more energy dense than batteries meaning that you don't need a big building full of batteries and the associated cooling for the massive amounts of heat that they generate either

@bensemusx 5 месяцев назад

@@user-jm8sy5ox2j You can’t compare the energy density of liquid hydrogen without accounting for the refrigeration power. Cooling down to -253C isn’t cheap.

@richyfoster7694 5 месяцев назад

I'm pretty sure the hospital's accountants have checked the other options. They have more management staff than nurses after all.

@erikdietrich2678 5 месяцев назад

@@bensemusxI don't think hydrogen is usually stored as a liquid for that reason. High-pressure tanks are more common, though those (and their pumps) are expensive as well. There's ongoing research into trying to store hydrogen adsorbed into what amounts to metal sponges to increase the storage density without high pressure. I'm not sure what the latest progress is on that, though.

@lachiem 5 месяцев назад

I'm a student at the University of Newcastle, one of my old professors is working on some of this tech with the CSIRO currently! Super cool to see 🙂 Also much prefer your pronunciation of "Scissiro" Matt, we usually just say each letter in CSIRO 😅

@MostlyPennyCat 5 месяцев назад

How could anybody possibly not immediately pronounce it Cicero?!? 😂

@MostlyPennyCat 5 месяцев назад

Or however you want to spell the alliteration.

@MostlyPennyCat 5 месяцев назад

Although it's kinda funny because Marcus Tullius Cicero was a politician and one of the types we would generally refer to as a "Conservative"

@UndecidedMF 5 месяцев назад

That's awesome! But I should have pronounced it "Sci-ro." Not sure why I added the extra S in there (brain misfire). 😂

@snakezdewiggle6084 5 месяцев назад

When working there, most say Sc-eye-row. It's an Aussie thing...

@petewright4640 5 месяцев назад

The thing I really like about the hospital example is the 'green oxygen' - brilliant! The H2 is almost just a bonus. Even better would be to use the H2 to power a fuel cell for electricity when the sun isn't shining and then use the waste heat to heat the building. Also I think the future of H2 is to produce and use it on site, as it gets around the transport issues.

@digger450r 17 дней назад

interesting thing about that, creating 02 by electrolysis isn't an FDA approved process, so it can't be used for medical use here in the US.

@booobtooober 14 дней назад

Or how about using a MegaPack for electricity when the sun isn't shining

@improveyourwoodwork11 5 месяцев назад

Great video Matt. I would like to correct just a minor error in the video. As a 72 year old Australian, I can assure you that the CSIRO is never called Cisiro ! As I'm sure you know, it stands for Commonwealth Scientific Industrial Research Organisation. It is ALWAYS referred to as the C S I R O, never as a single word. I've watched and enjoyed many of your videos, and I was quite confident that you would want to know what I have explained. Keep up the excellent work.

@Robert-sq7bp 5 месяцев назад

+1 to it mostly being spelled out C-S-I-R-O. I have heard people who work there pronounce it "sye-row"

@fleachamberlain1905 4 месяца назад

Great response @improveyour woodwork11, but I'd like to make just one small correction. While not as senior as you, I can assure you, by being a Canberran and from knowing people who work there, CSIRO is also referred to as a single word by many, sounding like sigh-roe. 😉😁

@Robert-sq7bp 4 месяца назад

@@fleachamberlain1905 +1 on sigh-roe

@mitchdownunder2549 4 месяца назад

Agree, having done work with the Newcastle solar group, who are a great team. It's C.S.I.R.O!

@someotherdude 4 месяца назад

You dug in deep there, Improve, yet 3 Australians in the same thread insist that even Sye-roe employees sometimes pronounce it as 1 word. Next you'll be insisting Kangaroos can run properly. For now, just worry about driving on the right side of the road.

@JT_771 5 месяцев назад

It is certainly worth exploring. H2 is very useful for many industries; in short, we need it. The key is in realizing where it fits ... and where it does not. It certainly has areas of both.

@Timlagor 4 месяца назад

As a potent GHG that leaks most readily, it shouldn't even be contemplated for domestic usage.

@JT_771 4 месяца назад

@@Timlagor Given the level of use for the stuff (this isn't going to be car transport, etc), environmental impact shouldn't be an issue. Not in the quantities that make sense.

@Timlagor 4 месяца назад

UK has been talking about pumping H2 into gas mains. I don't think it's going to happen but it was seriously mooted.@@JT_771

@Brad_Fallon 13 дней назад

The future is Hydrogen!

@Brad_Fallon 13 дней назад

@@Timlagor The future is Solid Hydrogen, Lasts forever!

@clehaxze 5 месяцев назад

Everytime new energy storage tech comes up. The number I always want is the round trip efficiency. For lithium battery it is around 90%. Pumped hydro is ~80%. What's missing from this video is exactly this, the round trip efficiency. If hydrogen battery have round trip efficiency of even 70% and cheap enough, it's usible.

@s.i.m.c.a 5 месяцев назад

what round trip efficiency do you expect, if hydrogen generation efficiency is 10%-20% and hydrogen generation is a part of "charging battery" part.

@edfx 5 месяцев назад

There is also need very cheap energy storage even if round trip efficency is horrible

@clehaxze 5 месяцев назад

@@s.i.m.c.a I don't expect anything. If hydrogen's round trip efficiency is 20%. Then unless there's a very good and strong strength elsewhere like density or price. We are much better off using batteries as power storage device. Let's say hydrogen is 1/4 as efficient as batteries. You literally need 4x the power to charge it. You are likely doing more good by selling your power to the grid instead. That way at least coal plants burn less coal.

@clehaxze 5 месяцев назад

However, if you are trying to fuel the battery by adding more hydrogen to it. Then the question becomes how is that hydrogen made. Is it low-emission enough to justify? Or is it better to just use batteries? I was expecting these answers form the vid. But I got no critical information

@Krydolph 5 месяцев назад

I am not sure you completely understand... The hydrogen IS the battery - you are not charging a battery with hydrogen, you are producing hydrogen instead of charging a battery, and then you use the hydrogen as a fuel source later when you need it, instead of using a battery. And the whole video was more or less about HOW the hydrogen was made. But to your first point, I don't think the roundtrip efficiency is very good, and that is the big problem imo, specially compared to batteries. You have a HUGE loss when you make the hydrogen, where you only get a few % of the power you use as potiental power in the hydrogen. And then I have to assume there is a loss again when you convert it back from hydrogen to electricity. It might have a lot promise on the surface, and 10 - 20 years ago, it probably was the most obvious solution- but batteries has come SO FAR, and the hydrogen tech is barely moving, and has little to no chance of catching up. Seems the challenges is a lot bigger than expected. @@clehaxze

@circuitdotlt 5 месяцев назад

What I am missing from all these videos is actual running costs in terms of electrolyzer degradation. I've seen some very different numbers, and all were quite high.

@glittalogik 5 месяцев назад

Small correction: the CSIRO (Commonwealth Scientific and Industrial Research Organisation) is generally just pronounced by its letters 😉

@zephan69 5 месяцев назад

I came here to say that. Not quite CISRO haha

@tuberroot1112 5 месяцев назад

Correct but completely stupid. It's a right mouthful.

@pulsecodemodulated 5 месяцев назад

My parents, who both worked for CSIRO, would often just pronounce it as "csi-ro"

@UndecidedMF 5 месяцев назад

Yeah, I'm not sure why my brain threw the extra S in the pronunciation. I had some former CSIRO employees tell me to pronounce it as a word vs. saying the letters a long time ago. Might be a generational thing. Interesting.

@Axman6 5 месяцев назад

I’ve worked at CSIRO, and it is commonly pronounced as an acronym, not an initialism. The pronunciation is sci-row though.

@BlindMonk93 5 месяцев назад

Hi matt, hydrogen systems engineer here. You did a great job explaining how power efficiency for hydrogen production is indeed a big arguing point against hydrogen power. Excited to see that efficiency improving! Thanks for sharing. There is going to be a whole other energy efficiency issue, around cryogenic liquid hydrogen storage and infrastructure. Currently tackling that with an aviation client. Would love to know your thoughts on that side.

@maxhugen 5 месяцев назад

Hydrogen has the lowest energy content by volume as a liquid (about four times less than aviation fuel) so theoretically requires four times the onboard storage volume - and kept refrigerated at extremely low temperatures. How would that be handled by aircraft?

@DavidHalko 5 месяцев назад

@@maxhugen- contrast that to batteries 🔋- H2 has a higher energy concentration. H2 does not have to compete with liquid aviation fuel ⛽️, but with batteries 🪫, if the goal 🥅 is to stop 🛑 using carbon fuels.

@maxhugen 5 месяцев назад

@@DavidHalko Batteries are the Achilles heel of electrical-based green power. Hardly a surprise. At this point of their development, I'd call batteries for aircraft totally unrealistic apart from small private aircraft.

@chisaomusician7752 5 месяцев назад

Are there any other countries besides China with solid hydrogen storage becoming active? Matt did a great video on metal hydrides.

@18earendil 5 месяцев назад

@@maxhugen Safran and Thales put any plan direct use of hydrogen in airplanes far in the future. More direct usage in their plan is to synthetize kerosene with (green) hydrogen and atmospheric CO2 to use mixed with biofuel from alimentary waste like used frying oil (current airplanes engines apparently can technically support having half of their fuel coming from such waste, like a test last year with used frying oil), after improved both the engine efficiency to try to reduce fuel comsumption to a third or less or current fuel consumption, while trying to increase the amount of alimentary waste oil in the fuel that engine can support. Synthetic kerozene from green hydrogen and atmospheric CO2 is also something which is studied for space rockets, because while rocket using liquid hydrogen and oxygen is a solved problem, those rockets are finicky compared to kerosene rockets. And yes, those studying this option know that it will be even less energy efficient to produce this synthetic "green" kerosene , but the point is that kerosene is more energetic dense than hydrogen and above all far far easier to store and transport.

@yensteel 5 месяцев назад

About your question at the end of the video: My favorite tech is the boring, basic kind: Compressed Air. It requires basic materials, can directly transition kinetic forces to storage without chemicals, and is adequate for short range uses, where energy density isn't important. People have created cars out of them and they work fine, but they're outclassed by electric and gas powered machines. It has some uses for low- cost deployment that is still green, particularly for remote areas. Not everything should immediately go hydrogen right?

@brettgracey9682 5 месяцев назад

Compressed air is one of the least energy efficient processes out there. Typically most systems only run at 10-15% efficiency. Now if heat was recovered for use it might go higher, but still not great. I did see a guy in France who made an air powered car, looked neat, but he basically took advantage of gas stations “free” air to operate. If he had to fill it at home, he wouldn’t use it, guaranteed.

@yensteel 5 месяцев назад

@@brettgracey9682That is one of the other big downsides indeed! I double checked online for content, there's too many clickbait scams.

@jimsvideos7201 5 месяцев назад

I wonder about using a caboose on trains going downhill to brake the descent using a compressor plant. As long as there's a local user for that air, it's all but free.q

@joshuatate6106 5 месяцев назад

Compressed CO2 seems a much more efficient system. Check out "Energy Dome".

@chlistens7742 5 месяцев назад

nice to see a hospital using h2 splitting as a byproduct of O2 generation for patients. I have had to use o2 in hospitals before. the thing most people don't think about is semi-portable local generated.. vs our current route to get anything. If you can local produce something you have an extra savings right there.

@ericlotze7724 5 месяцев назад

Can you cover Dimethyl Ether (DME) ? It stores like Propane, yet can be made from (Sustainable!) Biomass, or via Power-to-X Chemicals *like* Hydrogen etc Also it works well as a Diesel Fuel due to it’s high Cetane Value. Also it *cannot* produce Soot, thus Diesel Particulate Matter is WAY lower. I’m rambling, but this is a neat solution that needs more coverage and you could do a great job!

@Warp9pnt9 5 месяцев назад

After the intro but before watching: Hydrogen seems best suited for on-site renewable production (PV, wind, water, etc.) as a chemical energy storage mechanism, provided that the electrolysis unit is NOT consumed in the process (within reason ... 5-10 year life span, preferably 20-30+). The thing about electrolysis (be it in lab conditions, an acid battery, galvanization process, the anodes and cathodes are either consumed/pitted, or grow spikes, and are irreversibly consumed in the process, giving a disingenuous assessment of "green" energy, as the replacement parts aren't factored in. If they've found a way for the electrolysis unit to suitably regenerate itself at sufficient quality for 10,000+ cycles, that'd be a good start. Then even factoring in the extraction, transport, refinement, transport, and installation/maintenance of consumables, it'd bring the average renewable energy up over the life.

@Freshbott2 5 месяцев назад

I know it’s far less efficient but if it’s cost efficient vs. replacing the cells, you can always burn hydrogen in a piston engine, boiler or turbine. For something big like a hospital that’s reasonable.

@bringiton8989 5 месяцев назад

Good job electrolysers are generally rated for ~80,000 hours of operation already then.... They do degrade, but think of them as a flow battery that you only ever charge. Users generally "discharge" the energy in another location or process. Given the pretty horrendous chemical environment generated within the stacks (remember H+ ions floating around in liquid media are generally just referred to as "acid") - that's not too bad.

@dony2852 5 месяцев назад

Honestly, even if production issues are panned out, I am skeptical about storage and transportation ever being anything but expensive. I am supportive of research but realistically, development likely only makes sense in niche environments like space exploration.

@DavidHalko 5 месяцев назад

Aluminum containers, surrounded by carbon fiber is pretty common, and not for space exploration. Aluminum is cheap, light.

@user-pt1ow8hx5l 4 месяца назад

One can clean the urine from a hospital on site. And then recycle the water as...... hydrogen and oxygen,........ Saving on sewage..... And the spaceships can be good metafors for how one handles a small unit and its issues..... CarbonCapture included...

@rvandokkum Месяц назад

It's hardly ever mentioned, but in the old days of 1860 - 1960 many towns and cities in Europe used to produce their own "towngas" from coal. It was stored at day time in big "floating" iron silo's and piped in the evenings to the customers for cooking and lighting. Remember those romantic old streetlights that needed to be lit at evening? Now what is "towngas" you will ask? Surprise! A mixture of 60% hydrogen, 25% methane and the rest was most poisonous carbon-monoxide (CO).

@bellofbelmont 5 месяцев назад

Thanks Matt. Hydrogen will definately be worth the effort. Storing as ammonia has been tried and I think it works well. BTW we call the CSIRO by it's letters ie. it's spelled out C-S-I-R-O >>>> 🙂 Jim Bell (Australia)

@georgepal9154 4 месяца назад

Thank God someone realized we should use ammonia and not pure H2.

@zinaustro 5 месяцев назад

Great video, thanks. I'd like to see more on ammonia as a hydrogen carrier, especially in light of the recent Japanese development of perovskites for ambient pressure ammonia storage. Thanks!

@oldschool31 5 месяцев назад

I love seeing the titles of articles but good you also link to the articles please :)

@mm650 5 месяцев назад

I think that adsorption based Hydrogen Storage is WAY more impressive than any advance in Hydrogen production. I would love to see some attention on your Channel about Plasma Kinetics and it's technology.

@jopo7996 5 месяцев назад

Viable hydrogen production and its use may not be available yet, but it's really going to blow up in the future.

@beaudavis3808 5 месяцев назад

Did you had to say "blow up?"

@iamaduckquack 5 месяцев назад

@@beaudavis3808It was quite likely deliberate.

@s.i.m.c.a 5 месяцев назад

aha...with side effect like increased consumption of fresh water...same problem like electric car increase without updating network grid.

@UndecidedMF 5 месяцев назад

I see what you did there ... and I like it. 😂

@beaudavis3808 5 месяцев назад

@@s.i.m.c.a Not necessary. The hydrogen fuel cell would be another part of the water cycle.

@coreycreehan8197 5 месяцев назад

Excited for the TBD follow up on this video. Hoping you can talk about what sorts of scales a Hysata electrolyser (sp?) paired with a fuel cell and PV panels could work at. It seems like this could be a decent grid scale storage solution but do you think it could work on a single home scale?

@davestagner 5 месяцев назад

I’ve noticed a real uptick in the quality of your videos in the past few months, Matt. Bravo! This was a really interesting, thoughtful take on the subject. It seems to me that much of the green hydrogen hype just assumes it can replace natural gas in the existing pipeline/storage infrastructure, which just isn’t true - not enough pipe density. But as *locally generated* energy time-shifting, it’s very promising! If the products are available, it allows individual facilities (like hospitals) to operate fully off-grid for long periods of time in a completely clean way. And building-scale electrolyzers can benefit from economies of scale and relatively low-risk manufacturing. Contrast this with the lack of ANY industrial scale electrolyzers on the market, due to the intense commercial risks for the first movers. I like it when I get new ideas about how the green energy transition can work!

@tamingthejungleanallotment5486 5 месяцев назад

Those two hospitals you mentioned in the video are great examples of how hydrogen technology can be successful deployed. There, the H2 is created with excess solar, stored on site, then used to generate electricity when needed. The O2 is also a very useful product for them. Hats off to them. I am uneasy about H2 tech being pushed into other sectors. The oil industry has recognised there is a move away from their products towards greener technology, and this is how they can retain some of it. By promoting hydrogen for transportation, or even in place of natural gas it spreads out the research spend. They know that it's by far easier and cheaper to create H2 using their products than in any other way, creating a demand that otherwise would not be there - all the while releasing carbon.

@TLguitar 5 месяцев назад

A few years ago there was a news story on Israeli television about a startup called H2Pro, which was founded by a university team, and they claimed their way of electrolysis separates the H2 and the O2 production into two separate steps, which "eliminates the need for the membrane, the most expensive and delicate part of an electrolyzer" and enables high pressure, scalable and relatively cheap hydrogen production. Supposedly it has a "98.7% HHV inside the cells and a 95% system efficiency." One of the interviewed scientists from the company went as far as saying "we can win a Nobel prize for this". I haven't really heard anything from them since, although looking up their name now shows they did sign a $250 million hydrogen supply deal with a Japanese company called Sumitomo. Anyway, I wonder how their electrolysis technology compares against the one with the capillaries discussed in the video.

@janami-dharmam 5 месяцев назад

the major problem is not the bubbles but the overpotential. Both hydrogen and oxygen need higher voltages (compared to the theoretical voltage) to discharge at the electrode. Hydrogen overpotential can be reduced using expensive and specialized electrodes (like platinum) but the oxygen overpotential has not been really tackled. One trivial solution is to carry out the electrolysis at high temp when the overpotential is reduced. But high temp electrolysis cells are messy and expensive. Getting a theoretical efficiency of 95%++ is really difficult.

@xIQ188x 5 месяцев назад

Sounds like VC hype

@TLguitar 5 месяцев назад

@@janami-dharmamPerhaps they discuss that aspect in their Nature article. It's called "Decoupled hydrogen and oxygen evolution by a two-step electrochemical-chemical cycle for efficient overall water splitting".

@TLguitar 5 месяцев назад

@@xIQ188xThat did seem a bit like it, although I think they already had investors such as Bill Gates and Hyundai.

@petewright4640 5 месяцев назад

@@janami-dharmamThe problem is the bubbles as they block the electrodes and cause the over potential.

@garyegray 5 месяцев назад

Hi Matt, loved the video, and your channel! Have you heard of the tower that is converting CO^2 and water vapor from our atmosphere into Jet-A or diesel fuel? It burns just like jet or diesel fuel but the emissions are just returning to the atmosphere from whence they came, thus, net zero. Have you seen this technology? I like the concept because if this technology is scalable, nothing has to change in terms of fuel storage, delivery, etc except for how it is generated. Is it ideal for congested cities where the concentration of emissions can cause unsafe to breathe city air? No but for certain solutions such as fuel for aircraft, shipping, trains, etc, it sounds like a viable solution. What are your thoughts? Would love to see a video on this. Thank you!

@Eridescent 5 месяцев назад

Really great video! I have to nitpick though - it's the see-ess-eye-are-oh, not "cicero"! Occasionally people say sci-roh, but usually we just spell out the initialism.

@roberthoward9500 5 месяцев назад

I love that Australia is a world leader in this field. I feel like Australia is an ideal location for hydrogen as well given our massive amount of sunlight.

@theharper1 5 месяцев назад

Agreed, but it's a shame that so many Australian inventions (especially from CSIRO) have been bought and buried. On the other hand, some have been spectacularly successful like WiFi. CSIRO has also developed more efficient methods for converting hydrogen to ammonia for simpler storage and transport.

@dominionscave4752 5 месяцев назад

30+ years ago Australia lead the world in solar PV R&D, and most of it paid for by the taxpayer. It seems it was all given away for free, and in particular to China who have many of those researchers working for various Chinese corporations. So the question is, will the same happen again, especially if the funding comes from entrepreneurs, venture capitalists, or shareholders in the private sector who have a tendency to sell IP to the highest bidder for the highest short term profit if this IP is not under the total control of the founders or the CSIRO. Imagine where Australia would be if the Solar technology was nurtured here into an industry and the profits feeding back into developing better PV and other "green" energy production and storage.

@MWSCologne 5 месяцев назад

In a lot of use cases hydrogen is just another battery. So I would be interested in other battery technologies as a comparison. Especially in large scale applications / industrial applications.

@NeblogaiLT 5 месяцев назад

Short time energy storage and balancing: battery, or things like pumped hydro. Long time energy storage, that also be scaled up to huge capacities: hydrogen (or its products that are easier to store). It is much cheaper this way.

@alexs.1683 5 месяцев назад

Methanol is the best form of Hydrogen storage we have and there's so many ways we can make it. You can use captured CO2 to interact with Hydrogen to make Methyl alcohol. There's already direct methanol fuel cells on the market ready for purchase...!

@kgsails7102 5 месяцев назад

Matt, there was a recent article in the New York Times about how France has discovered naturally occurring hydrogen in an old mine. It's being called white hydrogen. They think there's a 5-10 year supply (based on worldwide current hydrogen use) in a single mine. The US also admitted that hydrogen is often found during oil well drilling but is often flared off (similar to natural gas flaring - both are a huge waste and in the case of natural gas, an unnecessary source of CO2 emissions). I think it is the future of clean energy storage despite the low round trip efficiency because at the end of the day, battery manufacturing is a huge source of CO2 emissions and just nasty pollution in general. I find it comical that so many so-called environmentalists have embraced battery storage when the manufacturing (especially in the short term) is so environmentally noxious.

@DavidHalko 5 месяцев назад

We really need pipelines to be more readily built for H2 and such,not blocked via regulatory agencies.

@BinkSayres 5 месяцев назад

Matt is going to need a new channel now. UnOreoed with Matt Ferrell. It's the same exact channel and content as before, but everything is explained through the manipulation and destruction of Oreo cookies. The Nabisco sponsorship writes itself. In all seriousness, thanks for the content. It's great to see this space evolve as the technology behind it comes out of its infancy.

@garrettmoynihan7229 3 месяца назад

I understand why Matt used Oreos in his analogy, but he had a real opportunity to make a Hydrox cookie pun and he missed it.

@bigpete1014 5 месяцев назад

I would think battery storage would be more efficient, more economical, and make more sense. Hydrogen storage is always going to be a big problem at any scale.

@gelisob 5 месяцев назад

and safer..

@Spencergolde 5 месяцев назад

It makes sense solely for mobile applications, and specifically for aerospace, where high energy density and fast refueling can be worth the inefficiency. Also, hydrogen has a lot of use in the chemical industry as a feedstock, mainly for producing ammonia which fertilized all the crops on earth. That need will not go away any time soon, so developing green(er) ways of making hydrogen is very important

@NeblogaiLT 5 месяцев назад

This is not really true. Hydrogen storage can be at least tens of times cheaper than batteries if you only want to store energy accumulated in summer to use in winter. There is also the benefit of scaling- being able to use underground gas storage facilities with huge capacity, while there is simply no way to scale up battery production that much. And then, you can also tie hydrogen atoms with nitrogen to produce ammonia for energy storage, which is easy to store, easy to burn, and production of which will have to scale up greatly as we transition from agricultural ammonia made from gas (production emits CO2), to green one.

@TarisSinclair 5 месяцев назад

Battery storage has nowhere near hydrogen's energy density per mass and can be produced with simple electrolysis as opposed to often harmful and complicated processes of fabricating modern batteries. Just for comparison, NiMH batteries provide 0.4MJ of energy per kilogram. Lithium based batteries provide 0.72MJ of energy per kilogram. Hydrogen provides 142.5MJ of energy per kilogram - a value on an entirely different scale. Now that said, it does come with a whole lot of disadvantages (or challenges to overcome). Reliable and lightweight storage will be one of the most crucial problems to solve. Once that is done, I could see us even filling our cars' fuel tanks with water instead of gasoline, and letting the car do the electrolysis and run on hydrogen.

@Spencergolde 5 месяцев назад

@TarisSinclair Energy density per volume unit. And it takes enormous energy to compress or condense hydrogen to a meaningful density, given that it has the highest specific heat capacity of all known materials

@aaronhann4931 5 месяцев назад

Good video, but pronunciation of CSIRO is sigh-row, not Cicero 😅

@andrewt9204 5 месяцев назад

Even as a stationary battery, it doesn't seem as good as a flow battery or even LFP based chemical storage. Still need rare earths for the hydrogen catalyzers. LFP you need lithium of course, but it is highly recyclable. I believe the platinum and nickel anode/cathode in a fuel cell does slowly get used up.

@tbix1963 5 месяцев назад

Great video, once again inspiring me to ask for a video on the HydroMax process. Uses molten iron and tin to make hydrogen from waste hydrocarbons and then reset with water injection to make carbon monoxide. Seems like a natural for sewage waste treatment especially if you consider the hydrogen content found in urine. The two main inputs for the process are found at every sewage plant, water, and bottled up hydrogen in the urine and solid waste. If you were to combine the hydrogen with the carbon monoxide you can make storable fuel with the Fischer- Tropsch process or combust the carbon dioxide and power an electrical generator to power the process with an induction furnace powered crucible. With hydrogen as your primary waste product.

@tbix1963 5 месяцев назад

For those that don’t know, The HydroMax process is a simple process that takes place in a crucible full of molten iron and tin. Water is injected into the molten metal. The oxygen in the water gives up its bond to hydrogen and chooses a stronger bond with the iron leaving the hydrogen to boil off and be captured. Then the iron oxide with tin that works as a wetting agent is scrubbed of its oxygen by injection of carbon waste that has a higher attraction to the oxygen than the iron producing carbon monoxide as a byproduct that is then captured to be burned or used as needed. In the process resetting the iron to capture more oxygen in the hydrogen production process. The temperatures it operates at breaks all the bonds down on the atomic level thusly cleaning the input materials from their less than pristine conditions prior to the process. Any excess materials are cleaned off of the iron in the form of dross and can be processed for their elements or even used as a substitute for Portland Cement reducing the co2 that is typically made in the process of making Portland cement for the construction industry.

@krisingelsson 5 месяцев назад

I don't know if I have mentioned this on your channel before, but in Sweden there is a big project called Hybrit, it is using green H2 to make "green" steel amongst a few things. Maybe worth looking in to. 😊

@cad4246 5 месяцев назад

What's your definition of green? If the grid is burning anything whilst the hydrogen elctrolisers are running then it's not green. You could have exported that energy to the grid and reduced the carbon emissions. Are Hybrit spending a fortune on electrolisers and then running them only when the grid is zero carbon? Sweden's grid looks pretty good per Wikipedia, but still 16.6twh of "other", which means burning stuff, in 2021.

@theharper1 5 месяцев назад

@@cad4246 does the concept of transition have no meaning for you?

@onyhow 4 месяца назад

@@theharper1 Seems like @cad4246 believe less in "perfect is the enemy of the good" and more in "go big or go home".

@wimhey Месяц назад

Coal is now used to purify iron ore. CO is the gas that removes oxygen from the iron ore. Hydrogen can replace CO

@Bonta768 5 месяцев назад

Love your work bro. CSIRO is normally pronounced by pronouncing its 5 letters individually.

@nevillegarden5114 4 месяца назад

It's extremely exciting that scientists & engineers are still pursuing HYDROGEN as nearly all fuel sources. I say give the inevitable progress of HYDROGEN the positive attention HYDROGEN deserves. 😊😊

@TexLogan-du2yi 5 месяцев назад

This is good to see. I think all the self sufficiency solutions from here on out will involve a pastiche of methods that work together. Thinking that solar or wind alone will carry the day is naive at best and dangerous at worst.

@darthsirrius 5 месяцев назад

Hey matt, great video! I remember a few years ago hearing about a physical hydrogen tape that helps solve some of the storage issues, but they had to pause research on it because the US DOD stop them or something. I'd love more info on that if there's anything new

@mrnnhnz 5 месяцев назад

Interesting video Matt, thanks for your work on this, and presenting.

@Halfwalker 5 месяцев назад

"Be all to end all" is the phrase ... My Mum hammered that into me at an early age :) Best channel ever - we intend to go hard for solar/battery mainly thanks to you.

@robinconnelly6079 5 месяцев назад

I'm a big hydrogen fan. Nice to see a positive video about hydrogen amid this anti-renewables wave that is going on. Regardless of climate change and all the fighting that is going on around that, I think renewables are a great thing. I was a fan before all this started. The idea of on-site conversion has a lot going for it. I really like what this hospital is doing and I hope this thinking gets applied in many other areas

@petersmout1401 5 месяцев назад

Could you do a review on the Lavo Hydrogen Home Enery Storage System power wall now that it has been available and in use for three years. I would be very interested to see how it is going.

@teardowndan5364 5 месяцев назад

When talking about the efficiency of electrolysis, you cannot forget about all of the energy required to process water until it is pure enough to use for electrolysis.

@Soothsayer210 5 месяцев назад

I really believe that in future there WILL be a parallel economy with Green H2/Fuel Cell and EV's complementing each other in different areas. For applications like Locomotives, Heavy Trucks, Ferries and even Shipping, I think there is a good possibility for H2 to capture that market. Not to mention manufacturing industries like Steel, Cement etc. Another use for Green H2 would be the possibility for it to be converted to Synthetic Fuels. I am keenly watching this segment. Thx. for the videos.

@Anfros. 5 месяцев назад

Most land based shipping should just be conventionally electrified, ie with overhead wires. We've had the technology to fully electrify our railways for more than 100 years, and we are starting to see pilot projects for electrified highways for trucking. Hydrogen does have great potential for ships and aircraft, and some land based vehicles. As long as we get places where vehicles can fill up on hydrogen, I think we are going to start seeing plug-in hybrids with fuel cells as backup replacing fossil fuels.

@Anfros. 5 месяцев назад

@@pin65371 For trains they are a nobrainer, tracks already have height limits with tunnels and bridges, I agree it can be a problem for roads, the solution I've seen proposed is electrifying the leftmost lane on the highway, so if you need to drive something big you drive with the other cars, there have also been proposals to put the transmission wires on the side of the vehicles instead of above. The first solution would obviously only work for 3-lane+ roads, but all solutions have issues.

@richyfoster7694 5 месяцев назад

In New Zealand we built a natural gas to petroleum converter in the late 70's. Just before fuel prices crashed back down. It has been mothballed nearly 30 years now. Unfortunately now that fuel prices are rising the gas field is close to collapse.

@FriedrichWinkler 5 месяцев назад

I believe hydrogen transportation at high pressure is going to be prohibitive. If it is converted to ammonia with low-cost heat, it could maybe alleviate some transport costs. An ammonia video would be interesting.

@user-um8ny1kw6e 5 месяцев назад

Matt thanks for the video, what is your take about Natural/White/Geological Hydrogen?

@dante2771 4 месяца назад

Would love to see some videos on the companies recently featured on the Forbes 30 under 30 list. Saw some interesting companies on there with little to no detailed videos even though the work seems amazing (Aquagga getting PFAS out of the drinking supply, Aquaria air water generators, Calion zero-emissions refrigeration, etc)

@kennystrawnmusic 5 месяцев назад

Grid-level storage is definitely a good use for hydrogen since it’s much more abundant than lithium. However, in order to make it work for transportation, we’d need to start transforming the recent fusion ignition achievements into power plants. Deuterium, after all, cannot fit through a proton exchange membrane, so it’s literally a waste product of hydrogen electrolysis - so if Helion and other startups like them manage to succeed, then it may be possible to have a system where the energy powering the electrolyzers would cost absolutely nothing since it would come from the very waste deuterium that would otherwise just sit around in storage tanks.

@dannywitz 5 месяцев назад

Efficiency is hilariously ignored in nearly all of these scenarios. Just charge and discharge batteries, multiple times as efficient. There are a few scenarios that makes sense excess power at a large wind or solar farm. Then sell the hydrogen to aircraft, big rigs or trains (new hypothetical ones😊)

@Hans-gb4mv 5 месяцев назад

Some times there are more important things in a project than just efficiency or cost. Take both hospital examples. In the Netherlands, where they use it as a power source for the hospital itself, they have the advantage that in case of a grid outage, they can also keep powering from hydrogen as long as you get the tanks refilled in time. The other one is reusing the oxygen, so that's also a big win that would not be possible with a battery system. This goes to show that while hydrogen has its downsides, it also has its use cases that we should not ignore to easily.

@DavidHalko 5 месяцев назад

Human & material cost to replace dead ☠️ batteries 🪫, energy cost to recycle ♻️ dead ☠️ batteries 🪫 An H2 aluminum tank is better than a battery 🔋 for TCO & recycling ♻️ liability.

@dannywitz 5 месяцев назад

@@DavidHalko please look into the amount of energy consumed to make hydrogen then compress and refrigerate it so a significant amount can be stored in a given tank. Lead acid batteries have a very high recycling rate over 90% there is no reason other batteries cannot be readily recycled as well. All of these scenarios are better than the current grid sources. Also hydrogen is acidic and needs expensive materials for hoses and tanks. Also electrical infrastructure is everywhere and easily reconfigured.

@DavidHalko 5 месяцев назад

@@dannywitz - “please look into the amount of energy consumed to make hydrogen…” Renewables suck. Peak solar usage is so high that there is no value in selling it back to the grid. They shut down wind turbines because the grid can’t handle it. When the sun is down & wind stops or is too fast, they have to crank up the natural gas turbines. H2 solves all these issues, by consuming the solar energy that is negative in cost, keeping turbines running when they are overproducing, and can be stored to be used for peak power so natural gas is no longer needed. Refrigeration is not required, is can be pumped underground for storage & retrieval, the renewable energy is wasted now anyway, so we might as well use it. “Lead acid batteries have a very high recycling rate” True, north of 95%! Lithium batteries have a low recycle rate, south of 5% worldwide… and lithium batteries are being used more. “Hydrogen… needs expensive materials” Aluminum is not expensive “Electrical infrastructure is everywhere” So is water, for H2 production. “Electrical infrastructure… easily reconfigured” Price getting a 50 Amp plug on the other side of your house and see how expensive that is. An EV charge is north of 4x the electricity a house uses, at least my house, and the EV has to be charged in 15 minutes??? Sorry man, think about that, when people are driving home to their apartments (~30% of Americans) and they all want to charge up before they park their cars in a lot… or on the way to work because they could not get a slot before dinner! This is a NON TRIVIAL problem. The size of the electrical lines and power will require unbelievable peaking during those times, and local power generators will likely be required. They are already deploying diesel generators at EV charging stations, today. NON TRIVIAL.

@dm1045 5 месяцев назад

what happened to the hydrogen storage discsthat France came up with a couple years ago? Could we get an update on that?

@piraterubberduck6056 5 месяцев назад

I love that there are hospitals using both the hydrogen AND oxygen from the process. That is the kind of efficiency we need to see.

@stevehayward1854 4 месяца назад

It's been having a future for the last 50 years and still nothing

@ohsweetmystery 25 дней назад

Electric cars have had more than a hundred years of development and they still suck.

@stevehayward1854 25 дней назад

@@ohsweetmystery In what way do they "suck". They are utterly reliable, cheap to run compared with a high maintenance ICE vehicle, they have great ranges and can charge anywhere there is a power outlet, they can rapid charge to 80% in 15 mins, well some can, and are ridiculously fast, they are very efficient and convert 95% of the electricity into propulsion, unlike the ICE car after over 100 years of development is still only 25% efficient, converting 75% of the energy is gas to heat. I think you will find that ICE vehicles suck after over a 100 years of developement whilst electric cars have only been in development for the last 15-20 years and already EV's out perform ICE cars

@James_ZA 24 дня назад

@@stevehayward1854 "Great ranges" 😂😂

@stevehayward1854 24 дня назад

@@James_ZA I agree, ranges of 350-500 miles is more than enough to burst anyones bladder 😜

@pyros4333 22 дня назад

@@stevehayward1854 you must be fun at parties

@DrownedInExile 5 месяцев назад

Exciting stuff, hope it works out. May the best clean tech win! Also, subscribed!

@andersbentsen3107 5 месяцев назад

Matt Ferrell, Cleanplanetinc from Japan expect to build a hydrogen boiler called Ikaros in 2024. They already tested Ikaros 2kw output for more than 500 days. It will be able to power a private home with heat and electricity for 10gram of hydrogen per month, if a kg of hydrogen cost 3dollar, then your energy bill could be 3cents per month. It really doesnt matter what price hydrogen are sold at

@GunterZochbauer 5 месяцев назад

Hydrogen might bring more money to influencers, but it has no future for EVs or residential power supply.

@viability33 День назад

Are you working in gas field

@GunterZochbauer День назад

@@viability33 No. If I would, I would be in favor of Hydrogen, because it's made from natural gas. It's just that Hydrogen from natural gas is much worse for the environment than burning natural gas directly.

@sheepuff5999 5 часов назад

People were saying the same thing about EVs 10 years ago.

@GunterZochbauer 5 часов назад

@@sheepuff5999 These two things are completely different. There is currently no viable way to create Hydrogen except from natural gas. "Burning" Hydrogen from natural gas is much worse for the environment than just burning natural gas directly. Hydrogen is hyped just to make fossil fuel look environmental friendly and to keep up the revenue stream for the fossil fuel industry. I'm perfectly fine with using Hydrogen as soon as they can show that it can be produced at scale using renewables in a way that is efficient enough to compete with other technologies for example batteries. As long as we lose 70% of the energy in the process it's better to use electricity directly.

@beaudavis3808 5 месяцев назад

We need both nuclear energy and hydrogen extremely badly.

@leftcoaster67 5 месяцев назад

There's no one solution. The more options we have the better.

@UndecidedMF 5 месяцев назад

Agreed.

@joshuahillerup4290 5 месяцев назад

How does the on site energy storage solutions compare with those large and heavy in place batteries, in terms of cost?

@UndecidedMF 5 месяцев назад

That's a video unto itself, but in general batteries aren't cost effective when you get to the 4-8 hour storage range for large scale facilities. Other tech becomes more cost effective like pumped hydro as an example (even though it's nowhere as efficient as batteries). Hydrogen can scale better than batteries in those terms too (in theory).

@joshuahillerup4290 5 месяцев назад

@@UndecidedMF ah, interesting. A video on that would be interesting I think. "Hydrogen" seems really like a bunch of fairly different things depending on what you're trying to use it for

@raffly4449 4 месяца назад

As you stated, it’s all about cost per unit of energy. A comparison of battery chemistry’s, hydrogen and other forms of energy storage showing cost in the past versus far past, present and projected future would show trends which might be useful.

@Autovetus 5 месяцев назад

Each time you use " breakthrough" in your video title I want to subscribe and patreon you less 😮‍💨

@OculusGame 5 месяцев назад

Hydrogen is overrated.

@Pleezath 5 месяцев назад

How?

@vyrv6719 5 месяцев назад

yeah, but we've seen enough tech find random breakthroughs and resurge that it's probably still worth some significant part of the market share. Interesting debate to figure out how big or small that should be though. :)

@jasonborne5724 2 месяца назад

Hydrogen is underrated

@FinlayDaG33k 4 месяца назад

Rijnstaete Elst is practically around the corner for me (just 3 trainstops/15 minutes away) and I was really surprised about their hydrogen solution as a sort of "backup power".

@gerritgovaerts8443 5 месяцев назад

Big problem wit H2 remains medium to long term storage . The molecule is so tiny it will escape thru any container wall . More than a few days and your tank is empty . Not a good way to store that precious green energy

@Anfros. 5 месяцев назад

The thing that makes me convinced green hydrogen will happen is that hydrogen is a key chemical in the production of greener steel, as a reducing agent replacing coke. So green hydrogen is happening regardless of developments for energy storage and vehicles.

@DavidHalko 5 месяцев назад

And H2 is used in space travel, so H2 will definitely be produced, regardless of

@Anfros. 5 месяцев назад

@@DavidHalko Space is pretty niche though, and it is able to absorb pretty high costs

@DavidHalko 5 месяцев назад

@@Anfros. - true! So, that covers Florida, Texas, California… rocket built in Arkansas, so another state for support will be there. Walmart & Amazon is deploying H2 forklifts in their warehouses, since EV forklifts suffer from battery sag over time while H2 does not sag. Everywhere there is an Amazon & Walmart warehouse, there is H2 supplies. The issue is regulation with H2… Mr President & Transportation Secretary: open up existing H2 locations for filling!!! (Same issue with EV chargers, if it was not for Tesla, there would be very few. The chargers down the street from me & my old job all closed down & were removed.)

@remplante 5 месяцев назад

Love it. CSIRO is pronounced as it is spelled C S I R O not Csiro as a word. And as you said it is the federal govt owned Commonwealth Scientific and Industrial Research Organisation. They are very prominent also in agriculture development and pest management techniques.

@tobiwan001 5 месяцев назад

There are companies like HPS Home Power Solutions that already sell combined packs (like "Picea") that include fuel cell, electrolyser and hydrogen storage for home use. So far it is still more expensive than just using the grid, but there is an increasing number of people that use it.

@ADreamPainter 5 месяцев назад

I did a bit of research (Please correct me if any of my information is faulty) but according to some sources, Hysata's technique uses about 33.33 KWH to produce 1 Kg of hydrogen. Compared to gasoline, my research stated that it can take 4 KWH to produce a Kg of gas. Also I found that hydrogen has approx. 3 times the energy output as gasoline. This would mean it would take about 11 kwh to create what we produce with gas with 4 kwh. So we are not on the same playing field with gas (yet) if we look purly at energy consumption to energy output, however, seeing that we are narrowing the gap gives me hope.

@dainesjk 5 месяцев назад

I know you've had a problem with the pronunciation of our Australian peak science agency, and thought you might like a little tip on Aussie pronunciation of CSIRO. You actually have 2 options. 1. You can pronounce by saying each letter individually which is the traditional way. 2. The modern way is start saying science - 'sci' and finish with the 'ro'. Join them together and say as one syllable. The 'I' should be the emphasised letter in the modern pronunciation. I hope this helps.

@AldrinAlbano 5 месяцев назад

Hyrdogen, IMHO, has a GREAT potential in the industrial sector. Can you imagine a LiIon battery-powered container ship? a 100-car locomotive? Metro buses? Steel and cement factories?? Hydrogen will be a major factor to decarbonization as outlined in the COP28 summit.

@Brad_Fallon 13 дней назад

H2 is EVERYTHING. It should have been the past but has been suppressed, but we can make it the now and the future. HYDROGEN will be cars, trucks, busses, and ships. HYDROGEN will free the world!

@lgkarlstad 4 месяца назад

Hi, in same discussion in regards to EV and HydrogenV it all summit up to how many km you could drive if both cars started with 1 kWh of electricity. The short answer is that the EV would drive 2,5 to 3,0 times longer than the hydrogen vehicle. Has anything changed or is still so that electricity directly used always would be 2,5 to 3.0 more efficient then going via hydrogen ? I’m looking for the progress we are talking about in your posting (and I understand that other factors then efficiency could have value here)

@chrissegroves9241 5 месяцев назад

Government incentives do not make things actually cheaper. And nothing will be actually green until it's cost effective enough to replace what already exists. Because the same amount (or more) energy will be needed going forward. Cutting back on energy production just means deaths.

@LukeFG 5 месяцев назад

Can photovoltaics in water splitting be used for eventually cheap desalination?

@code4chaosmobile 5 месяцев назад

Great video! Was wondering if it could ever be efficient enough for on site production and consumption? Storage seems to be a pain due to raw physics, maybe smaller and more numerous is a possible way to go.

@UndecidedMF 5 месяцев назад

Glad you liked it! That's the big question ... to me that's where it makes a lot of potential sense. Side steps the need to transport it. There are companies doing this right now. GKN has energy storage systems that produce, store, and convert back to electricity in one trailer sized unit.

@mattmunn71 5 месяцев назад

Could the storage problem be alleviated by using a chemical process to turn it into a hydrocarbon similiar to gasoline?

@st3v3hampton 16 дней назад

Love your videos,,, this one left me wondering about he cost of power when all or part of the green energies are combined together in a small project such as that hospital or a farm. Mega or bigger is not always better may be a false assumption ... Maybe blended and compact or mobile is better...

@0ctatr0n 5 месяцев назад

I've always wondered if it's possible to harvest energy from the aurora's around the north and south pole? Seems to be a lot of energy getting discharged there..

@LlywellynOBrien 5 месяцев назад

Hearing CSIRO, based in my home town, pronounced that way was a real shock. I was so confused.

@ianstasko1379 5 месяцев назад

So I may have missed this at some point and someone may have mentioned this in the comments already but could you eventually address water usage in regards to green hydrogen. I’ve yet to see someone talking about the water requirements which as of spring last year the best overall techniques required 19 kg of water per a kg of hydrogen. With the entire world on the brink of a water crisis what’s the plan to combat this. Desalination of sea water through reverse osmosis adding additional energy requirements to the whole process? Thank you

@socalguy829 5 месяцев назад

water availability is the elephant in the room for hydrogen. since green hydrogen should not be made from fossil fuels, and many areas of the world are now under water stress, it becomes a non-starter in many cases

@mattiafrancescobruni8318 5 месяцев назад

Nice video; H2 has for sure a utility case for heavy duty stationary machinery, chipper, grinder, truck with PTO intense application (boom, fridges, cranes), excavator and such that need 24/7 operational capability; one startup in UK is using fossil fuels burned in absence of oxygen to produce graphite and hydrogen…while lot of people focus on fossil fuels usage the real problem (in my opinon) is, apart from the fact that is a finite resource, the out of control usage of the burning reaction - oxygen is (one) of the main source of problem. Alongside the fact that fossil fuel are toxic themselves of course, contrary to hydrogen, which is used even in alimentary industries to reduce fat.

@minos99 5 месяцев назад

As always, superb Big TV quality of production. More please.

@user-mi5nj8gj5p 21 день назад

The number target is to lower energy when producing green hydrogen at the moment it takes 50KW of electricity to produce 1kg of hydrogen gas. So 9 tonnes of water and 2.7 tonnes of KOH is needed and what to do with spent KOH salts use reverse osmosis to obtain K salts and water which consumes 5KW of electricity so 55KW of energy is needed. At the moment only small electrolysis units of 5MW are on the market and hopefully 50MW units will be on the market by 2030 .

@Luziferne 5 месяцев назад

The problem with H2 is that Fossil Energy is pushing it, just because of the fact that the overwhelming most H2 is produced by coal/gas processing. Which, as one can guess, has massive CO2 emissions as byproduct. Its basically a dying Industry trying to greenwash their dirt and still sell us they fossilized way of thinking as the H2 doesn't have a label, and after it was split of, no-one can say what was attached to it, if it came from Water or Hydrocarbons. And as a local power storage... maybe with nickel-Hydrogen Batteries, but directly as a gas? No… I'm still not convinced that it will have any significance apart from in-situ created H2 for the Metal industries to smelt Iron, make Steel or as a working gas in cutters and or in welding

@kestersansnom8184 5 месяцев назад

I'd be interested to see you give some serious consideration of the Hemp Batteries and related technologies; It seems that any discussion of Hemp in terms of Energy and/or Environmental Solutions is still largely taboo, one can only assume this is down to the Fossil Fuel lobby ... Discuss ?

@mrtommypickles8635 5 месяцев назад

Hi Matt! Have you looked into propane fuel cells yet? Lots of mine sites use them to recharge their batteries in remote locations in the few months where solar power is low. I feel like a consumer option would be game changing.

@ThomasBomb45 4 месяца назад

what is the benefit given that propane is a fossil fuel? more efficient than a generator?

@mrtommypickles8635 4 месяца назад

@@ThomasBomb45 The main benefit is that it can be incorporated into a consumer's system without expensive infrastructure changes. A home that would otherwise be using an inefficient gasoline/propane generator could use the efficient fuel cell to charge their batteries when solar input is insufficient. Renewable propane is currently made on small scales. I'm not sure about the possibilities for wide scale carbon neutral propane.

@darylsonnier658 5 месяцев назад

What's the latest on power paste?

@jonathantallman1512 5 месяцев назад

How much energy is lost in production, storage, transportation, compared to photovoltaic and a battery or heat storage.

@RedRingOfDead 5 месяцев назад

Matt, my mate. Would you say if you use overproduction from a nuclear power plant 5o make H² its green and/or net zero. Since in the creation of there isnt any carbon released?

@troelsgudiksen9900 5 месяцев назад

Hydrogen is a fuel for machines that bind very little resources. Toyota needs about 2 grams of platinum to build a road car. Ballard power system retain 95% of the platinum from their fuel cell stack at recycling, a process done by just melting the polymer plates. BEV cars still hasn’t found an economical solution to recycling - this it still remains unclear if there will be any positive effect on BeV.

@karlstathakis7786 3 месяца назад

Good video, and it’s exciting to see advances in hydrogen production. As you say, efficiency drives economics, and economics are paramount. I agree with a particular statement: hydrogen is FAR from the all-singing/all-dancing magic we were promised … but there are definite use cases where it makes the most sense. Aviation, shipping … anything where you need really high energy density. For the average passenger vehicle or grid storage solution, I would submit that regular lithium-/sodium-ion batteries are just too cheap and too efficient. For those energy-dense applications, as generation and storage technologies mature, I’m excited to see hydrogen make a contribution to the energy mix.

@tomarmstrong1281 5 месяцев назад

I always thought H2 is only available when attached to another molecule atom. Apparently, this is not the case. It surprised me that Matt did not mention that there have been recent discoveries of enormous quantities under the earth's surface. Some easily accessible, others less so.

@jaymethodus3421 5 месяцев назад

Do they have their own explanation for these pockets of hydrogen? It follows perfectly with a theory I have.

@tomarmstrong1281 5 месяцев назад

@@jaymethodus3421 en.m.wikipedia.org/wiki/Natural_hydrogen#:~:text=Natural%20hydrogen%20(known%20as%20white,the%20laboratory%20or%20in%20industry).

@tomarmstrong1281 5 месяцев назад

@@jaymethodus3421 en.m.wikipedia.org/wiki/Natural_hydrogen#:~:text=Natural%20hydrogen%20(known%20as%20white,the%20laboratory%20or%20in%20industry).

@fayebird1808 5 дней назад

It Involves Iron ,Water. and time. The Hydrogen gets trapped under a capstone along with Helium. They are using White (or Gold )Hydrogen in western Africa and tons of the gas has been found in France. They are drilling for Hydrogen in northern Ontario Canada this summer. It occurs as often as natural gas but has its own geologic rules. Game changer! @@jaymethodus3421

@jaymacpherson8167 5 месяцев назад

As an aside, water treatment using on-site electrolysis to generate hypochlorite (bleach for disinfectant) also generates hydrogen, which is typically vented. This on-site generation using salt and water is becoming more popular due to the short half-life of hypochlorite, and shift away from chlorine gas for security reasons. The mass of hydrogen generated is not yet seen as worth its capture.

@christerewald3224 4 месяца назад

Yes, together with the fule cell. If we manage to store the H in safe manner (there are some great ides and prototypes on that) transformed or locked and released with a katalyst. Dont lose hope, battery yes but still quiet dirty in its making. Thank you for a good show.

@saiphaneeshk.h.5482 5 месяцев назад

Im not sure how the O2 cylinders are made, but even if the efficiency of hydrplysis is less isn't it producing both H2 and O2?

@rabb1t34 5 месяцев назад

6:52 happy to see that always provide your sources :p (Oreo)

@owldrinkmore9626 2 месяца назад

I don’t normally comment, but my father was an engineer for 40 years. He said they looked into hydrogen back in the 70s and it’s still the same 50 years later…a non-starter. I don’t know if anybody has mentioned this in the comments and I didn’t hear Matt mention it in the video, but, does anyone have any idea how much water it takes to make just 1 ton of hydrogen? Believe it or not, it’s somewhere in the range of 18 to 20 tons of water from what I’ve read. Perhaps, Matt could talk about that in another video? That alone is not only economically unviable, but an environmental no-go from the start in my opinion. Never mind that the transportation of, storage of and energy density per volume of hydrogen are abysmal compared to fossil fuels, battery storage and electricity transmission efficiencies. Just a thought.