This is one of the most important technologies. Coal power plants not being a stranded asset will be good for creating the political will to transition. It also takes a little bit of the sting out of countries building new coal fired power plants.
@urduib3 жыл бұрын
We need several big test facility´s ASAP. This could put positive pressure on coal plants to shut down, giving them a money carrot to do so.
@eesti12343 жыл бұрын
Will make it easyer for Poland (needs transitioning help) and Germany (at the moment keeping coal and fasing out nuclear). (I am from Estonia, our coal Plant is probably a bit small to be worth the investment.)
@SirHackaL0t.3 жыл бұрын
Not sure you understand what is being proposed. The coal power plant is not being used. No coal is being burnt. The main reason for mentioning coal power stations is that it’s already connected to the grid, has permissions for industry etc. Removing the old boilers and converting will cost a lot of money which I’m sure they will want from governments to pay for it. It’s a giant storage heater.
@PetraKann3 жыл бұрын
Transition? Renewable energy is already cheaper and cleaner than coal and nuclear. Stranded assets? This is not an accounting problem. Societies should do the right thing anyway.
@urduib3 жыл бұрын
@@PetraKann For the transition to move forward we need Coal plants to be taken down, and develop storage capacity. As it is now, a big part of windmill and solar energy is destroyed, or simply shut of because delivery on time is not working right now. Green energy will not work, until we solved the large scale storage problems.
@paulhaynes80453 жыл бұрын
Very interesting - good to see people thinking beyond the normal new tech solutions.
@lordsamich7553 жыл бұрын
Also sanity, reality and the laws of physics.
@notlessgrossman1633 жыл бұрын
This is so amazing and smart: repurposed coal plants for clean energy.
@urduib3 жыл бұрын
These are the ideas we desperately need to transition. Brilliant
@ps.23 жыл бұрын
Well, but I don't love the round-trip efficiency. Pumped hydro and lithium ion can get you something like 80-90% of the energy you stored. This will be lucky to get half that. Better than nothing? Maybe. But it may be hard to compete with other energy storage solutions, if your operation involves buying twice as much excess electricity.
@urduib3 жыл бұрын
@@ps.2 I must agree on that one. I would like to see the actual numbers on a large scale test before i clap exited. There are other technologies more promising on first glance. I like liquid air storage, and decentralized pressure domes a lot more. And liquid air storage could also be placed on former coal plants, but this aluminum/graphite system would benefit more of the concrete structures, coal plants provide.
@coolfusion14203 жыл бұрын
This technology suffers from the thermodynamic inefficiencies of heat engines, plus the significant costs for operation and maintenance and significant use of cooling water. Battery storage requires no labor, little maintenance and no cooling water. And perhaps most importantly, no large greedy for profit monopoly utility opportunity to inflate the costs. We must take every opportunity to replace monopoly for profit electric utilities that profit from expensive, polluting coal, gas and nuclear power generation! Let’s save the planet with renewable energy and electrify transportation and space heating and cooling (heat pumps) and end fossil fuel usage.
@wiser37543 жыл бұрын
And the best part is the plants don't have to be torn down.
@pkercov073 жыл бұрын
I never thought I'd hear Belgrade, my home town, mentioned in one of your videos, let alone be about green and renewable tech. Especialy since the situation during the winter heating season put's us at one of the most polutet cities in the world. Let's hope the pilot goes well and this actualy happens and they retrofit the existing coal burning heating and power generating plants.
@lordsamich7553 жыл бұрын
They wasted an entire power plant on this nonsence instead of converting it to biomass?
@milosmaric87333 жыл бұрын
I was just thinking: "Hey, it will be great if we apply this in Serbia, since every major city heats on some minor coal-thermal powerplant, and then Belgrade comes up!" 😁
@lordsamich7553 жыл бұрын
@@milosmaric8733 If your that desperate to lose all of your money.
@vladimirnikolic6953 жыл бұрын
Ok, but in Belgrade we don't have any cooling tower in our power plant, because they use the Sava river instead. 😞
@elmarko9051 Жыл бұрын
@@lordsamich755 The biomass supply can vary wildly, and frankly, burning trash or organic matter poses its own set of problems. This solution is essentially a giant capacitor for wind/solar generation, what wind/solar need when at night/wind not blowing. Biomass may be a complementary technology, but not a competing technology.
@aritusek55393 жыл бұрын
When I saw this video I wondered if you were going to talk about MGA thermal. The CTO, Alex post, was my year 6 buddy in school and I caught up with him when he went to a pitching show in 2019 to talk about their thermal energy storing idea. They have recently received some funding to commission a pilot project. Really exciting. I hope they get the opportunity to really test their idea.
@notlessgrossman1633 жыл бұрын
Scaling up would be awesome, huge markets everywhere there's a coal plant. Where did you study?
@aritusek55393 жыл бұрын
@@notlessgrossman163 University of Newcastle, Australia. MGA is a, I think spinoff?, Out of there. The way he described the tech was like a chocolate chip cookie with the chocolatey bits being the aluminium specs in the graphite
@geoffsemon74113 жыл бұрын
It's great that this has been developed by UNA. It's such a shame we have such a useless government that's more interested in coal and gas than renewables. Imagine if instead of wanting to spend $600 million on a gas plant, the money was spent on commercialising MGA tech
@aritusek55393 жыл бұрын
@@geoffsemon7411 yeah it's a bit of a shame with how they are handing innovation in Australia. Just glad to see some Australian research, either industry fuelled like this, or lab based like the sugar added to the LiS battery tech from Monash recently. I hope they turn a positive head towards innovation in the future
@michaelsams68733 жыл бұрын
I agree! As soon as I heard the process, I was sure Alex and his excellent team at MGA Thermal would be the core technology. A good story with a lot of promise!
@glenmccarthy84823 жыл бұрын
The tube wall boilers in large steam plants are enormous , the amount of containerized heat storage units to replace a single boiler would be substantial , and these stations are designed to run constantly not intermittently.
@mdp3033 жыл бұрын
Yes they are designed to run constantly but thats manly to protect the boiler. If you remove the conventional boiler then I’m not sure the same constraints would apply to the STG and ancillary kit
@bobsaturday42733 жыл бұрын
you're barking up a tree , the wrong one
@rolliebca3 жыл бұрын
What an elegant complement to the power conversion matrix. Thanks for sharing.
@josdesouza3 жыл бұрын
For those who are utterly unaware of the laws of thermodynamics.
@lordsamich7553 жыл бұрын
Elegant how?
@hyric89273 жыл бұрын
Steam turbines aren't known for being able to flexibly generate power. Cycling them also increases blade wear. Since steam turbines that feed electricity into the grid must operate at a nearly fixed speed (due to the nearly fixed frequency), one can only adjust the power output by adjusting the torque. Metals aren't too keen on varying stress levels.
@Reallycoolguy13693 жыл бұрын
Well, maybe this technology is best suited for peaker plants, where the legacy equipment is presumably designed for cycling.
@fehzorz3 жыл бұрын
If you can't turn the steam turbine off, you can still generate enough power when renewables are running to be able to operate the turbine 100% of the time, consistently.
@brodiewolstenholme30863 жыл бұрын
Not blade wear, but metal fatigue in the rotor disks.
@aeonturnip23 жыл бұрын
I wonder if you could switch the plant over to charging its own "hamsters" whilst it spins down at a safe rate?
@gregvanpaassen3 жыл бұрын
The website doesn't say, but it looks like this system will be most useful for running times between a few hours and a day - peakers. Other systems will be needed for baseload in winter calms. Nuclear reactor retrofits are an existing safe technology which we refuse to use so far.
@wenkeadam3623 жыл бұрын
Thank you for sharing these exciting news! It's so gratifying to see how more and more people are coming onboard to the reality of having to change, and Voila! all sorts of brilliant ideas start to appear.
@markuk82533 жыл бұрын
My "Hamster" theory is that if the little animals can't eat all the food available at the time (think excess power supply) then they stuff it into pouches of their mouth (think heating up the Al-graphite) to take home and eat later (think using the heat to generate energy later-on when you need it).
@canavar14353 жыл бұрын
In German language "hamstern" is a word meaning someone stashing enormous amounts of supplies away. The word was used a lot during war times. Basically: it's very greedy.
@benholroyd52213 жыл бұрын
Maybe it's because they're short?
@JW4REnvironment3 жыл бұрын
Or maybe like a hamster running in a hamster wheel spins an axle around like steam drives a generator?
@lordunhold53813 жыл бұрын
Collect somthing in huge amounts and store the rest for later ... like a hamster
@amirsafari71403 жыл бұрын
In summers we can use a central heat pump system to cool homes,and use the heat generated by heatpupms to store energy and turn it to electricity, absolutely we can't reach hundreds of degrees with heat pump,but we can provide the first stages of heating with them
@janami-dharmam3 жыл бұрын
The waste heat from these plants is low grade and commercially unusable but is excellent for heating homes and farms. You only need insulated pipes to carry the hot water. Water for boilers is usually high grade and the cooling water is usually good for domestic use.
@alvarofernandez51182 жыл бұрын
What's intriguing too is that it reduces disruption to the existing infrastructure too. In Houston where I live there are several coal plants which help power the city, and of course they feed into the grid right now. If these coal plants - energy generation hubs - can be transformed into energy storage hubs fed by intermittent renewables, then the grid will experience minimal disruption from the intermittency.
@surferdude44873 жыл бұрын
Efficiency? By the time the energy goes into the storage system, is retrieved, boils water and spins the turbine, what percentage of the energy in comes back out in the form of usable electricity? That did not seem to be addressed in the video.
@chrislaf20113 жыл бұрын
I would suggest that those people questioning efficiency are missing the point. Yes, it does have to be have a level of efficiency to make it commercially viable. BUT given the context of global environmental catastrophe due to climate heating, ANY method that contributes to reducing CO2 emissions must be seen as worthwhile. The level of efficiency of any technology tends to be increased over time in any case, so arguing over efficiency at day one is not helpful.
@surferdude44873 жыл бұрын
@@chrislaf2011 Asking about the efficiency of the system is worthwhile. For LI battery storage, the efficiency is over 80% and LI battery systems can respond to changes in load in milli sseconds. I don't think that this energy solution can come even close to technology we already have.
@migBdk3 жыл бұрын
@@surferdude4487 there are limitations to Li tech, it's mentioned in the video. Li suck at long offload times. A lower efficiency system is competitive if it overcomes the limitations of Li tech.
@surferdude44873 жыл бұрын
@@migBdk LI batteries are good for a few days, even a couple of weeks but they do leak down over time. Yes, I would be interested in an energy storage system that could hold its charge for as much as a year. I'm just not sure that the one discussed in this video is it.
@bobsaturday42733 жыл бұрын
because its a s#it idea with s#it efficiency
@cantstoptommy70773 жыл бұрын
That is a seriously good idea! Love the fact it leverages existing infrastructure that would otherwise be written off. Let’s hope the cost and reliability stack up. Looks like the concept will scale too, just add more hamsters!
@lordsamich7553 жыл бұрын
-No. Physics is still a thing!- Oh good you were joking.
@5226-p1e3 жыл бұрын
i'm not against the idea, however i'm not all on board because you should always have multiple sources of generating power than just solar and wind, to do only solar and wind is ignorance. if you want to prevent what happened in Texas earlier this year, you need to NOT be ignorant enough to dismantle the backups, even if your sacrificing some of the environmental efficiency. this whole idea of being 100% clean energy via solar and wind doesn't account for failure in such systems, which is a big mistake and why Texas was fucked earlier this year, because one of their politicians thought it was a good idea to dismantle everything else and only use wind power, and when that storm hit and the wind power went down, it unnecessary put ppl's lives in danger because they relied on one method of power creation and dismantled all the others. you simply can't be this ignorant when dealing with something as important as power generation, you always need backups when shit hits the fan, in Texas's case it was bitter cold that hit the fan and stopped them from working, which utterly screwed everyone living in the lower states at that time.
@rickrys27293 жыл бұрын
Certainly has a great advantage to use existing infrastructure. This type of storage will be in great demand by utilities as gas declines and should be lower cost and longer duration than grid scale batteries.
@cherylreid29643 жыл бұрын
This IS a battery system ❣️
@wwjbrickd3 жыл бұрын
I don't see how this could possibly be cost effective. A steam turbine is at best ~50 percent efficient. Combine that with transmission loses, lost heat during storage, etc and you're looking at needing 4+ units in for every unit put back into the grid.
@rickrys27293 жыл бұрын
@@wwjbrickd Agree with the concern. Round trip efficiency is certainly important for any type of cost effective energy storage. Lithium batteries for storing energy for say 4 days would be enormously expensive. Yes thermal storage would be physically very large and need great insulation and round trip efficiency would likely be well under 50%. Hydrogen is widely predicted for a role like this too, but storing large quantities of hydrogen would also be expensive especially if it is liquified and would also have low round trip efficiency. Predictions suggest overbuilding low cost solar and wind so there will be frequent times where more power is available than can be used. Heating rocks with this power is cheap and easy. Making hydrogen with this cheap power means expensive electrolyzers that are used part time. Only way to compare is to build one and see what it costs and how it works.
@AkaiKA4K3 жыл бұрын
@@rickrys2729 Lithium battery can store energy for months and cost will be the same.
@unclesheo12433 жыл бұрын
@5:10 TIL from en.wikipedia.org/wiki/Carbon#Characteristics that carbon cannot *melt* at atmospheric pressure, it *sublimes* around 3600 °C. It only melts at pressures above 10MPa and temperatures above 4000 °C.
@pauleohl3 жыл бұрын
Just what percent of the energy consumed to melt the aluminum is recovered?
@Natabus3 жыл бұрын
Good question. I haven't been able to find anything on throughput efficiency. But if it's more than ~30% its outperforming Electrolysis -> Hydrogen -> Fuel cell, thought It doesn't have the same potential for seasonal long term storage.
@marxug13 жыл бұрын
Given that resistance heating is essentially a perfect conversion, it’s probably pretty high. Limited only by the steam-generation half.
@Natabus3 жыл бұрын
@@marxug1 Very large ones have a 50% efficiency. (1,200 MW). Smaller ones are less efficient. Then you have pumps and such.
@rupert2743 жыл бұрын
Who cares when that excess renewable energy was going to waste anyway?
@kadmow3 жыл бұрын
@@rupert274 ( people miss that point - even in using "surplus capacity" to make HydroXXX - chemistry products fanatics repeat: "Hydrogen is stupid: - with no thought to per unit storage cost or ease of transport...
@snoopaka3 жыл бұрын
Love these videos that have such hopeful and reasonable to envision information. Great job.
@edhamacek24693 жыл бұрын
An Australian company doing trials in Europe. This shouts volumes for the Australian Governments commitment to renewable alternatives to coal and long term greenhouse gas emission reduction. 😞
@greenvolksi78863 жыл бұрын
keep brandishing lumps of coal Scomo, and watch the brain drain
@piotrd.48503 жыл бұрын
Primary exporter of coal and anti-nuclear hater comited to fighting climate change.....
@greenvolksi78863 жыл бұрын
@suspicionofdeceit huge
@edhamacek24693 жыл бұрын
@suspicionofdeceit Yes, and the industry is heavily subsidized by the Govt. They get big tax breaks because they are seen as major employers. The reality is that solar, wind and other green industries employ substantially more Australians but don't grease the right palms.
@EgnachHelton3 жыл бұрын
*Australien government
@chuckkottke3 жыл бұрын
Makes good sense to reuse rather than just mothball the old coal fired plants. Aluminum production isn't quite squeaky clean, but it is plentiful and cleaner ways of producing bauxite and aluminum are possible. Thanks again Dave for a highly professional comprehensive presentation on graphite aluminum thermal storage systems that dovetail into existing coal fired plants!🌱
@Barskor13 жыл бұрын
Soda engines are options for this use of stranded assets they are steam engines and use completely recyclable "fuel". These closed-loop steam engines had no firebox. The boiler was jacketed by a container loaded with about 5 tons of caustic soda (sodium hydroxide). When water or steam came in contact with the caustic soda, it would generate heat - enough to actually run the boiler and generate more steam. Steam emanating from the boiler would be fed through pistons to propel the locomotive forward, and the exhaust steam from the pistons would be fed into the caustic soda to continue the cycle. These vehicles were virtually silent because the steam was not released into the atmosphere. A soda locomotive could run for several hours, but eventually, the soda would become diluted and wouldn't produce enough heat to continue generating steam. For reconcentrating, the caustic soda was either transferred out of the boiler of the locomotive and boiled in open vats or you can just air dry it and blow air across it to strip off water en.wikipedia.org/wiki/Soda_locomotive
@janami-dharmam3 жыл бұрын
boiled in open vats or you can just air dry it and blow air across it to strip off water - another fossil fuel technology in a different name. 5 tons of caustic soda will provide about the same heat of .25 tons of coal. If the hot caustic soda touches any part of your body... (I do not want to describe)
@joshkarunakar37523 жыл бұрын
Interesting and informative , thanks.
@c2sartinkprinthub7573 жыл бұрын
I drink to this... but I am surprised that you can just dried the caustic soda and reuse it again...
@mateusz53183 ай бұрын
@@janami-dharmamWhen you modify this locomotive system slightly you could treat it as battery for solar panels. Just store that heat from evaporating water from soda during charging by excess solar energy. No fossil fuels needed.
@michaelmunroe72323 жыл бұрын
I think that's one of the most forward thinking solutions that I've heard so far.
@mk1st3 жыл бұрын
Coal plants often have many acres set aside for storing coal: perfect for slathering with solar panels.
@bimblinghill3 жыл бұрын
@william breen Or both; one on top of the other
@piotrd.48503 жыл бұрын
Because reclamation and trees are soo old school.....
@whirledpeaz57583 жыл бұрын
@william breen I wonder if they would need that much acreage. The boilers of these coal plants are incredibly large. The boiler alone of coal plant in Clarksville, TN is 13 stories high. It is one of the largest coal fired in the world. If each unit of this MGA system is the size of shipping container. That a great number of units.
@trueriver19503 жыл бұрын
Solar panels interspersed with windmills. At an existing power plant there are less likely to be objections from neighbours, which seems to be the main problem in the UK with onshore wind
@trueriver19503 жыл бұрын
@william breen your heat pump idea is cunning but sadly less practicable than it first seems for two or more reasons 1. It throws away the main advantage of this over other thermal energy solutions: which is the direct resistive heating of the store when charging. The blocks simply need to be wiredup to the grid connection to heat them up in the storage phase 2. Heat pumps offer best performance with small temperature differences (small compared to the typically 300 Kelvin ambient) With temperature differences of several hundred degrees you lose much of the advantage. 3. Heat pumps contain gases which are themselves contributing to the greenhouse effect. You need your heatpump to have a very good coeff of performance to outweigh the effects of the inevitable small losses of the working fluid 4. Even if you work round the above, the space taken up by the heatpump at industrial scale would make it take up more room than the proposed resistive heating (which is built into the blocks) and unlikely to fit within the site of an existing coal fired power station
@liamtaylor49553 жыл бұрын
Your channel has really cheered me up, it's so nice to finally have some evidence that we have nothing to worry about re energy and climate change.
@TheAnticorporatist3 жыл бұрын
Someone tell Joe Manchin about this; maybe he'll stop opposing changing to renewable energy if he can still make money off of the coal fired power plant that he owns.
@jvs3333 жыл бұрын
Yes please!
@boathemian76943 жыл бұрын
He’s an ignorant shameless fool on a person.
@kimballspeakthreetheater33183 жыл бұрын
OR we tell him that he is a PUBLIC Servant and shouldn't be making Policy based off of where he gets the most money from.
@jvs3333 жыл бұрын
@@kimballspeakthreetheater3318 he already knows that. He don’t care. Manchin and Sinema are in it for themselves. Sinema is like the poor ignored dorky girl in high school that now finds she’s in a position of center of attention and money is being thrown her way and she’s loving it. She’s now drunk on the fame and fortune and is indulging in it forgetting why she’s there: the people who voted for her. With Mitch offering her promises to switch parties and corporate money buying her off. She’s deranged with all this hollow power, even tho she stands for nothing but her 15 minutes of fame and money
@kimballspeakthreetheater33183 жыл бұрын
@@jvs333 Indeed.
@Gerardalba3 жыл бұрын
What a fantastic idea. This channel is so important for the world. We will solve the climate crisis together!
@zatar1233 жыл бұрын
First though that came to me was: Can we use all the coal that is already mined to make the carbon part of these blocks ? Once that's used up then look to carbon capture as a source for any more blocks.
@eclecticcyclist3 жыл бұрын
Unfortunately the carbon in the coal is not in the form of graphite and it would probably not be cost effective to convert it to synthetic graphite which is a very energy intensive process.
@PeterPete3 жыл бұрын
Graphite or carbon doesn't just stick to itself, it needs a binder like clay, similar to pencil leads. Pencil leads are initially heated in rotary driers for 12 hours then heated further to about 1000 deg C for 10 hours. So what renewable energy source would you use to manufacture the number of considerably sized graphite blocks? Me thinks there isn't a renewable source to use, they'd continue to burn more coal/fossil fuel to provide the heat necessary in making those sized graphite blocks. Man dealing with climate change is like a dog chasing its tail!!!
@garethrobinson22753 жыл бұрын
@@PeterPete Not really. The blocks will last a very long time so not much actual tail chasing at all. You use words but no numbers which is where the confusion lies.
@PeterPete3 жыл бұрын
@@garethrobinson2275 I'm skeptical - man comes out with lots of ideas but has very little of substance! In the video there's no information regarding the energy used to make the graphite blocks/aluminium and how long they will last. How long is a long time? The set up hasn't been tested long enough to know how long the system will last! Overtime the graphite blocks and aluminiuim will degrade it's inevitable (the blocks will probably crumble in time). If they operate the system in a nitrogen filled environment, one will produce nitrides which may impede their operating abilities. Remember nothing lasts forever. You can't get more out of a system that one puts in. Another thing the manufacturers are overlooking is the fact consumers can actually build their own to generate their own electricity and come off grid! No utility company wants that!! But all said and done the idea is good and simple.
@LuaanTi3 жыл бұрын
@@PeterPete Graphite blocks are already used in the production of aluminium, funnily enough. And they deteriorate really quickly there, since they are actually used as one of the reagents (stripping oxygen off the alumina). But we're talking about using energy that would otherwise be wasted anyway; and the more renewables we install, the more of the waste electricity for the taking. As long as you can make it profitably using intermittent energy supply (or justifying the use of on-site energy storage for the peak or low supply hours), you're still fine. "Perfect" is the worst enemy of "good enough". Why would you think any nitrides will form in a nitrogen atmosphere? Even at 700 °C at standard pressure, nitrogen is ridiculously inert - and that already assumes it has something to react _with_. There's no oxygen; are you suggesting carbon nitrides? Aluminium nitrides? Or reacting with the container? In general, thermal energy storage has been a relatively fringe thing for decades now - but the plants actually using it seem to be doing pretty well. It's really hard to grasp the scale of the coal power; I doubt 30yrs of supplying a plant like this would come close to a 1yr consumption of coal of an actual coal power plant, just wild mass guessing here. They eat up such ridiculous amounts of coal every day, and produce ridiculous amounts of toxic and radioactive waste.
@sproglode3 жыл бұрын
A really excellent and informative video (as all your are). Professionally created and produced. It's encouraging that scientists and technologists are developing an increasing number of highly innovative methods of generating power with zero fossil fuel content. How sad politicians just don't get the message (or don't care), and are stuck in the 17 century.
@occhams13 жыл бұрын
The challenge to repurposed Carnot engines is that the energy needed to heat them up in the first place has to be paid. To be efficient, they need to never/rarely be turned off. That means daily cycling is a non-starter where energy balance actually matters. I see this technology as augmenting existing plants to reduce coal. That's a good thing. But there's not much chanced it'll completely eliminate it. Still a good idea, assuming the new technology can be co-located, and these concepts still should be pursued. Some of that 'to be paid' energy can be reduced by reworking and insulating the old plant parts that weren't designed to require insulation. We need every option to reduce dependence on extraction commodities like coal and oil.
@richdobbs65953 жыл бұрын
Your claims don't make sense. To the extent that the original plants where load following, so the repurposed plants would be load following too. Now, those plants designed to be entirely base load, wouldn't work well with this technology. But my guess is even those plants would have some flexibility with respect to the steam turbines.
@stanleytolle4163 жыл бұрын
@@richdobbs6595 this is where high temprature reactors with heat storage makes sense.
@geonerd3 жыл бұрын
EXACTLY! All the hardware will 'suck up' a load of heat, and I suspect the machinery itself won't like to be shut down and restarted every damn day. There may be excessive wear, or maybe the restart procedure is a huge PITA that takes half a day.
@gregorymalchuk2723 жыл бұрын
@@richdobbs6595 France's fleet of light water reactors operate in load-following mode.
@clivestainlesssteelwomble76653 жыл бұрын
Good concept addresses the total energy costing of plant and reuses existing materials.
@justinstrik71253 жыл бұрын
I can already see how the politicians are going to work together to make this as easy as possible for these tech companies 🤪
@applasamysubbharao25783 жыл бұрын
Yes. End of the day... These guys who are the masters of corruption will cook something out just to please their cronies than the votes.... Unless the majority of the votes are "SMART"....
@acmefixer13 жыл бұрын
I keep getting this idea in my head that this whole system is in a storage container -- a single one. But then I reconsider that really, it's a whole bunch of storage container sizes modules connected together... because a single storage container would have only enough heat to run for a few minutes. Thanks for the great video.
@MotherNature263 жыл бұрын
I'd actually expect a single storage unit to last quite a while, and that is due to the phase change in the aluminum. You have to account for the heat of fusion of aluminum, which is roughly 376 kJ/kg. So if you completely melt 1 KG of aluminum you have to put in 376 kJ/kg + a little extra to account for heat loss, wont get into that here. When this system is active, a heat exchanger will draw out the thermal energy from the Hamster unit and if it started with all its aluminum in the liquid state, the hot side stays at the melting point temperature of aluminum, 660 C, until the aluminum freezes and releases that 376 kJ/kg. So if the Hamster unit holds only a single cubic meter of pure aluminum to be used as the heat storage medium, its energy capacity at 660 C is effectively 1015200 kJ, or a little more than 1 GJ.
@acmefixer13 жыл бұрын
@@MotherNature26 A coal power plant consumes well over 100 railroad cars of coal a day, that's several an hour. I can't believe that a single storage container of molten metal would last more than a few minutes.
@MotherNature263 жыл бұрын
@@acmefixer1 First off, I'm just illustrating that these things should be able to hold a fair amount of thermal energy. I don't know how much aluminum they actually contain so It'll be hard to make a direct comparison to coal consumption. I just broke it out so you could see how much 1m3 of molten aluminum could store. Arguably I did not specify a capacity that a single unit would have to satisfy. This will depend on where these are sited. I suspect based on some of these numbers that 1 Hamster unit could probably satisfy a continuous output of 1 MW for 1 day before it is depleted. Concerning coal: the LHV or HHV of coal varies depending on its grade. Anthracite HHV is about 32.5 MJ/kg while Lignite is much lower at about 15.0 MJ/kg. A coal power plant that produces 100 MW of electric power would probably need about 300 MW of fuel input energy. That requires about 72 metric tons of Lignite coal per hour and I think that is right around the capacity of the smaller hopper rail cars used to transport coal. So it seems depending on the output of the power plant it can certainly consume that much coal. Again, I am just breaking it out into an easier rate to think about: 0.5 to 1.0 rail cars of lignite per hour OR 0.25 to 0.5 rail cars of anthracite per hour to power a 100 MW coal power plant. Sorry for the range on the coal consumption, but I don't see a standard coal hopper rail car size. You would certainly need more than 1 hamster unit to be able to return an old coal power plant back to operating condition, probably need 100 to 150 units for a 100 MW plant to keep it running for 1-2 days. There are a lot more considerations that would go into how the plant would actually be run, not going to get into that here. I am guessing based on the materials of construction for the hamster unit, that this ends up being relatively cheap compared to the cost of installing other energy storage solutions capable of the same output. At the end of the day, its about cost.
@Natabus3 жыл бұрын
Another former coal plant thought ... I always wondered how convertible large steam turbines/generators would be to large charging flywheels.
@wwjbrickd3 жыл бұрын
The generators would be reusable, but the turbines wouldn't have anywhere near enough mass to be useful.
@joshuacheung65183 жыл бұрын
Would be absolutely terrible as flywheels afaik. Would probably tear themselves apart to hold a reasonable amount of power
@Vincent_Sullivan3 жыл бұрын
The real issue with this idea is that the generators have to rotate at a very accurate fixed speed to generate power that can be dispatched into the power grid at 50 Hz. or 60 Hz. The only simple way to put energy into a flywheel is to increase its speed or rotation and the only way to get energy out of a flywheel is to slow down its speed of rotation. (For the pedants in the crowd, yes you can store or release energy from a flywheel at constant speed by changing the location of the mass of the flywheel relative to its axis of rotation but the mechanical problems of doing this would be difficult.) This means that the generator mass cannot be used for flywheel energy storage in a system that dispatches power into the grid at a fixed frequency directly from the generator. Yes, you could use a back to back AC to DC to AC converter system to correct the frequency but that has its own problems and costs. Some days you just can't win...
@brianwheeldon46433 жыл бұрын
Great job Dave, Thanks
@Justwantahover3 жыл бұрын
Might be the low temp latent heat that makes aluminium more efficient than steel, for heat storage.
@gregvanpaassen3 жыл бұрын
Yeah, Al's 660 degree melting point is a good match for existing steam turbines which were designed for steam at 500 - 600 Celsius. Apparently corrosion gets to be a problem with pressurised steam over 700 C.
@andrewradford39533 жыл бұрын
South Australia has a company called 1414 using molten sand as heat storage. At 1414 degrees Celsius it's initially too hot directly for a steam turbine. I couldn't find details on how the heat is converted to electricity. They have a large unit connected to the grid heated unfortunately by gas. I wonder if it is more efficient than a gas turbine?
@adam-g7crq3 жыл бұрын
Convert the old Coal power stations into liquid air battery stations, you already have the power lines for the national Grid on site to send and receive power retraining the existing staff of the station to build and maintain the station.
@joedee18633 жыл бұрын
Adam G7CRQ - yeah ! GO LIQUID AIR !
@smckaughan13 жыл бұрын
On top of things as usual. I learn so much from your videos. Thank you, for crafting them with such care! I work with a company that is also keen to take advantage of existing thermal electric infrastructure for carbon-free generation and storage. The technology captures light energy and transmits it (as light) to a thermal electric plant retrofitted with mixed salts for thermal storage and conversion to electricity. Similar to your examples, the design replaces the boiler with thermal storage but keeps the power block. The result is a non-intermittent supply of power. This type of solution should be attractive for utilities and, by keeping generation and storage together, does not require huge grid upgrades to scale.
@Grobocopatel3 жыл бұрын
You can also stick a nuclear SMR in retired coal plants.
@Yanquetino3 жыл бұрын
Watched and commented in Patreon. Just here for the thumbs up!
@hermannkorner32123 жыл бұрын
Thermal powerplants have an efficiency of round about 40 percent, so most of the renewable energy is lost in the process. There are more efficient ways to store energy! It could make sense however when its much cheaper and faster to implement than the alternatives.
@georgesmorpeth3 жыл бұрын
As a basic rule of thumb, 1/3 of the coal energy is lost as heat in the condenser and 1/3 is lost up as combustion gases / unburnt carbon up the stack. This tech could eliminate the combustion losses; however there would be some losses from insulation or energy lost in heating the material. I suspect you could raise the efficiency levels up to 50-55% with this tech, which is a huge improvement from the current 35-40%
@LinasVepstas3 жыл бұрын
In other words, to make this profitable, they would have to arbitrage electrical prices at least 2 to 1. So, buy power at 5 cents/kWh and sell at 10 cents/kWh. How many hours per day can you do this? 2 or 3 or 4? During peak summer demand? Hard to see how this is profitable, it might be, but barely?
@arnesteinarson36453 жыл бұрын
@@LinasVepstas If there is a shortage of electricity generation at night time, electricity will simply be quite expensive then. And conversely, when there is a surplus (high wind, low consumption) - energy is very cheap (sometimes negative prices). If that difference is frequent enough (and predictable enough), there then is a business model.
@udavster3 жыл бұрын
@@arnesteinarson3645 in his comment @Linas Vepstas mentioned exactly that - "arbitrage electrical prices". What he doubts is that you can have high enough frequency/duration of those events to cover the installation costs of this system.
@salvatoreverde41673 жыл бұрын
The clever hardworking of researchers, amazing!
@sreng813 жыл бұрын
This is interesting. However, they fly over some technical challenges. You can't just remove the boiler from the turbine, and there are startup times related to running turbines. They dispatche well once running but it takes time. It is worth investigating. Thank you.
@muten8613 жыл бұрын
There are many "howevers". The most important is not named at all: how cost effective is it compared to a battery based store? I cannot think of cost efficient way for this thing.
@nagualdesign3 жыл бұрын
@@muten861 On an industrial scale, batteries are not very cost-effective at all due to their low energy density and limited lifespan. Whereas a block of aluminium is relatively cheap and can be melted and solidified almost indefinitely.
@stigbengtsson70263 жыл бұрын
In some places you cold drill deep to get geothermal power (hopfully the right name) and still use many already existing machines.
@muten8613 жыл бұрын
@@nagualdesign thats simply not true. Aluminum ist not very cheap in this scale. And don't forget the bad efficiency, which will cost a lot more. than the buying sum for this tech.
@nagualdesign3 жыл бұрын
@@muten861 I said _relatively_ cheap, as compared to batteries. 40kg of lithium-ion batteries (enough to power a home for a day) costs about $2000 and has a limited lifespan. For the same price you could buy over 700kg of aluminium, which can be used for many decades, and I dare say that it could store enough energy to power many homes. Also, the beauty of using existing infrastructure is that large-scale turbines can be over 90% efficient at converting that heat energy into electricity, and don't require building from scratch. _[Edit]_ The specific heat capacity of aluminium is 900J/kg°C, so 700kg of aluminium would have a heat capacity of 630kJ/°C (0.175kWh/°C). For comparison, an average UK home uses 8.5~10kWh of electricity per day.
@giszTube3 жыл бұрын
So nice to get a little hope every now and then. It is difficult to think that there is anything beyond all the doom and gloom, but perhaps we will survive all our stupidity and greed after all. Great vid as always. Thanks
@Kiyarose39993 жыл бұрын
Two things come to mind, 1) Aluminium production is VERY energy intensive, and leaves behind a toxic sludge that is often dumped down old Mines etc. o to be ‘Sustainable’ they would have to be made from 100% recycled Aluminium. 2) Cooling Towers are extremely wasteful, throwing heat into the Air, they need to be Combined Heat and Power ( CHP) stations!
@firstbigbarney3 жыл бұрын
This type of system would be viable in areas with district heating where you could use much of the heat for buildings instead of having thrown it away in a heat exchange tower. You could also put greenhouses nearby to be able to grow food in the dead of winter. The biggest pitfall of this is that the infrastructure around these coal plants was not maintained because they knew closure was coming, so delay as much maintenance as possible.
@kadmow3 жыл бұрын
And Aluminium is often made in places with geothermal or hydro power - so that goes some way to countering the anti-civilisation themes. (Old mine shafts are often interestingly toxic places already)...
@w0ttheh3ll3 жыл бұрын
intermittent combined heat and power stations are not really that great.
@florinadrian51743 жыл бұрын
@@firstbigbarney Sure, excess energy could be put to good use. But it's still excess energy, meaning it reduces the efficiency of the energy storage system. Ideally, for 100% efficiency, you'd have no residual heat to use for other purposes. And this leads me to the crucial question: what is the estimated efficiency of this energy storage system?
@geoffsemon74113 жыл бұрын
Aluminium smelters are increasingly changing over to renewable energy so it's possible to massively reduce the environmental impact of production
@alanedwards11793 жыл бұрын
One of your best and most uplifting videos - thank you
@olamilekanakala75423 жыл бұрын
This for me is a perfect transistion idea. Enough to ease the economic burden of fossil fuel dependent communities, and incentivise political action towards building out renewables. However, it is not a long term play, as we should be looking for more efficient use storage options. The coal plants and their assests should be slowly recycled and repurposed as the communities shift to more sustainable sources of income
@SuperiorEtchworx3 жыл бұрын
I have been saying that we need to develop reuse plans for the existing infrastructure for years now. I'm glad to see that I am not the only one
@JohnnyWednesday3 жыл бұрын
I look forward to the video entitled "breathing life and jobs back into disused petrol stations" ;)
@DanA-nl5uo3 жыл бұрын
That is easy replace the gas pump with a fast charger
@Natabus3 жыл бұрын
There are some proposed battery technologies that are cheap, have good energy density but are limited by very slow recharging. That makes room for a "battery swap" model that local gas stations could perform well. Remove the tanks, and replace with racks of chargers, so that customer charging time is only as long as a module swap.
@businessproyects26153 жыл бұрын
High temperature Pyrolisis Bio oil and ammonia as fuel.
@SolaceEasy3 жыл бұрын
Exceptional Channel. Thanks!
@SolaceEasy3 жыл бұрын
I finally subscribed.
@hamjudo3 жыл бұрын
This technology may allow some US utilities to continue to bill consumers for leftover coal infrastructure. Each of the 50 states has their own laws covering how monopolized utility companies finance power plant construction. Some of these unique regulatory frameworks may make a system that uses resistance heating make economic sense. What is the round trip efficiency?
@gasdive3 жыл бұрын
Steam turbines are about 45% efficient, so less than that.
@incognitotorpedo423 жыл бұрын
It depends on the temperature of the steam. The problem isn't the turbine, but rather how efficiently you can turn random thermal motion into directed motion. This is the infamous Carnot inefficiency.
@petertownsend2523 жыл бұрын
Large gigawatt utility scale solar PV is now coming in at a cost of less than $0.02 per KWh at favorable locations like the UAE and the Atacama desert. At these costs does the round trip efficiency even matter any more? A $0.02 per KWh generation cost coupled with a 50% round trip energy efficiency loss simply becomes the equivalent a $0.04 per KWh generation cost. The problem with intermittent renewable sources is becoming less and less a problem with the cost of generating power in the first instance as it is to the problem of storing the power once it has been generated. It increasingly seems as though the once important cost of generation (and round trip energy efficiency) are both well on their way to becoming an obsolete financial red herring that is dwarfed by the technical capability and associated cost of storing power once it has been generated.
@EfficientEnergyTransformations3 жыл бұрын
@@incognitotorpedo42 It would be advisable to read the original Carnot work "Reflections on the Motive Power of Heat" (about 130 or so pages). Regrettably, or not, it is in French (as expected) but an early, very good, direct English translation, without interpretation was published 1897. What is quite interesting is that Carnot makes a particular assumptions, that are never mentioned, in any educational course, to reach his conclusion. Understanding these assumptions makes one question the widespread "knowledge" about "Carnot inefficiency".
@Oliplaysdota3 жыл бұрын
@@petertownsend252 imo the efficiency argument should still be made for two reasons: 1) Comparing different storage solutions (their efficiency is also a factor in their price) 2) Determining the amount of stuff we'd have to build - less stuff is favorable (and efficiency is one factor in that question)
@stevegreen28393 жыл бұрын
Aluminium latent heat is 1070 Mj/m3, NaCl is 450 Mj/m3 at 800 C, surely NaCl would also work and might be cheaper. Both an order of magnitude smaller than burning an e-fuel like ammonia or methanol.
@GTN33 жыл бұрын
Thank you for sharing this idea however, I've never been fond of the idea of contributing to entropy by generating the lowest form of energy - heat. If they use solar which would be striking the Earth anyway through magnifying lenses to store heat, I'd be on board!
@ps.23 жыл бұрын
They're called solar thermal power plants. They use mirrors rather than lenses, but, same basic idea. They've existed for decades... but nobody seems to know quite how to make them cost-competitive.
@zyxlsy3 жыл бұрын
6:45 Since it's equivalent to a parallel-flow heat-exchanger, I'm inclined to say that the steam is then "superheated" by the second stage to the desired temperature of 550C, not cooled. Even though the first stage heater has a higher temperature, it is to evaporate, not to superheat. If temperature reduction is required in the heating half of the working-fluid cycle, usually water spraying is employed.
@iangant3573 жыл бұрын
Cool
@wpegley3 жыл бұрын
Great channel beat the hell out of the morning news.
@Scrogan3 жыл бұрын
Electric heaters means they’re throwing away efficiency compared to using heat pumps of some topology. The maximum efficiency of a heat engine is (T-hot - T-cold) / T-hot, or 1 - T-cold / T-hot. So the steam-based heat engine will at most have an efficiency of 1 - 300K / 820K or 63%, which is awful. If you used a heat pump to get the aluminium up to 700C = 970K then the efficiency of that heating could be improved up to 144%. Multiply that by the heat engine efficiency and you boost it to 91%. Which as far as I’m concerned is acceptable, but both those numbers are still assuming perfectly ideal heat engines and heat pumps. In reality I expect them to be closer to 50% and 65% respectively. Throwing away half your power generation for storage just to keep some union folks happy feels incredibly backwards. Until we have a very significant excess of power to store in such lossy storage units, we should build more efficient methods of storage, like flow batteries or sodium batteries or whatever. As far as appeasing the power plant workers goes, you could still use the existing electrical infrastructure at these locations for making any kind of grid storage. Get rid of those cooling towers and cover the whole thing with solar panels, or maybe thermal solar towers if you want to keep that steam infrastructure too. The existing generators could be used as part of flywheel energy storage units for that grid synchronised fast response buffering. High energy density really isn’t that big of an issue if you’re on such a large plot of land. Once you’ve spread your batteries wide, start building them high too. Just don’t use a portability-oriented chemistry like lithium-ion that will be dead in 3 years and has a significant fire risk.
@bjorn2fly3 жыл бұрын
Good pionts James. Pumped hydro, 85%, it is what is used today, and it is the figure to improve (not halve :-))
@notlessgrossman1633 жыл бұрын
@@bjorn2fly yes but large land area size is needed for pumped hydro I'm told. Is there built structures and denser configurations possible?
@mute10853 жыл бұрын
@@notlessgrossman163 There are multiple variations on gravitational storage, mostly moving rocks around instead of water, the prototypes seemed to be both more efficient and better scaleable, not sure about the current state.
@morninboy3 жыл бұрын
I cannot see heat pumps getting that hot?
@kadmow3 жыл бұрын
@@morninboy : exactly - ok for warming homes, not so much for industrial grade process heat ( or power generation).
@rethinkscience84543 жыл бұрын
Good idea, roll it out, the only problem is the generators take 7 days to heat up down to prevent rotor shaft warping , the system will need to run for weeks on end to prevent this.
@geonerd3 жыл бұрын
This system is probably losing ~50% of the energy pumped into it.
@likaleklikalek73953 жыл бұрын
Turbines are efficient. Boilers arent.
@petersimmons36543 жыл бұрын
@@likaleklikalek7395 So maybe 60% then? Lot of steam escapes. Giant flywheeels would be 100% efficient by contrast.
@shawnr7713 жыл бұрын
Gas fired plants are about 37 percent efficient. As stated in the video this is one solution not the only solution. This is a way to reuse preexisting infrastructure. Removing the more dirty part and keeping good paying maintenance jobs for the existing structure. There are some people that might lose their jobs. The boilermakers.
@LinasVepstas3 жыл бұрын
In other words, to make this profitable, they would have to arbitrage electrical prices at least 2 to 1. So, buy power at 5 cents/kWh and sell at 10 cents/kWh. How many hours per day can you do this? 2 or 3 or 4? During peak summer demand? Hard to see how this is profitable, it might be, but seems slim?
@geoffsemon74113 жыл бұрын
@@LinasVepstas If it's being used as storage of renewable energy then it should be very price competitive. Already power prices are going into negative due to the volume of renewables. During the day when solar is providing 35-50% of Australia's power, prices per MW/hr are down to -$35 to -$65/MWh
@glowwurm93653 жыл бұрын
Looks incredible, it’s ability to utilise existing infrastructure is ingenious!
@eclecticcyclist3 жыл бұрын
This idea might give a coal power station a few years extra life but they would still be inefficient as they throw so much of the heat away in the cooling towers and the turbines need regular rebuilds. Renewable energy will eventually undercut them as its is still falling at an astonishing rate and with new storage methods like flow batteries it's becoming dispatchable.
@stanleytolle4163 жыл бұрын
Problem is renewables become exponentially more expensive as they become higher percentage of grid power due to their intermittent nature. When this takes place back up and peaking power becomes increasingly valuable. Setups that can take advantage of higher returns during peak and backup power demands can be profitable even if the cost of this power is higher that that of renewables.
@EvilScot3 жыл бұрын
I can't imagine that the system gets great return efficiency. I'd take Stanley's point about covering the overnight or peak demand and the economics of that but you'd have to be paying 1 and selling for 3 to balance a system that at best has a 40% return. If rather see the heating done by solar collectors, even if the local isn't that sunny surely having the Carnot cycle equipment would bring the capital cost down to a pack of mirrors and some pipes?
@eclecticcyclist3 жыл бұрын
@@stanleytolle416 That's why battery storage will be the next big thing, and their efficiency will always beat the running costs of thermal storage running steam technology.
@charliedoyle78243 жыл бұрын
@@stanleytolle416 That's the whole point of energy storage. All of the intermittent energy will be stored and used when needed. It's only less valuable now at times because there's not much storage. By the end of this decade we'll see solar plus storage cheaper than thermal energy.
@4CardsMan3 жыл бұрын
This solution also allows the plant to maintain phase with the grid, which is a problem with intermittent power sources.
@peterjol3 жыл бұрын
There could never be any such thing as 'unemployment problems' if we had an intelligent world that simply made it financially worthwhile for people to SHARE the jobs we can agree we NEED to have done and work much LESS...no more working and doing anything FOR money but simply sharing the work we NEED.. (not my idea Einstein advocated this..I just agree with him)
@carlpodrecca51773 жыл бұрын
Wow hold your tongue the flavor you speak leaves out all the middle men who now do no work but make most of the money. Then just think of all the insurance agents. And how do you separate all the brilliant CEO’s who ran companies into the ground all while making millions while thousands lost their pensions. No this tastes a bit to fairlysocialmaxist for the average congressman who actually has no job requirements as most of them clearly show by having the capacity to accomplish nothing but licking dumpy’s shoes or dumping on dumpy’s shoes! As for the rest of the corporation’s how can they hide all their socialized costs while they steal the exorbitant profits from labor?
@RB-xq7qh3 жыл бұрын
This is the innovation that will get us somewhere. Great video!
@scottwarthin15283 жыл бұрын
Reading the title brought a rush of hope. Finally, the breakthrough! Non-electrochemical, non-thermal storage yet enough surge & density! NOPE, no hope here: just more of the same false hope in batteries & upgrading heat, yet again.
@1MarkKeller3 жыл бұрын
@SHEISTER CAM Amen.
@dprcontracting62993 жыл бұрын
Jeez you're hard to please. Bet you're a barrel of laughs
@scottwarthin15283 жыл бұрын
@SHEISTER CAM You got me confused w/your life partner. What we all need developed in a simple equation for ya': Adequate energy density + surge capacity = Energy shortage suitable for renewables being harnessed enough. "When the wind doesn't blow & the Sun doesnt shine" is what will supersede fossil fuels so that "the world will move on"
@scottwarthin15283 жыл бұрын
@@dprcontracting6299 Well, the subject matter is about life and death...on Mass Extinction Level...along w/our own species, so... yeah, Just Have A Think isn't a comedy hour.
@dprcontracting62993 жыл бұрын
@@scottwarthin1528 doesn't every little bit help?
@joradcliffe5653 жыл бұрын
Some people may mistakenly skip watching this vid because the cover picture for the video has a red band along the bottom that very nearly matches the red line that appears after a video has been watched on subscription feeds. Suggest avoiding red bands at bottom.
@marcocasario12493 жыл бұрын
*The best thing to be on every wise individual's mind or list is to invest in different streams of income that is not depended on the government to generate funds*
@suzanne72853 жыл бұрын
he has really made a good name for himself
@prakritibhusal73563 жыл бұрын
Through whatsap⬇
@prakritibhusal73563 жыл бұрын
⁺¹ ⁽⁵⁷⁰⁾ ²⁰⁹ ⁵⁵³³
@sallymartinez15213 жыл бұрын
Trading on your own is very risky l've lost alot trading for my self
@wally67573 жыл бұрын
I lost £1200 carelessly trading on a platform then I was referred to Mr Charles Schwab he recovered the loss and made an extra profit of £10,000
@MegaSnail13 жыл бұрын
Thanks as always for giving me hope for the future. You're the best! Another way to keep folks in the coal industry fully employed is to transition them to restoring old coal mines to their historic environmental state as well as mitigation work for toxic sites. Who pays for this carbon offset? All entities who have profited from the sale and use of coal of course which should be easier for them since their stranded assets will have a new profit generating life. Be well.
@buddha17363 жыл бұрын
60% Renewables ie wind, solar 20% Nuclear ☢️ 20% Gas for burning rubbish etc. Plant as many trees as I could, install electric storage heaters in houses like my old mothers council house did, there you go I sorted climate change lol 😂
@jimgraham67223 жыл бұрын
About right, my sums see nuclear up to 40%. Rather than burn rubbish, I see much of it being converted to methane and ammonia and to synthetic diesel and jet fuel using high temperature synthesis. Whatever, we just need to get on with it.
@businessproyects26153 жыл бұрын
What ever makes sense, fixed percentages are not ideal.
@JasonPurkiss3 жыл бұрын
I enjoyed that so much i watched it twice, thanks
@Steellmor3 жыл бұрын
Or we can just put nuclear reactors there instead. :\
@gregjack423 жыл бұрын
Same thing can be done with solar thermo and molton salts. Molton salts can also hold the heat for many days. Also the disabling of the cooling tower to get from losing heat after going though the process and returning it back to the boiler and reusing it.
@jemborg3 жыл бұрын
Good news. I need this channel. Thanks. 😁👍
@rookandpawn3 жыл бұрын
This is the first straight out legitimate genuine storage solution that is on the same scale as pumped hydroelectric
@lordsamich7553 жыл бұрын
🤣
@GiesbertNijhuis3 жыл бұрын
I think the schematic was partly wrong. The steam/hot water is in a loop, it is a closed system (similar to a stirling engine). The condensor needs cooling, but that is external.
@_Lord_BoNes3 жыл бұрын
Instead of using a cooling tower, we could push the steam through a water tank that could be used to provide heating to homes, or even hot water on tap (if you got it hot enough). The usual heat pumps/hot water units can pick up any slack if the tank gets too cold. A good amount of energy is used for these 2 purposes, so it'd save some of the energy used for heating and recycle the waste heat instead of just venting it into the atmosphere. In summer, you could pump colder water to the "heating pipes" to help cool homes down.
@LuaanTi3 жыл бұрын
@Darren Munsell In the US. Other regions are very different. Most of the coal power plants where I'm from are quite close to cities, and often use the cooling water for heating homes already.
@eduardoneto54553 жыл бұрын
Amazing video. Thank you so very much.
@gprogers13 жыл бұрын
Seems like a good greener refurbishment of power plants. What I didn't hear was how the water, that is given off as steam, could be recycled back as a closed loop process. The diagram showed the water as a one-way flow rather than as a captured, and therefore recycled element, to make it more water efficient. Worldwide water shortage will be a future concern so a process that captures and re-uses its water would be highly desirable. ... from the Mrs ... who enjoys watching your programs as much as I do.
@markraumer23363 жыл бұрын
Hi Dave, It is encouraging to see the diverse range of solutions being developed for grid scale energy and there impact on the viability of alternative energy sources. I am surprised that none of these solutions are looking to use excess energy to produce hydrogen. Is there a reason for this? Perhaps it’s round trip efficiency is too low? Hydrogen appears to me to be excellent fuel source for short term peak energy production through existing gas turbine infrastructure, or indeed to power steam boilers in existing coal fired power plants. The extra bonus that hydrogen promises is its ability to power mobile plants and heavy trucking. I would love to see a comparison of the various technologies and their respective pros and cons round trip efficiencies. Thanks for the channel it is extremely informative and thought provoking.
@trungson66043 жыл бұрын
Good point. If Hydrogen is used for heating purposes and for industrial processes including steel production, fertilizer production, and other chemical syntheses, then there is no efficiency disadvantage between H2 and battery electricity. For home-based fuel cells or combustion engine to generate home electricity as well as waste heat recuperation for home heating and water heating, then there is no efficiency disadvantage between H2 and battery electricity. The electric grid is still there to consume solar and wind electricity directly, as well as storing the grid-excess electricity in grid-utility battery or PowerWall home battery. Likewise, a Plug-in FCV can use grid electricity for 80% of total mileage and needing H2 for only long trips totalling 20% of total mileage, while requiring 1/5 the total battery capacity of a long-range BEV. We can have total wind and solar capacity as high as 3-5 times the maximum power demand of the electric grid, so that the vast amount of grid-excess capacity will be devoted to making H2 for all kinds of usage. Thus, when combined solar and wind outputs are down to 1/3 to 1/5 of their peak, then all of this weak output will be fully-devoted to power the grid. In this way, we can have a grid powered by 100% RE nearly all the time, without resorting to much energy storage. Home-based Fuel Cells or H2-Engine can be programmed to turn on as back up power for the grid if necessary, thus sparing the additional expense of having stand-by power stations that are rarely used. The waste heat of the home-based FC or H2-Engine can be used for making hot water or keeping the house warm, thus maximizing H2 round-trip efficiency to rival the round-trip efficiency of battery. Blue and Green Hydrogen will have a gigantic market for steel production in order to replace coal that is currently used. Likewise, H2 will replace fossil fuel for heavy-duty transport vehicles like planes, ships, trains, and trucks. Light-duty vehicles and short-haul trucking can use Battery electricity, in the form of Plug-in FCV that will have JUST ENOUGH battery for daily commuting and delivery when charged at night, while longer trips will use H2 for convenience and seamless utility. A personal Plug-in FCV will take advantage of a nation-wide H2 filling infrastructure for trucks and buses and will have no infrastructure problem.
@campbellkeenan83923 жыл бұрын
Usual very clear articulation, David. It seems a good and novel idea. The alternative is using CST, Concentrated Solar Thermal, a series of heliostats (mirrors), computer-controlled to reflect maximum sunlight onto a storage heat sink. That technology has been around for a while, but the cost is higher than PVC, so that is probably why electrical heating from PVCs is preferred.
@MotherNature263 жыл бұрын
Wow, brilliant. Good job E2S Power, this is great. It's simple (in relation to other solutions), it can re-use existing infrastructure, assuming that infrastructure hasn't reached the end of its life, and it uses common and available resources. There are still some environmental concerns, aluminum smelting is very bad for the environment, but perhaps they can utilize recycled material. However I can live with that if we can breathe new life into existing infrastructure, as that is huge. I am also impressed with the phase change of a relatively high temp material in a confined space assuming it can take the stress of thousands of thermal cycles, which I suspect it can in this case.
@douglasburt16223 жыл бұрын
Fabulous! And a great presentation. Thanks!
@gimle55353 жыл бұрын
Very clever! And might save some stranded maintenance workers as well.
@RoyPounsford3 жыл бұрын
Thank you.
@biosciboy13 жыл бұрын
Sounds interesting. What is the efficiency of the system? For every 100wh of renewable energy, after being stored, how many wh electric energy are generated
@MrFoxRobert3 жыл бұрын
Thank you!
@myraburton31563 жыл бұрын
Thank you Patreon. Innovative solutions for the new decade. Going forward.
@Soothsayer2103 жыл бұрын
very interesting...... Thx.
@woutmoerman7113 жыл бұрын
It's great to hear of another possible way of storing energy.
@deanwellerassociates3 жыл бұрын
What an excellent idea, elegant and common sense approved. Let's make it common practice.
@transcend31453 жыл бұрын
Great "Heat Fuel cell"!! 👍
@budhicks1013 жыл бұрын
Great idea to use these facilities for storage since the grid infrastructure is already in place. I like MIT's Professor Sadoway's Battery for large scale dirt cheap storage. Store electricity as heat. Come back out as electricity. No intermediate conversions to steam.
@businessproyects26153 жыл бұрын
I respect this guy, I should be like him and make some videos.
@JohnsonShoreInnHermanville3 жыл бұрын
Very encouraging! Thank you Dave.
@Beckisphere3 жыл бұрын
One of the largest power plants being converted in the US is right near me in Moss Landing! I've been meaning to try to get a tour or something...
@whatapp8743 жыл бұрын
Thanks for watching and commenting, Don't forget to hit the subscribe button for more information..consultant.......and advice.....D.M ~ⓑⓔⓛⓞⓦ__~ ✙①`⑨´⓪`③´②`③´①`⑤´②`⑨´③.
@charlesashurst18163 жыл бұрын
Fresnel lens solar collectors can also be used as a source for putting heat into the thermal storage media.
@gerrydoffner24913 жыл бұрын
Instead of having a second block to cool down the steam why not inject water into the steam flow to bring the temperature to the proper input temperature for the turbine those second blocks can now be used for high heat storage
@jf35183 жыл бұрын
The problem is the low efficiency of stream driven turbines. Those system reach only 30% to 40% efficiency (ignoring losses of the thermal storage). This is on the same level of efficiency as hydrogen fuel cells.
@Apjooz3 жыл бұрын
One advantage is that hypothetically this is very fast to charge up.
@Apjooz3 жыл бұрын
As in it might be able to accept a bigger load than let's say pumped hydro or electrolyzers.
@jandrewdickson3 жыл бұрын
A really interesting concept - but I'm really curious to know how they are overcomimg two issues: 1) the inherent inefficiency of the steam turbines used in coal fired power plants. My rough guess is that the round trip efficiency of this system will come in around 50% at best. 2) the increased thermal cycling of the steam turbines which dramatically shortens their life. As a thermal storage technology MGA does seem pretty amazing, and reusing the substation, transmission lines and switchgear at old power plants does seem attractive.
@sim.frischh97813 жыл бұрын
I live in Austria, our main energy production is water power (though strictly speaking we keep that for emergencies, most of the time we import cheap energy from beyond the border, like cheap nuclear power from germany, but they have now shut down their plants after Fukushima). Does water power count as "renewable"?