One point I forgot to mention was the testing RheEnergise have done to show their new breakthrough doesn't significantly increase wear the turbines either! If you enjoyed this video, you're going to love the interactive courses from Brilliant! Use my link at brilliant.org/ziroth/ for 30 days FREE and 20% off a subscription!
@brettmoore31944 ай бұрын
Why not have Teflon coated pipes?
@justinmyers67374 ай бұрын
Was wondering about corrosivity and turbine strain.
@jsbrads14 ай бұрын
R19… at least it isn’t R12 😂
@jsbrads14 ай бұрын
@@brettmoore3194 good question, that might shrink the skin friction, but it won’t decrease the bulk viscosity, the friction from the liquid rubbing against the liquid. Any coating would be very expensive too and the concern that eventually it would flake off and then harm the turbines or be a danger to the environment.
@jsbrads14 ай бұрын
@@justinmyers6737 I was surprised to hear in the video that friction wear on the turbine blades was not a problem. As to the load, remember, water will be stacked 2.5 times higher to create the same load. This benefits us because it can be used in a place where they is a much shorter hill resulting in the same load (not a higher load than the water).
@wolvenedge62143 ай бұрын
_raises hand_ Professor, my potential problem with this fluid isn't its weight, viscosity or temperature dependence; basic engineering can handle those. My problem is that we are dealing with suspended solids at extremely high pressures and harnessed via hard changes in momentum. This sounds very similar to the principles behind the cutting fluid used in waterjet tools to me. How abrasive is this fluid, and what measures can we put in place to ensure long-term durability and low maintenance costs, especially in the turbine? (Don't misunderstand, I'd love to see this tech mature, and we only get there by handling them critically.)
@chrism.11313 ай бұрын
Just dump the chemicals into an existing reservoir and double the electrical output. Easy Peezy.
@wolvenedge62143 ай бұрын
@@chrism.1131 That... doesn't answer my question at all. I'm not even sure what question you were answering. I want to know how fast the suspended solids in the fluid wear away at the turbine as it flows through at speed, and whether any additional repair costs are enough of a problem to question the tech's viability right now.
@floorpizza80743 ай бұрын
@@wolvenedge6214 "This sounds very similar to the principles behind the cutting fluid used in waterjet tools to me." Not quite. Typically, the agents used in waterjet cutters are extremely hard minerals. Garnet is very commonly used, with other, more expensive and harder additives used when needed. This works on the "something hard hitting something softer" principle of cutting. If the thickening agents are softer than the components in the system that the fluid will impact at high speed, there shouldn't be any additional cutting force applied. In fact, it may actually lesson the erosive effects of the water, as in any given volume of liquid that passes, a lower percentage of that volume would actually be water; the rest would be the softer thickening agents. I would be more concerned with how the thickeners would collect on the turbine/pump blades and cavities than with any additional erosive effects of added thickeners. Of course, all of this would/will need to be tested to get actual answers.
@claytronico3 ай бұрын
don't apologize for being cynical. This concept is half baked at best.
@apophys11103 ай бұрын
I'm more worried about leakage from the reservoir, if the fluid composition is 'a closely guarded secret.' I was worried for a bit that they'd consider using liquid mercury, and that's the direction this tech will naturally want to lean into, for mechanical efficiency. Liquid metal is *far* denser than water.
@fredbloggs59024 ай бұрын
Slightly disingenuous report. The 2.5x density means you can EITHER use 60% less fluid OR 60% less height, NOT both.
@troychampion3 ай бұрын
I totally agree, they also don't quite show the reality of the problems it could be faced with though they touch on it.. separation.. while it doesn't seem like much in that small flask, would become a much bigger issue in a reservoir.... also, there is the local animal life
@chonkusdonkus3 ай бұрын
That's the same thing
@Wuuz3 ай бұрын
and somehow I feel like the turbine cups will be "sandblasted/waterjetted" with this liquid way faster than water.
@thiemokellner18933 ай бұрын
@@troychampion Good point, what about the wild life? Would it try to drink the slush?
@elijahclifford8633 ай бұрын
@@thiemokellner1893 Ideally you'd want to have the slurry be as closed in as possible so that evaporation and rainfall don't affect the viscosity / density that you're expecting the system to have. Making it watertight will keep animals away from it as well presumably
@velisvideos62083 ай бұрын
Pumped hydro does not necessarily require mountains for a large elevation difference. The lower reservoir can be excavated underground, for instance in a disused mine. It could be a promising way for large capacity storage when combined with this new technology.
@VigneshBalasubramaniam3 ай бұрын
But that would be extremely expensive to excavate a suitable reservoir underground.
@kalzonenu3 ай бұрын
Gravity pushes down not up but sure put the turbine even lower............
@benb39283 ай бұрын
Self-admittedly newb on the topic of pumped hydro, this slurry "solution" seems to be looking to solve a problem where none exists. Specifically not using water means the entire reservoir x2 _must_ be created artificially (with megatons of concrete), and then megagallons of slurry must be made to fill them. No matter how "cheap" it is to make, water is much cheaper. Artificial reservoirs on the other hand are so expensive it may not even matter. This is all to solve the problem of the neighboring hill height? I've never heard this is THE problem with pumped hydro. Seems like this is a story about a patent (R19) and not a story about "waterless hydro". *meh* what am I missing?
@Spencergolde3 ай бұрын
If you can excavate a lower resovouire the size of a mid- sized town, several hectares in surface area and a couple hundred feet deep, at a reasonable cost, then sure go for it. Of course that's impossible unless you're drilling with hydrogen bombs, which is why no one is doing this.
@alexpower94233 ай бұрын
@@VigneshBalasubramaniam
@andrewmcintosh524 ай бұрын
I assume the system would need to be enclosed. Evaporation, or extremal contaminants (rain), would surely throw off the balance of the fluid? I'll keep an eye out for updates on their developments 🙂
@johnroutledge92203 ай бұрын
You probably wouldn't want animals falling in, or birds trying to land on it either.
@Turksarama4 ай бұрын
One big issue I see with this is a "worst case" failure mode. With a regular dam you can always slowly release the contents to take pressure off until the dam can be fixed, but it is environmentally sound to just dump this into the environment?
@skasteve65283 ай бұрын
Good point. They'd better only operate this system on already heavily polluted rivers. Good job we have plenty of those.
@John73John3 ай бұрын
Since it's a closed system you wouldn't be dumping anything into the environment.
@Hamish_A3 ай бұрын
@@John73JohnClosed loop until it isn't. Anything at that scale will inevitably suffer leaks at some point, sometimes catastrophic.
@John73John3 ай бұрын
@@Hamish_A Well that's true of any chemical process ever. But these are risks we know how to minimize and deal with. Since the bottom reservoir is big enough to contain the entire volume of fluid the system is using, a good design would be set up so any leaks would just naturally drain to the bottom reservoir. That would be a big step to making things safer.
@lucbloom3 ай бұрын
Maintenance would require a way to dump all contents in one of the basins or the other.
@larrywilliams91393 ай бұрын
The fluid is derived from oi drilling mud, Barite-barium sulphate-is used both to increase drilling mu density and as an orally administered "milkshake" to improve GI x-ray contrast.
@Mix1mum3 ай бұрын
A saturated clay solution with a couple drops of dawn would accomplish the same. I got clay on my land that Ive mixed up and the water evaporated before the clay ever settled. No need to overcomplicate the thing.
@drillerdev46243 ай бұрын
Had that radioshake once
@larrywilliams91393 ай бұрын
@@tinetannies4637 Contamination danger probably depends on how easily the surfactant breaks down. Barite and clay would probably be the primary components, and they are not toxic. The fluid should be easy to contain.
@larrywilliams91393 ай бұрын
@russbell6418 The key is probably how fine the suspended particles are. If you can get to nano dimensions, you would only need intermittent agitation.
@donaldhobson88733 ай бұрын
Great. Until all the shady discount x-ray technicians start to steal your lake.
@gordslater3 ай бұрын
I'm going to dump 500 tons of hot chocolate mix in Dinorwig upper tomorrow to see what happens
@francisboyle17393 ай бұрын
All that sugar would play havoc with the viscosity. I think you should try Bovril instead.
@johnbest71353 ай бұрын
There's something decent about hydro run by clean water. Clean energy systems must be developed in the interests of the environment. You know how to put me off this slurry idea.
@scorpio0076163 ай бұрын
Your idea is better than the proposed one.
@philjoyce79393 ай бұрын
"The pipes would need to be thicker...". What a strange and imprecise word to use, immediately conjuring up thoughts of pipe wall thickness. 'Larger bore' would have expressed it better.
@PaulG.x3 ай бұрын
The English are weird. They speak of "small roads" when they mean narrow roads. And when something falls , it ends up on "the floor" instead of on the ground - even when the situation is outside of a human built structure. It seems they are losing the use of their own language. William Shakespeare is spinning ever faster in his grave.
@alveolate3 ай бұрын
even just saying "bigger pipes" would convey the idea of larger bore more accurately than "thicker pipes", since thickness generally does not apply to negative spaces within a container. even if "thinner" may work on stuff like pipes and straws, "thicker" simply does not convey its exact opposite in these cases. english is weird af.
@johncreel61353 ай бұрын
"thicker pipes" put my attention to the subject of the video in a tailspin as well. I think I would have gone with wider or larger diameter pipes as well.
@PaulG.x3 ай бұрын
@@johncreel6135 Actually , if you said "thicker pipe" to any engineer ,they would assume you were referring to wall thickness
@andrewmottram85963 ай бұрын
Larger bore means bigger internal diameter, not wall thickness.
@mr-x-0033 ай бұрын
1- The high-density fluid will require more energy to pump to the upper reservoir due to its greater mass. This is because the work done, or the energy required to move the fluid, is directly proportional to the mass of the fluid being lifted. 2- The higher mass and potentially greater viscosity of the fluid could lead to increased mechanical stress on pumps, turbines, and other infrastructure. This could result in more frequent maintenance or the need for more robust equipment. 3-The overall efficiency of the system might be impacted. While the energy density is higher, the additional energy required to pump the fluid could offset some of the benefits. It's crucial to ensure that the energy gained from the increased density outweighs the additional energy cost of pumping.
@trogdorstrngbd3 ай бұрын
Regarding 1, the greater energy required to pump it up is exactly balanced out by the greater energy it stores per volume.
@mr-x-0033 ай бұрын
@@trogdorstrngbd the density is high, so mass would also increase, thus increase in work required to lift it up
@andrwsk233 ай бұрын
@@mr-x-003 1) less height, 2) less amount of fluid or 3) more energy stored for same height and volume.
@mr-x-0033 ай бұрын
@@andrwsk23 more challenges
@rockyblacksmithАй бұрын
My guess is they are trading a measure of efficiency for a smaller footprint of the plant. Suitable locations are pumped hydros biggest limiting factor, so it makes sense that people are looking for ways to shrink it down, even if it has some additional downsides.
@edwardlulofs4443 ай бұрын
Yes you want high density, but you also need low viscosity and low or zero toxicity. Low cost of the fluid is also helpful. If the water from the slurry evaporates, the viscosity will increase and water will have to be added, just like water based pumped storage. On the plus side, with water based pumped storage, people want to use it for recreation and that’s a security problem for the facility and a danger when people get in. One can’t assume that the public will understand the risks and stay out. I will watch the technology and see how well it works.
@jsbrads13 ай бұрын
@@edwardlulofs444 the ingredients are a secret, but if it is largely just clay, or other inert stuff denser than water, not too much of a problem. Go for a mud bath in the slurry. Also water is pretty inexpensive to add to offset evaporation.
@vylbird80143 ай бұрын
@@jsbrads1 If it's clay you may be looking at settling problems as well. Slurry is just silt-in-waiting.
@edwardlulofs4443 ай бұрын
@@jsbrads1 sounds promising
@jsbrads13 ай бұрын
@@vylbird8014 true, tho he did mention it has other ingredients to help the particles stay in solution. Tho the density of clay is a bit too low to work on its own.
@MrStarTraveler3 ай бұрын
One big problem that I'm positive would arise, is the effect those solid particles are going to have on the inner walls of the piping and the blades of the turbines. It is very possible (I think certain) that the slurry is going to act as a liquid sand paper! Quickly sanding and filing away at the pipes and turbine blades. "Eating" them away. Clear water can have wearing effect on surfaces when the flow is fast, let alone a water with particles in it. this sounds like the liquid solutions they use in water jet cutters. I believe this project would hit a major roadblock if this issue isn't resolved.
@wkgurr3 ай бұрын
For a decent amount of power generation you need a huge water reservoir allowing for a large flow over a long period of time preferably with a large head. This slurry is about 2.5 times as dense as water. That means you only could reduce the amount of material by 2.5 times compared to a hydro plant (or reduce the head by 2.5 times). A head of 400m would now be 160m. At the SAME volume of the reservoir because you can either reduce head OR volume but not both if you want to keep the energy yield the same. So imagine the Nant de Drance being 160m above the Emosson lake instead of 400m but filled with this slurry instead of water.This is not a usefull energy storage application. It might work in very specific circumstances but for almost all practical purposes it is useless. Even if you could develop a slurry with a density 10x of water you'd still not be there. You'd have to have a slurry with 100 times the density of water to get anywhere close to an economically viable energy storage solution.
@tomholroyd75194 ай бұрын
2:22 the way they built that dam to completely hide all the machinery and with NO ROADS is a fascinating tale, there is another vid about it somewhere --- they did a magnificent job, just look at that thing!! Not a trace of artifice, except that bit of concrete wall
@loiskimberleyplayer3 ай бұрын
Super cool! Feels like a promising development!
@JoeyBlogs0074 ай бұрын
The problem with this concept is that the round trip estimates appear to relate to energy storage phase efficiency only. Not power generation. It does not appear to factor in the electrical conversion component via the hydro turbines. There you are loosing more efficiency again. Compare that to a battery that bypasses generation completely, because the power is already in the electrical form. Also you have additional maintenance costs for the turbine power generation system.
@JoeyBlogs0074 ай бұрын
I think large scale sodium ion battery storage is the future of energy storage.
@davidwalker29424 ай бұрын
All pumped storage systems require more energy input from external sources than is produced when the liquid flows from higher to lower levels due to inefficiencies. But they do separate timing of production and use. My concern with this scheme is wildlife hazards (such as waterfowl), as well as the potential of polluting the land and water table in the area due to leaks, seeps, or eventual disrepair of the system. Does the fluid become a 'forever' non-biodegradable fluid pollutant, solving one problem (energy) but creating a worse one (environmental)?
@jcbeck843 ай бұрын
The biggest problem for Rheenergise is that there is nothing inherently novel about increasing the density of the pumped fluid. There's very low likelihood that the cost of heating that still very large amount of fluid is going to be offset by the reduced viscosity, which means their only claim to fame is selling drilling mud. If the approach is viable then anyone who can build a pumped hydro unit can easily replace these guys. And lets not forget that because your pumped fluid is a closed system you now need an upper and a lower retaining pond so that claim of less space probably won't happen.
@carlosandleon3 ай бұрын
Probably using mercury
@jcbeck843 ай бұрын
There are worse ways to unload millions of gallons of mercury...
@benb39283 ай бұрын
man sounds like you nailed it. This slurry is totally for fracking and has nothing to do with pumped hydro..
@dacjames3 ай бұрын
That’s bad for their business but good for us as energy consumers.
@dacjames3 ай бұрын
All pumped hydro has upper and lower pools so not sure what you mean there.
@quaztron3 ай бұрын
Lifted Weight Storage stores energy by lifting a heavy block up a mineshaft and retrieves the energy by lowering it back down. Optionally use multiple blocks. (Just don't drop any.) Lift Renewable Energy stores energy by pulling empty tanks down into deep water; seems safer than pumping fluid into an elevated reservoir that can release.
@Dalorath3 ай бұрын
I am worried about its content, is it harmfull if it is spilled into the environment>? or seeps into the environment??? Poluting a massive water source, is a big concern!
@arielmarshall55013 ай бұрын
Exactly my concern. Doesn't sound very eco friendly, if it was, they would say something like high clay content water. I cannot see how high density slurry could not be replicated by/engineered with other materials, so why the lack of transparency?
@fuerLutzi3 ай бұрын
Watch from 5:03.
@Dalorath3 ай бұрын
@@fuerLutzi Used in oral medication sets me off.
@fuerLutzi3 ай бұрын
@@Dalorath lactose is used as a buking agent in pills 'n stuff. Not to be used in THIS context, of course.
@augustine66833 ай бұрын
Isn't it basically just mud? Considering how harmful the majority of current power generation is(especially in the US) I don't think there's much harm in having slightly dangerous ways to store energy to improve the effectiveness of renewables.
@gottfriedheumesser19943 ай бұрын
You forget that many of the pump hydro storage plants in the Alps also use a lot of natural influx from rain and snow that has to run away in a river. Sometimes they do not even have a large storage basin on the low side but use the river's water from a small basin to pump upwards. This is not a viable idea for many Alpine pump storage plants. The uprise of landscape protectors is sure. I am also interested in erosion in the engines. This can significantly increase with particles in the water. Some fifty years ago I was told that a Francis turbine crashed after some 700 hours due to quartz sand in the plant's water exactly two hours before the official opening ceremony with two state presidents and a lot of other high-ranked animals.
@WhyInnovate4 ай бұрын
Smart changing the fluid is pretty neat, oils companies use drilling mud all the time, looks like someone worked in the oil industry
@weeb32773 ай бұрын
do pipes need to be thicker or wider? wider probably
@dosgos3 ай бұрын
Wall thickness matters too for flow but much less important.
@av_oid3 ай бұрын
Yes, because they will wear quicker.
@thatguychris56543 ай бұрын
Let's hope that when this leaks, this special fluid isn't toxic to the environment.
@benb39283 ай бұрын
beat me to it..
@jsbrads13 ай бұрын
@@benb3928 it sounds like muddy water, so it should be no trouble.
@loganstewart61333 ай бұрын
Its just mud lol
@jsbrads13 ай бұрын
@@loganstewart6133 mud alone would have too low a density. It also has too much sand, sand is very hard and it would chew up the turbine in a very short order.
@davidingmire40703 ай бұрын
I enjoyed this video. Smart idea. I was distracted by your saying they may need to make the pipes “thicker”. I think you meant “increase the inner diameter.” As someone familiar with pipe fitting and plumber terminology (in the U.S.), this left me wondering what else may be misstated.
@rohan7513 ай бұрын
Hey , I'm not too familiar with the terminology. Could you explain what the difference is
@davidingmire40703 ай бұрын
@@rohan751 If thicker means the outer diameter is larger, that’s separate from the inner diameter which controls how much can flow. The wall thickness of the pipe material makes the inner usable diameter smaller than that outer diameter. “Thickness” is not a term you’d ever hear. At least in the U.S.
@Spencergolde3 ай бұрын
At university, when we did a project on the topic of proving the infeasiblility of artificial pumped hydro, we used the example of a water tower. The gravitational potential energy stored in the average U.S. water tower at average height and volume, has enough potential energy to just barely meet the energy demands of a single U.S. home for one day. It really comes down to an optical illusion where some people look at a damed resovouire and ridiculously under estimate the mass of water that they contain. Building the resovouire, without natural geologic containment in place, is vault outside of the engineering abilities of today, or for that matter, within the next century, let alone doing that at a cost effective point. All forms of gravitational potential energy storage are fundamentally inadequate for electricity storage within the geological confines of most places. Chemical and thermal energy have much higher energy densities and probabilities of achieving cost effective energy storage
@henry_tsai3 ай бұрын
Well… we can use two nukes to make the high and low reservoirs, and tell people that it's radioactive so don't swim in it… two birds with one nukes!
@perm.jensen77223 ай бұрын
Got my popcorn. Waiting for Thunderf00t.😁
@robertpeters94383 ай бұрын
You can always use insulated spheres on top to reduce thermal loss from the surface of the working fluid.
@PomahXomehko3 ай бұрын
You can use CO2 gas as a medium to generate electricity pilot plants have been produced. A large CO2 reservoir and two gas compressors to circulate the system and it can be run at 60 percent efficient more than hydrocarbon fuels . Instead of making CO2 the enemy use it CO2 turbines are a lot smaller than traditional and uses less turbine stages .
@dylanpendlebury233 ай бұрын
Wouldn't the particles eventually fall out of suspension and settle at the bottom of the reservoir?
@MichielvanderMeulen3 ай бұрын
no it's magic
@Kirillissimus3 ай бұрын
There are a few chemical and mechanical ways to prevent it. For the application they are all going to be terrible in many ways but if you just need a small scale short term demonstration to get some investors spend their money then it can be done.
@victorwitness74143 ай бұрын
What if? The reservoirs are of equal height, with a valley between them. Then say at the halfway point the fluid changes from flowing down to then flowing back up. And at the halfway point we reduce the size of the tube. Maybe by 1/3 ? Using the weight difference from the larger, downhill side, to help push the fluid up. Increasing the speed of the flow in the smaller tube so that the volume isn't reduced. Would this work? Would this increase the efficiency? Can the faster flow in the smaller tube be utilized to spin turbines faster for a improvement in the efficiency?
@vincentshapland72503 ай бұрын
This channel is excellent.
@nat99093 ай бұрын
We have a pumped reservoir system in Massachusetts that has been in use since the late 40s. You can't see it, though, because they hollowed out a mountain and put it in there. Kayakers like to wait by the outflow areas to catch the free ride down the river.
@shaikhfoysal44263 ай бұрын
I read about this from an article. Dense water for more efficient, small storage. Thanks.
@fredericrike59743 ай бұрын
Z- look into barite weighted drilling fluids used for the last century plus to both drive the boring bit and to lift the cuttings out of the bore- water, weighted up higher than the rock or formation they were drilling in.
@nixtoshi3 ай бұрын
What about using mercury as the liquid in the pumps? 13 times the density of water
@Neuralatrophy3 ай бұрын
How well does this slurry stay in solution ? how long do the chemicals remain stable and able to perform as intended ? How does the microscopic granular features affect the equipment ? Those will be important in the long run.
@l0I0I0I03 ай бұрын
How often to main components need to be replaced and at what cost?
@joshuahansen54863 ай бұрын
The system would also have to be completely enclosed any water infiltration into the slurry is going to screw with the density and allow the powdered Stone material to fall out of solution
@abdalsamehmuhammad56873 ай бұрын
My question is : since its a closed loop system and you’re reusing the same fluid , so you still need energy to pump the fluid up , right ?
@rogerfurneaux15293 ай бұрын
Obviously, but the whole point is that you do it at night when there is excess power from wind, nuclear and gas turbines which cannot be be turned on & off like a switch. The pumped storage on the other hand can be: I have been inside the "magic mountain" at Dinorwig and seen the utterly enormous valves which open almost instantaneously to meet sudden demand - such as millions of people switching on their kettles or flushing the loo at the end of Coronation Street (e.g.). And before anybody laughs, flushing millions of toilets causes a pressure drop which requires (electric) pumps to be turned on to compensate.
@pauleohl3 ай бұрын
My prediction: This "invention" will turn out to be totally unworkable and is essentially a fraud. How can a patent be a secret? A patent is a patent disclosure. Either you disclose and get exclusive rights for a limited time or you keep it a secret and hope that the competition cannot duplicate your invention work.
@economistfromhell48773 ай бұрын
All patents have secrets - your naivety’s astounding
@trogdorstrngbd3 ай бұрын
Yeah that's how it should be in principle but nowadays any good patent lawyers will write it to be as vague as possible while still, by the slightest of technical margins, covering what you're actually doing. I highly doubt RheEnergise's idea will be commercially viable. Competing with _water_ for gravity-based energy storage automatically puts you at a huge disadvantage with respect to cost, toxicity, and phase separation. It sounds like they need to keep their whole fluid system sealed or at least covered, which is another big cost/complication.
@BariumCobaltNitrog3n3 ай бұрын
Really? What's in Coca-Cola then? It has a patent.
@pauleohl3 ай бұрын
@@economistfromhell4877 Less than 1 minute of research would have (possibly) taught you some humility: Trade secrets Coca-Cola's secret recipe is a trade secret that has been protected for over a century. Trade secrets are governed by state laws and do not expire like patents. Coca-Cola's decision not to patent their formula again after changing it is due to the fact that if they had, the formula would have become public knowledge once the patent expired.
@pauleohl3 ай бұрын
@@economistfromhell4877 Trade secrets Coca-Cola's secret recipe is a trade secret that has been protected for over a century. Trade secrets are governed by state laws and do not expire like patents. Coca-Cola's decision not to patent their formula again after changing it is due to the fact that if they had, the formula would have become public knowledge once the patent expired.
@anguscampbell15332 ай бұрын
Barite Mud using a water base could used in the drilling for oil could be a prime candidate for such a system? Water-based drilling mud most commonly consists of bentonite clay (gel) with additives such as barium sulfate (baryte) to increase density, and calcium carbonate (chalk) or hematite. Instead of reservoirs, large tanks with one at elevated height?
@WobblycogsUk4 ай бұрын
It's an interesting idea, but that cost per MWh isn't exactly great. I realise they don't exist yet, but I suspect the future of grid storage will be sodium ion batteries. Lower energy density than lithium ion, but that really doesn't matter for stationary applications.
@Mix1mum3 ай бұрын
Sodium ion batteries exist. In fact, you can go buy some right now, they're already rolling out to residential consumers. Look up Natron batteries.
@mentality-monster3 ай бұрын
@russbell6418 Heat storage is not in any way efficient if the source of the heat is electricity and the goal is turning the heat back into electricity again.
@thiemokellner18933 ай бұрын
Thanks. I wonder how much energy is needed for the grinding , how often the liquid has to be exchanged and how abrasive the liquid is to the turbines. Heating the storage? Or having a flow heater of how much power? The same principle with another less "proven" fluid is more cost effective? I'd like to see that calculation. Do they need a giant agitator in the reservoir to keep the particles suspended in the fluid, to avoid sedimentation? If that would fails, what would that do to pipes and turbines?
@mpetersen63 ай бұрын
I'm wondering about wear issues on components
@nickcook27143 ай бұрын
Probably the most important quick calculation is the finances. A really interesting number would be the cost of the R19 per tonne, which I suspect they're not going to release, but on the available information we can do a ballpark calculation. The main ingredient, if it's used in oral medication, has to be something like calcium carbonate, kaolin, silica or something similar, ingredients which have densities in the range of about 2.5 to 3Kg/L. The raw ingredient before processing is probably going to cost you at least £25 per tonne. To achieve a density of about 2.5 times that of water would require probably at least 80% additive, which is equivalent to 2 tonnes of R19 powder/m³ of fluid. By the time you've milled all your ingredients, mixed them and added your surfactant etc. plus a bit of profit, I would be very surprised if the if the cost per tonne would be less than £50, which means the cost of the hydraulic fluid would be at least £100/tonne, and I suspect probably more likely twice that. Info: Dinorwig pumped hydro in North Wales working head of a round of 530m, generating losses probably around 10%. The working volume is around 7M-m³. Using R19 fluid you could reduce the working height to: 530m ÷ 2.5 = 212m Stored energy - KWh/m³ = mgh = (2,500×9.81×212/3600)×90% = 1.30KWh/L At £100/m³ that is the equivalent of about £77/KWh, which is on par with the cost of lithium phosphate batteries, which have an energy density of about 140KWh/L. Note: this is just at the battery cost, it shouldn't be compared with something like a Tesla Powerwall as this is a whole system cost. Info: The construction of Dinorwig Power Station in North Wales, UK, began in 1974 and cost £425 million, which is equivalent to £4.7Bn in today's money. Because the water for Dinorwig it's basically free, using R19 would probably add at least £700M (about 15%) to the project, but almost certainly far more than that. Furthermore, and I like water come up I suspect this emulsion well and gradually degrade with use and require either replacing or refurbishing periodically. When you consider the ongoing performance improvements to battery technology and continued cost reduction, I can't see this technology ever being able to compete with battery storage. It requires more space plus all the connecting pipework and a turbine hall compared to a battery charger and an inverter. And you don't even need a hill of any height.
@kieren41422 ай бұрын
For the R19 fluid, If I were to guess what it was suspended in the liquid, I would probably go with clay. It's abundant, can be filtered to be very fine, would be naturally benign and would need to have a surfactant to keep it suspended.
@justiceJuiceify3 ай бұрын
I love gravity batteries. A 2m long steel weight falling down a slightly wider drill hole can turn a 10mw generator and at 750m deep the geothermal temp should be 1c and air flow enough to pull it up, slowly.
@maramé.r4 ай бұрын
Stored hydro only makes sense if it is pumped to higher elevation using sustainable energy (solar, wind, hydro etc). Whether it is more efficient than battery storage needs properly evaluating but it does involves very large scale engineering with an negative environmental impact when compared with battery or sand storage
@pravoslavn3 ай бұрын
It would be interesting to see a calculation on the thermal losses (including frictional losses) associated with pumped storage. Nonetheless, well-done video ! Keep up the good work. ☺
@DMonZ19883 ай бұрын
This is nice and all but traditional cisterns can get topped up by rainfall and I wonder about the abrasion of the microparticles on the turbines, not to mention the required temperature control. Still indeed cool for smaller scale closed loop systems as a storage solution.
@McCraeMoto13 ай бұрын
Why didn’t I think of this. It is a beautiful solution.
@dropshot19673 ай бұрын
Great idea. But I wonder if the additives will increase the abrasiveness of the fluid, increasing the need for maintenance on the turbines, pumps, and pipes. If it works, great, we will need a mixture of energy storage solutions to make it all work.
@C-M-E3 ай бұрын
So clay water with tannins, aka Slip. Interesting idea on the face of it for geographic advantage, but it still feels like deferred 'free' lunch, like using solar but changing when the bulk of the best light is available in exchange for overnight when it's costing money and not making power.
@mr-x-0033 ай бұрын
high density also means they would require large wrok done or energy to move them in upper reservoir, as mass to volume ratio increases
@mr-x-0033 ай бұрын
1- The high-density fluid will require more energy to pump to the upper reservoir due to its greater mass. This is because the work done, or the energy required to move the fluid, is directly proportional to the mass of the fluid being lifted. 2- The higher mass and potentially greater viscosity of the fluid could lead to increased mechanical stress on pumps, turbines, and other infrastructure. This could result in more frequent maintenance or the need for more robust equipment. 3-The overall efficiency of the system might be impacted. While the energy density is higher, the additional energy required to pump the fluid could offset some of the benefits. It's crucial to ensure that the energy gained from the increased density outweighs the additional energy cost of pumping.
@AgenteSmart3 ай бұрын
Hmmm.... I can easily think of a few places with warm weather, rough landscape and water shoratges which make reversible hydro mostly moot. They're all around the Mediterranean sea and in places which often enjoy thermal winds and plenty of sunlight, matched with the infamous "duck curve" of photovoltaic vs air conditioning.
@nicktumi3 ай бұрын
This is awesome. Cant wait to see the follow up. Is there a timeline when those test sites will be functioning?
@darianhobo88382 ай бұрын
Interesting concept to add density to pumped storage. Space solar power and its 99% capacity factor and $40 MWh generation cost is a better solution, but this has merit in smaller scale applications like the mine you mentioned where electric gen cost are very high.
@alan_yong3 ай бұрын
🎯 Key points for quick navigation: 00:00:12 *💧 Traditional pump storage hydro power uses water's gravity for energy, but has geographic and cost limitations.* 00:01:09 *⚡ Re-energize's system combines water's flow with a high-density slurry, providing more energy storage with less height.* 00:02:42 *📏 The new slurry can deliver the same power with 40% less height difference and 60% smaller tanks.* 00:04:03 *🏔️ Re-energize identified 6,500 potential sites in the UK for smaller scale energy storage using their technology.* 00:05:25 *🔬 The patented fluid, R19, is easy to produce on-site and designed to flow efficiently without significant viscosity issues.* 00:07:42 *🌡️ Temperature control is crucial for the R19 system, requiring active measures to maintain fluid viscosity during operation.* 00:09:05 *📈 Initial demos show R19's effectiveness, needing half the elevation compared to water to achieve equivalent power outputs.* 00:10:14 *🌍 Re-energize aims for a 10-megawatt grid project by 2025 and explores microgrids to support renewable energy access in unreliable areas.* 10:55 *🌍 Smaller reservoirs of 'waterless' hydro can reduce environmental impact if implemented responsibly.* 11:10 *🔧 Builds on existing pump storage technology, enhancing innovation and potentially lowering R&D costs.* 11:25 *💰 Re-energize claims significant cost benefits over traditional pump storage due to simpler materials and lower installation expenses.* 11:38 *🔋 Long-duration storage with minimal degradation or leaks presents advantages over lithium-ion batteries.* 11:52 *📊 Projected levelized cost of 'waterless' hydro storage is approximately $150 per megawatt hour, higher than lithium-ion costs.* 12:06 *⚡ Re-energize's pump storage system could achieve 83% efficiency, potentially outperforming lithium-ion systems.* 12:19 *⏳ Concerns remain about long-term functionality and fluid stability in closed-loop systems as the technology is still being developed.* Made with HARPA AI
@etmax13 ай бұрын
Turbine technology is supposed to be subject to a physical limit of around 65%, although I'm not sure if that's just for steam. If it's across the board then their round trip efficiency has to be off.
@SteveBueche10273 ай бұрын
What’s the power consumption to pump it back uphill? How does that effect the overall performance?
@sdfgsdfg37893 ай бұрын
This will never be heard of again.
@DTXGaming3 ай бұрын
Hopefully.
@festro10002 ай бұрын
The idea of gravity batteries (while unconvertional) does have some use in large scale plants particularly with dwindling resources needed for conventional batteries, though I can see downsides too; for 1 you're maintaining a much larger facility that's going to see notably more wear and tear to conventional battery stations, and 2 the energy used to pump the liquid up hill (more so with a denser liquid) is likely to incure greater losses than the energy gained on it's return as the conversion between kinetic to electricity is not lossless. So I really can't see this catching on unless this is intended to be a "poor man's" battery or as a greener (albeit inefficient) alternative solution. As for the R-19 fluid, they might be able to use it in colder climate if they tied the heat produced by the turbine to the tube (as mentioned) and insulated the tube to trap the heat in the pipe, would be a good idea to make the inner tube out of a metal with high thermal conductivity to keep longer stretches of the structure heated maybe adding solar water heating.
@douglee24383 ай бұрын
For thermal management. Solar thermal and thermal storage are fairly simple tech. Especially if all you need is to heat the fluid before it flows through the turbine. If you need to keep the entire reservoir warm, then “Good Luck with that”.
@themacker8943 ай бұрын
The slurry looks delicious - like the perfect milkshake. J Love the channel.
@4G124 ай бұрын
These gravity batteries have one HUGE advantage over metal ion paste based batteries: No battery fires.
@BigBearHostel3 ай бұрын
The latest battery tech doesn't burn.
@vylbird80143 ай бұрын
Somewhat solved. Not all li-ions are alike, there are different chemistries. Your basic li-ion as used in consumer electronics is a fire hazard. Lithium-polymer is one spark short of turning into a hand grenade - sometimes you need a fireproof bag to charge them semi-safely - but the very high power density makes them useful in compact high-performance applications. The you have the safer options - LiFePo4 and the still-novel Na-Ion. Lower energy density, but also pretty safe - even if you try, it's hard to make them catch fire.
@EastBayFlipper3 ай бұрын
The logical location for a technology like this is a deep hard rock mine like a nickel mine that is played out or a lead zinc mine like Brunswick Mines in New Brunswick, Canada. Lots of space and a thousand meters difference with a stabilized temperature and vertical fall of fluids 😮
@oOCentralSunOo4 ай бұрын
What is the slurry made of?
@ZirothTech4 ай бұрын
They have been very secretive and I didn't want to speculate too much in the video, but if I had to guess I think it would be some kind of anticaking agent
@fredbloggs59024 ай бұрын
My guess is a diatomaceous earth like ‘Fuller’s Earth’ (used in cat litter and oil drilling mud).
@christopherj22314 ай бұрын
@@ZirothTech Just wonder whether it may degrade and need restoring over time?
@antcowan3 ай бұрын
@@christopherj2231 It would wear out the turbine blades in no time with that highly abrasive slurry.
@johningham18803 ай бұрын
If it is a commonly used excipient in medicines, then magnesium silicate (talc) might be a candidate. Density of 3.192 in pure form. Literally the softest thing on the Moh’s scale, so the turbines might stand a fighting chance, for a while at least.
@raimohansen94074 ай бұрын
Also factor in the energy required to ultra-fine mill the materials
@NSBarnett3 ай бұрын
Very interesting. I watch quite a lot of youtubery and notice that many, including this one, use extremely short snatches of video several times over. I mention this because if I'm noticing that, I'm probably not concentrating on the text/commentary. And by contrast, bits of video which are genuinely explanatory are edited down to such short lengths of time that they are pretty well subliminal! Is this because of copyright restrictions? Whereas that shot of one bloke walking towards another bloke seemed totally irrelevant and was shown four times or more! If you're trying to make the video economic to do, more footage of you talking to camera would be acceptable, particularly if it coincides with you making the important points.
@thiemokellner18933 ай бұрын
Another thought just came to my mind. How does the fluid react to contamination. It seems there is a lot of surface that could happen though.
@Itzdapitz3 ай бұрын
2:19 geography is everything 🙏
@RoyBoy20193 ай бұрын
$150/MWh at what stage, demo unit or idealized scale? Full environmental protections & insurance in place? When was Li-ion $205/MWh estimated? What region? Skeptical as BESS is edging out peaker plants with $151-198/MWh estimates.
@KeithEQ3 ай бұрын
An interesting reservoir to go in for a swim. Drowning won't be a problem.
@shadow429903 ай бұрын
What happens if there's a spill of this liquid? or if it seeps into the ground over time? What happens when it rains and dilutes the fluid? does it need to be stored in a covered env?
@DataSmithy3 ай бұрын
I am guessing that this slurry formula could be optimized over time to be even more efficient, for example, use of heavier elements in the fine particles, but still retain the correct slurry consistency.
@nealanthony34823 ай бұрын
When you say the higher viscosity necessitates "thicker" pipes, can we assume you mean pipes with a larger internal diameter and not thicker walled pipes? Thanks
@philippe_demartin3 ай бұрын
What about erosion in the turbines?
@donaldhobson88733 ай бұрын
The energy to heat water by 1 degree C is equal to the energy of dropping it 400 meters. Basically the energy to heat it will always be unreasonably high. If you need any heat at all, your heating bill will be way higher than the energy stored. Designs that need to keep the fluid warm are basically unworkable.
@garethrobinson22753 ай бұрын
The real 'problem' for this is competition from battery storage. Much cheaper sodium batteries for instance are scaling right now and their storage cost is only a bit over a quarter less than today's battery systems. I do like the idea but batteries are going to get very cheap and very plentiful and they have less downsides as time goes on, lower flammability, lower cost, longer lifespans. My money would be on them.
@richardhorton252 ай бұрын
What about dilution of the slurry through rain onto the exposed reservoirs or change in consistency of the slurry through evaporation of the water content?
@lucbloom3 ай бұрын
What about evaporation and the composition of the slurry? Constant supervision and readily available water?
@Ballistichydrant3 ай бұрын
At some point the slurry will be reintroduced to the water table, either by accident or on purpose. What happens then. Is it a contaminant, is it safe for animals and plants to consume?
@Sweenus9873 ай бұрын
How big would it have to be if you wanted to do this as a house battery? If it is done purely vertical and placed in a sizeable hole in the garden
@lifter10004 күн бұрын
It could be red mud, a byproduct of processing bauxite into Aluminium.
@Golden_SnowFlake3 ай бұрын
find a material that can be filtered back out, and you will find a much higher energy storage. As you can filter it out going down, and get an easier material (Pure water) to send back up, while sending the material back up via a trolley or something to be remixed, cutting losses dramatically if you can figure it out in an efficient manner. beat the viscosity and you win an extra level of efficiency.
@fredbloggs59023 ай бұрын
The total mass being lifted back up is the same regardless of the state it’s in.
@pinkzomo4 күн бұрын
With only a factor 2 being better than water, there are plenty of disadvantages: the storage has to be closed in order to keep the mixture clean. Rainwater -- that might add naturally to a water storage lake -- can't be used and the extra cost of creating the mixture even if cheap and based on natural materials is still an extra step. I don't see how it can compete with water -- especially when the water surface could host floating solar panels ...
@JoeyBlogs0074 ай бұрын
If a fluid produces twice the power due to it being more viscous, it must mean that you require double the power to pump the fluid to the upper reservoir? i.e. due to its higher viscosity. Rather than change the fluid, simply change the turbine blade to match the fluid viscosity to optimize hydro power surely? One would have to look at the round trip energy efficiency, not just the one way power generated. However I guess when there is surplus power the storage efficiency becomes less of a concern.
@JoeyBlogs0074 ай бұрын
The real saving is the area required to store the same amount of energy. However it doesn't seem any more efficient. Not round trip.
@JoeyBlogs0074 ай бұрын
Yeah, but I think sodium ion large scale storage would be better and more practical.
@titter36483 ай бұрын
So is the solids in the slurry abrasive? And my experience with abrasive cutting slurry's is that if they are not constantly circulated they will settle and turn into almost concrete in a pretty short time. And evaporation will make the slurry more dense over time, will rainwater be enough to replenish the evaporated water from the slurry?
@kadmow3 ай бұрын
The benefit with water is it self transports to the upper reservoir in many locations, and is inexpensive and ubiquitous.. (Lead and tungsten are a little pricey by the tonne. - concrete is cheaper, but only ~1/5th as dense - sure it is better than water in density stakes,harder to pump).) With gravity storage, the maximum the topology can give - is never enough... Never limit to "only so much is required" - the viable minimum may be less, but the maximum yields so much more energy.
@flotsamike3 ай бұрын
My first thought this was a 50% solution of zinc bromide when I saw the density. But that would not be environmentally friendly. It would be cool because you could have a gravity battery and a flow battery all-in-one system though.
@flotsamike3 ай бұрын
Running this system from a large diameter pipeline at a higher elevation to a pipeline at a lower elevation would get rid of all of the concerns about maintaining the fluids temperature.
@davefarmery81802 ай бұрын
So if it's an open air closed loop system what happens over time with rainfall that over time will overfill the system, What happens to the overflow or discharged material
@mr01steam3 ай бұрын
When it rains the liquid will be diluted. How do you mitigate this? in Britain this is probably a bigger factor than evaporation from the sun. How do you extract the excess rain from the slurry or are top and bottom reservoirs covered in some way?
@smaggies3 ай бұрын
Great technology, I do enjoy, will be glad to view in action. :)
@zefellowbud59703 ай бұрын
wait so um if i understood this correctly you can store the same amount of energy with less volume by using a denser fluid? i assume it would mean one could have a smaller reservior compared to something like hydro electric dams that store water? did i get these right?
@MichaelRada-INDUSTRY503 ай бұрын
Would like to hear how the liquid behave in hot temperature which will be more frequenty in mane regions that the cold weather
@nallemanstankarochfunderin59623 ай бұрын
Another thing that came to mind is how to handle the increased weight and pressure. If the liquid is four times more dense it will also be much heavier and create much higher pressures. Following this line of thought it will also need thicker pipes, stronger dams and heavily beefed up pumps and turbines. It will also be necessary to build the dams with a much higher security rating. There will also need to be a system for increasing and decreasing the water content of the fluid depending on heavy droughts or rain. To me this sounds like a pipe dream, very badly thought through.
@lylestavast76523 ай бұрын
what keeps the slurry in suspension , is settling of the components of it an issue at all ? You don't need mountains/ hills to do this - the same could be done using a subterranean opening like an exhausted mine as the downflow receiver if the pool depth down there didn't vary a lot - you want minimal distance to have to pump UP... maybe some salt caverns some where that are largely horizontal at depth ?
@sandmangreen43 ай бұрын
As with every gravity based project.... But what if we consider material costs? They never make sense to construct in the end