Breakthrough Tech Heats Homes Cheaper Than Natural Gas!

This is an idea that has been done before in slightly different ways. A friend of mine built a solarium on the back of his first home. He also built a semi passive heat battery underneath it. The battery was just three feet of pea gravel in an insulated pit under the solarium. On winter days, the solarium would capture much of the sun's heat, and a fan moved that warm air through the gravel and into the house. After the sun went down and the temps began to fall, the warmed gravel would still supply some heat, reducing his gas usage.

I built my home to heat AND cool in Arkansas, without any other energy source. The house temperature year round was between 68 to 78 degrees. Heat of sun and coolness of earth transferred by concrete walls and floor and south facing windows. VERY COMFORTABLE!

I've been to Finland working on energy related projects. From what I saw, home heating in their long cold winters in done via radiators run off of district hot water infrastructure, heated at a central boiler station (i.e. they have hot water piping throughout the city that everyone taps into). The heat source in the place I visited was simply burning wood chips (there are a lot of trees in Finland), which my hosts explained was carbon neutral, as they planted news trees in place of the ones they chopped down.

Finland is not mostly power by natural gas. That is the EU average, but gas contributes to less than 5% of Finnish electricity production. Finland imports energy mostly from Sweden and Norway, neither of which either use much gas. Finland gets no electricity or gas from Russia. That was cut off earlier this year.

You don't specifically need construction sand for this application, as stated by the Company itself. They can design systems using sand not qualified for construction, as well as some kinds of dirt and gravel mixtures, using the same properties. They just have to account for the mixture when designing the system and ensure it is uniform. They also stated they can also try and utilize places like old quarries as a basis for making these systems instead of making them from silos, both of which can utilize local resources to drive down price lower than their standard approach of silos and sand, which is a choice they made because they are available rather universally. But to make them cheaper per-scenario, engineering them to the situation will probably be cheaper in many situations.

Our grid in Finland is already over 80% carbon free. So gas is not the major energy source. Most important are nuclear, hydro and wind.

Please note difference between power (kW) and energy (kWh).
Power is measured in kW and energy is measured in kWh.
1kW of power for 10 hours uses 10kWh of energy.
At 4:04 you use the same unit for both power and energy (100kWh and 8MWh).
I assume it can supply up to 100kW of power and has 8MWh of storage. i.e. 80 hours of full power usage.

From a novice about energy production: Since the company has to send the electricity to the end users anyway, is there some reason that a much smaller sand battery could not be developed for individual homes rather than building giant, expensive silos?

For years there has been battery "breakthroughs" every week. This looks like a genuine breakthrough that could be very useful especially with intermittent renewables.

I like the price of such a simple idea , domestic hot water is an area that can benefit from this. Preheating the cold water from 55 degrees before it gets to the domestic Vessel. This could be adapted on a small scale for use in apartment complexes, food service etc. Food for thought Good job!

This is a perfect example of how a combination of technologies is how we get there. It's not a one size fits all solution, but hugely useful if used right. 🙂

Anywhere there is a community heat scheme, like in large areas of New York, this would be perfect. These piped heat arrangements are the norm in densly populated areas in much of Europe. There are also many, many areas that could adopt them. I think this is an incredible innovation and would only need a small group people to make one of these viable, especially if they had a community generation scheme.

As a Finn, I would appreciate if you checked the natural gas consumption statistics before saying that we use natural gas ”for most part to power the grid”. We were at 6% of total energy consumption in 2020 and it is just getting lower.
New nuclear power plant and relatively large wind farms being completed should help us being energy independent, but next winter will be horrible for energy prices for sure. Geothermal heated homes won’t be influenced too heavily though.

As a Finn I need an urge to correct few mistakes made in video and what wasn't taken in account. We used to import a lot of electricity from Russia before the war, where it was produced mostly by hydroelectric power plants owned by Finnish companies. Since the war broke out, we have stopped importing electricity from Russia, sold our power plants and moved on to import what we need from Sweden and Norway, where most of the electricity in produced also by hydroelectric power plants, in Norway like 99% is hydroelectric.
We never used to rely too much on natural gas, it is imported here mostly for the needs of heavy industry, and only about 4%(2021) of our electricity comes directly from natural gas and in total energy consumption it has less than 6%(2020) stake. And we are hopefully getting new nuclear power plant (Olkiluoto 3) online during 2022, which will be one of the most powerful, if not the most powerful in the world, which will make us more or less self-sufficient in electricity production. At peak consumption we still need to import some, but that is usually just a week or two during the winter, that is coming. Also unlike anyone else, we have the means of long time disposal/storage of nuclear waste in Onkalo, which is also conveniently located under Olkiluoto nuclear power plants.

Simple diy... 55 gallon barrel of sand in basement of house. Mixed into sand is heating element. heat the sand with pv during day. Let barrel cool down over night. Doesn't really help in places like Finland where they have 6 week long nights in winter... Much cheaper to operate than trying to run electric heat off of batteries though.

The same idea used in clay pots over a candle to put out radiant heat, except you have much more mass. I believe there is a coefficient number that is associated the amount of heat certain substances a can radiate. Moisture also makes a difference. We can also heat the sand using, solar, circulating water or eutectic salts, or heat by wood or other vegetation. A great idea to substitute different means of storage, rather than getting stuck on chemical reactions.

This system would also would work using air (from a greenhouse) thru flexible 4" pipe or water thru 1' Pex using evacuated solar tubes. If the tank /container was super insulated, heat created and stored in the summer could provide heat for the fall and early winter.

Great video! I remember being fascinated, as a child, by the way sand retains heat, it was something that I had definitely noticed, because I lived adjacent to a sandy seashore. I think these sand batteries are an amazing adaptation of a natural resource to store energy. The batteries could also have cladding to enhance their retention of energy.

Those who died in Texas energy grid collapse died of family neglect I was there & have been thru many hurricanes & snowy/icy winters. The storm highlighted the weakness in our culture of people having no survival skills or preparations.

We need this scaled to heat individual homes in areas without district heating,but it would have to be only with a huge sand silo,which probably rules out most suburban homes. Maybe bury the heavily insulated silo when building new homes? Generate the heat from solar/wind,with resistance wire in the sand,and you can store heat for cold winter days. Then again,for detached housing,forget it and install geothermal heating/cooling.

I'm so glad you got around to covering this. I mentioned it a few months back. After I saw coverage from Finland and I was just in love with the concept of how simple and cohesive it is to our current environment. I just love inventions like that. Also, not every method and idea is ment to work for "every option" but it will be Really good at what's it's good at. So it's totally worth it if you interconnect it to your city planning system properly.

Sand heat storage is a proven component in passive solar home heating. Large reservoirs of sand absorb southern exposure sun during the day and radiate slowly at night. Not an electrical solution, but it exploits the same thermal mass quality of sand.

Using sand as a large scale heat sink is both a simple and a grand idea. The solution to many problems is sometimes found right in front of us, and in this case, under our feet. Well done!

I am going to build a home. I own land in West Texas. Something that can be done relatively cheaply is Geothermal. And once it is installed, it can be almost free to run. This version will cost literally pennies per week to operate. Pumping water about 10 feet underground and bringing it back at about 55 degrees, year around can be a true game changer. Of course there is more to it than that but that is the basic idea. I would love to discuss it with you.

This tech is amazing. If that would be put on an output of a heat pump it would collect heat when its 40 deg c outside and release it when it's -20. To make it efficient when small it could be buried underground. Add to that excess energy from pvs and off grid house would be possible even in Finland.

Soapstone is particularly good at holding and slowly releasing thermal energy. Soapstone is essentially super compressed talc. I don't know the prices per metric ton, but it is fairly cheap--maybe not for giant, industrial use like this, but certainly could be applied to home use. Just need a way to really compress the talc, and get out as much of the air as possible (and get the particles as close to each other as possible).

This tech is beneficial to all places. The heat from the sand can heat water that can be pumped into homes and buildings. Hot water is nice to have even in Southern California.
Fun fact: heat is normally what makes something inefficient but resistive heating is 100% efficient because the goal is to create heat.

I really hope this and other innovative energy savers come to fruition on personal and industrial scale. I see guys on TH-cam testing how hot they can get sand but they are very basic experiments and most don't show them attempting to draw the heat for increasing air temperature of rooms or a house.
Many aspects appear to be undetermined, such as how truly effective these techniques are in various setups. There are many possible areas where efficiency might be greatly impacted such as insulation of the sand, method of heating, method of drawing heat, air circulation in the target rooms, and circulation of the target rooms.

I like the idea of each house having its own Sand Battery silo. Feed heat or electricity into it when things are working well, and heat (and perhaps a small amount of electricity) is available during a crisis. The idea needs to be developed a bit further, but I think the Proof of Concept town shows we're well on the way. I'm thinking this could have use in a large O'Neil Cylinder space station.

Lifetime is at least 50 years. =) There is nothing to wear out inside, a fan can be replaced outside of a storage.

Just raise the glass pane above standard solar panels a couple inches, by increasing the solar panel's frame width. In this way, one not only generates electricity from the sun, but also captures the black body radiation emitted from those black solar cells. The hot air can then be circulated through an aggregate thermal mass using a fan powered by a fraction of the electricity generated.

Just came across "sand batteries" and "water batteries" today. This can truly be a game changer but the info I've seen on youtube or from companies scratching the surface, is either very crude or not the best use of the tech. So many ideas just hit from discovering this. Super cool. Ancient Egyptians just may have had something going on with those pyramids and all that sand ;)

I've had this idea for a while, only I would dig down. How much energy could you store in one cubic KM of earth? You could use wind and solar energy to heat one area and pump winter cold into another. You would have a vast potential difference.

Thanks for this video - love it. Scandinavia seems to be on the cutting edge of reason, with great exploration of global game changing yet simple technology- without the bastardized, lobbyist-polluted political dynamics that we see in the US.

Building these into homes might be a good use. In Finland for half the year the most common use of power is to produce heat. So producing electricity, storing it as heat in the sand, transforming it back to electricity to send to homes where it will be transferred back to heat is more attenuation than the system needs to have. Instead produce the electricity, send it to a sand battery in the home where it can later be released as either electricity or directly as heat.

The biggest biggest problem that most homes aren't insulate super well. I help someone insulate there walls R-63, ceiling trust R-100 and roof trust R-100 with radiate barrier and super super high efficient foam and windows. They reduce there cooling and heating cost by almost 100%. In the summer time the only time they run there AC when it reaches 120F outside. In the winter time they run there gas heater for 3-5 mins and keeps the home warm for 7-10 days.

You're incorrect about TX. MOST of the pipes that broke, broke at OUTSIDE water sources like external hot water tanks and ordinary water spigots with shutoff valves flush with the outside. This is where the vast majority of the pipes broke.
These alternative heat sources may help in these rare events, but if they wouldn't invest in ANY winterization of their wind turbines, why would they invest in this?

Best thing about this? Uses only existing tech, plus the sand is RECYCLED building sand, they can use whatever quality. Any location with district-level heating should build this - heat it up while electricity is cheap or use waste heat from whatever source, distribute it in standalone or hybrid mode when there is demand.

Hahahaha…the impeccable comedic timing of the Star Wars prequel clip alone deserves a thumbs up.

The problem with this system is that most solids don't keep exuding enough heat to be viable power generation sources. No matter how big the building, the power required to heat up the solid is far more than any energy you would get out.

It seems like the silos could also be made to heat themselves via passive solar. If they had a “greenhouse” sleeve with a 2” gap around the east, south and west sides and insulation on the north side, the silo would be heating from outside in as well as inside out from the excess PV/wind.
Great job, excellent overview.

It’s obvious this technology has great potential, I’m left curious if the cost of extracting this ‘sand heat’ and delivering the same can outweigh comparative total energy cost? Hey; bought the ‘Fannttix X8 Portable Air Compressor’ to help maintain my RV and Jeep, when traveling. Your discount code was a great saving. Thank you.

I come from a former Soviet occupied country. We have an old stove, produced in Russia, that stores electricity as heat with the help of special bricks that retain heat. You put it up for a few hours at night and then turn it off during the day and you heat this way your home for the next day.

Smaller sand batteries for individual homes could be place at the center of compost piles and this would keep it hot needing only to replace the compost in early autumn using grass clippings and fallen leaves.

What about heating the sand using off-peak electricity in a home that incorporates a floor heating system? Circulate the water for the floor heating system through the sand. Use resistance heating to heat the sand directly. Switch off the electric during peak hours and relay on built up heat in the sand to heat the water.

Like to see a sand vs water for storage. Asking because water barrels are popular for storing heat in greenhouses.

Now, we will have a new meaning for the phrase "pound sand"!!!

The sand battery is a great idea and could be incorporated into heating and cooling, water heaters, heat pumps...
In the winter instead of using the coil from your air source heat pump, the heat pump could use your ground coil where you have been pumping heat in all summer and become much more efficient. This would require smarter heat pumps that know which coil to use. Radiant heat such as boilers could incorporate radiators filled with sand that keep Heating after the boiler has stopped. Excess energy from solar could be pumped into the ground to heat the sand so you can use it to heat your house.
This brings into play one of your other their videos with the smart panel. It can also be accomplished with smarter inverters that distribute the extra power to heat the sand.
Great video as usual. Keep up the good work!

It's not a "conflict" in Ukraine - how you mentioned in video, it's - Russian war invasion into Ukraines borders. Naming things correctly - it's a good tone rule, at least.

Any ideas for an efficient way to convert the stored heat energy into electricity (turbines/etc)? If that could be solved, maybe sand batteries would be a viable grid-scale storage system anywhere that has a significant percentage of intermittent renewables (wind/solar).

As a scientist told me recently we have the cleanest environment in history. The fossil record says so he said. He said if this is true then why is is it getting hotter? He told me, much like a magnifying glass used to start a fire it only makes heat if the glass is clean . He said basically our atmosphere is too clean . I believe him.

What happened in Texas wasn't just because of high demand due to the extended freeze.
Many power plants service their plants during the winter months because the typical winter demand is much lower. So, some power generation was offline.
Their was also the complication that power plants were not designed for a prolonged freeze cycle and because of the typically mild winters, especially in the central and southern portions of the state, they failed or were incapable of full production.
The state is still trying to get a handle on all the inadequacies of the grid and making the needed repairs and upgrades so the grid does not collapse again if another prolonged freeze occurs.

Random comment for channel interaction.

I love this channel and a lot of it's content. That being said I need to point out that this idea for heat storage is certainly not new. In the 70's there were Popular Electronics Magazine and Modular Home articles that discussed how people were using an ancient gravel and sand heat storage. In these articles the sand or gravel was built into or below the foundation of a home. The heat was stored by hot water solar, electric, or even hot air. Heat removal was air or water. I you are going solar, it is a great idea, because heating your home is a huge load on real battery storage. In fact , I am a little perplexed as to why they would call it a Battery at all, possibly a sales gimmick. Storing this above ground is a waste of space and makes the concept less efficient due to losses to the atmosphere. Except for the plumbing, there is no reason that this would ever wear out. To compare it to Tesla batteries and claim a longer lifespan leads me to believe the company is implying a maintenance plan. For all intent and purpose this is a near surface heat pump system, not a Battery at all, unless you consider what this company is trying to do to your pocket book. I see this as a cheap marketing ploy and quite possibly a scam. I am sorry, while I am not going to Dislike this video, I can't Like it, and I can't believe you were taken in by this. Though the idea may be useful to already built structures, there is no reason for it to take up space above ground, is absolutely not a new idea, and is not a Battery.

Decades ago I saw a show about an architect in the mountains in Denver who used evacuated tube solar collectors to heat a glass mansion and dump the remaining energy into a year round outdoor hot tub.
I want to build an ICF house with in floor heat then build an out building shop with the south facing wall covered in evacuated tube solar collectors.
Pump water through them and into a reservoir in the garage. From there it can be distributed to the house, slab in the garage, heated driveway and sidewalk, water heater etc. On demand.
ICF homes have high insulation value, sealed external envelope, and extremely high thermal mass so even if you go a period without significant sun it takes over 2.5 weeks to induce a significant temperature fluctuation in the house.
Could heat the entire house in -40F weather for just the electricity required to run a pump periodically.

ONE of the best and cheapest energy is to use sulfuric acid reacting with plain water. This can make heat over and over again. Old school is way better than new school, PERIOD.

Pretty similar to phase change materials but likely a lot cheaper.

For this, probably desert sand is also fine. Unfortunatelly in the desert no heat storage needed. Maybe combined with stirling motors, or turbines....

In Europe there is a massive shortage of gas, the price is sky high, anything which would help in the winter is a good idea. I think calling sand a battery is a poor idea. Most people think of electricity - this is more a "night storage heater" which were popular in the UK 20 years ago. They were radiators with bricks in which you heated up at night on low price electricity and that kept your home warm during the day. The downside was by the evening they had often run out of heat.

I live in cold climate New England and heat 80% and 95% of my hot water using vacuum tube type hot water solar panel. I have hot water passing Thur 2 ft deep sand bed under house slab (hydronic system) . Summer, I heat the pool along with hot water tank. The reason I don’t add more solar collectors and provide 100% of heat is that many days during winter I would make house tow warm. I have minisplit that backs up this system in very cold days.

I'd be interested to see a domestic version of this using solar/wind or just cheap-rate electricity. Maybe replacing the hot water tank to provide hot water and central heating systems. Perhaps even a thermoelectric system off the back of this too.

Question, what kind of sand does this take? Is the rough course sand is used in construction and concrete or the fine and smooth sand from oceans and African deserts?
If it’s the latter that could help reduce Brine when we desalinate our waters

I found it amazing that you didn’t mention the original sand battery which would be 55 gallon drums painted with a dark paint on the north side of any passive solar dwelling they can be filled with sand or gravel but usually the gravel would have to have the minus component to have a continuous conductive interior. They simply absorb the sun‘s rays during the day and let heat off at night. Even ancient Rome figured out how to build cities giving each house passive solar energy not sure why it’s so tough for us today.

Energy stores = heat capacity x temperature difference. Sand can be stored at perhaps 1700C (though in reality 1000C) = 10x better than water. But water has a 5x better heat capacity. So in reality, this system is only 2x better than a simple water tank. So a 2x bigger water tank will do the same thing, but perhaps much cheaper.

Could you do a hybrid system of geothermal and sand so you use the geothermal to heat the sand up ? Just a thought just imagine large sand batteries close to volcanoes or geothermal events ??

Something I was thinking about is using the sand to store "cold" as in cool the sand with a heat pump powered by solar and use it like that in the summer. Could be a way to get more use out of it in places that actually have seasons😄
(Yes I know cold is a lack of heat energy but that's the best way I can think to explain)

Before I watch your video, I will say storing energy in the sand is a pipe dream. I am 80 YO and I remember the carburetor getting 200 miles per gallon, cold fusion, batteries that last a thousand years. Listening to all of the new energy sources is like listening to a woman say, "I will love you forever." Actually, the hookers in Viet Nam were more honest when they said, "two dolla, I love you long time." of course, long time was maybe 20 minutes. But, for a 20-year-old, 20 minutes is plenty of time.

Pretty sure Texas failed because they were forced to convert to wind power and those specific mills weren’t designed for the cold. They didn’t over strain the system the system was flawed. We need to understand that alternative power is essential but we need to convert over responsibly at a save pace.

Sand is cheap, but the phase change of melting stores a LOT of energy, hence the wax heat storage systems.

The sand battery works as long as you have a means of making excess energy like if the wind blows all the time or the powerplants never run out of coal. It would be better to custom design each of these systems using what works best in the area. Solar heating on individual homes using mirrors and black absorbing water tanks works wonders and there is no heat exchange issue, the hot water goes directly to the walls of the house and return a little cooler and this will last all night but have a week of cloudy days and neither water nor sand would work. Solar will work a little on a cloudy day but not enough to heat your house. A wood burning fireplace could make up the difference because the sun has been growing those old trees for decades and if we don't burn them or make lumber out of them they will rot in the forest and give off methane and Co2 anyway, so it is okay to burn some of it when needed. Reliable power seems to be the root issue, not how to store it. Sand on such a scale sounds great but the heat exchange must travel a long ways through insulated tubing to warm a building, no doubt underground. My father used large volcanic rocks to bask in the sunroom and absorb heat to help keep the house ajoined to it warm in the winter time, the sun was always finding its way to the black rocks and it helped.

While 'breakthrough' is a stretch, this could be a valuable passive heating method for off-grid homesteads, supplemented by a wood stove or other source, and could be a good backup 'survival' heating method for on-grid homes in a grid down situation, as noted in the video.

The energy dome still sounds like the best energy storage solution on the horizon.

I'm getting so sick of technology "reporters" on TH-cam peddling bullshit and then creating click bait titles that are completely orthogonal to reality. Unsubscribed

why can't water be used instead of sand. I thought Water had a better thermal mass than sand. (I could be wrong).

Sand batteries can also heat water, and that is a big deal everywhere, for bathing, laundry, pools and hot tubs, and cleaning, and hot water pipes in the floor is the absolute best way to heat a home. Space heating is almost half of our energy usage in the US, and is important for some industrial processes such as drying food, drying building materials such as wood and bricks, and also keeping green houses at the best temperature for food production. Also if thermoelectric generators (TEG) can be improved, sand batteries may even work for generating electricity.

1 Heat pumps are not efficient at low temperatures, and what is the power plant burning to make electricity?
2 trees are a carbon battery, virtually all the carbon in plants, trees, come from the hated CO2.
3 Sand is cheap and will, like any other massive object, store large amounts of heat. Retaining said heat is a challenge.
4 direct solar heat is more efficient than electrically produced heat. The rub comes when you need solar heat it's cold and days are short.
5 surplus electrical power can be stored locally by heating water, again, insulation is critical.
6 I wish the sand battery experiment the best of success, I hope we find it to have fulfilled expectations and bless those with the much needed heat.
7 very nicely produced program, you are easy to listen to.

Great video

The sand is an energy store it is not a battery. It is the same as calling hydropower Station a water battery!! Nonsensical terminology..

Rather than sand, or any other passive mass, You need to pick a phase change material that operates within the heat range of your storage system. Something like tin for example. A phase change stores much more heat as latent heat. The beauty of using a phase change is you have more heat that can be stored, and by choosing a phase change at a useful temperature you enhance how much heat you can get back out. This is the problem with sand or other thermal mass, the cooler it gets the harder it is to get more of the power out.
If you use a medium like water, it is possible to move the heat around. The steam boiler is an example of this.
So sand is cheap, but unless you can melt it, you will never store much energy. Something like tin could be melted and in the process store MUCH more energy that is MUCH easier to get back out. Substitute just about any non-toxic material for the tin with similar results. Pick a temperature range you want to operate at, and pick a phase change material that operates in that range. 80 times better than sand.
To bail texas out of snowmageddon would have required every house to have a sand battery twice the size of the house... Or a phase change battery the size of a car... which is more practical or more likely?

Maybe one day we will take a 40 year step backwards and rediscover compressed air as the best energy storage , no chemicals , giant battery piles, or complicated systems.

Here in southern Wisconsin we have a foundry that used to be a filthy black place. Over the years many updates have been installed, I am not even sure they burn coke anymore.They heat the iron to the melting point with electric furnaces. Very seldom are the doors closed even in winter. I wish I could capture the heat from this plant to heat my home. Sounds like a sand battery might be a good option, maybe we could get the lumber producer to capture some from their kilns, even the plastic injection factory could add to a sand battery.

When i walk out my front door there is a sidewalk with the block garage wall running next to it. The sun hits that wall from 2 pm till sunset. After the sun sets and i go out at night, i can feel the wall radiating heat that was captured in the day as i walk down the side walk.

🤗 THANKS RICKY
I’m happy I watched and found out there’s a real world use going on 🤗😁👍… This shows that there are many solutions to the problem depending on the location

The first thing you forget is needing a DISTRICT HEATING / COOLING SYSTEM, which my memory says San Diego, St. Paul, Harrisburg, ... do have Municipal District Heating Systems.
A District Heating System connects a group of buildings by insulated underground piping. The pipes are used for steam supply and return condensate. A central heating plant produces the steam by boilers reheating the condensate.
There have been gas-fired, electric, ... boilers that can heat stored energy as sand, bricks, water, salt, and more.
Empty "dome formations" in Michigan, Ohio, Louisiana, ... are used to "store" natural gas as a buffer for high winter demand, to store compressed air for electric generation by gas turbines, ...
The District Heating System is not common in North America, typically only in large city center for government buildings.

I used to have a home that faced south, and it had a cement porch and a cement surrounded flower bed. on a sunny day, the cement stored heat and released it at night. My flowers would stay warm and grow when others' would freeze.

The heat stored in the sand batteries, if the sand temperatures are high / hot enough, can be turned back into electricity -- by heat transfer to water .... to steam, to drive a steam turbine, you know, the turbine ferry. basically a thermal power plant run not by burning fossil fuel, but using theheat stored in the sand. The thing to explore there would be the proportion of energy loss in the transfers, ergo, the resultant LCOS of the electricity derived. Ricky, I wish you would talk to Tommi and / or Markku at Polar Night Energy and explore this.
Please also discuss the possibility of using Waste Heat Recovery technologies to source the heat energy to heat the sand in the sand batteries.

Also, in place of sand you could also use baked potatoes or Totino's Pizza Rolls !

Thanks for the video it helped me understood everything I was a little puzzled about the sand battery 🔋 when I first heard it🙈

Good idea. Heat = energy, therefore any way you can store heat and find a way to make it reusable is progress.

Hey you have a cock-up with the maths here: the tesla battery lasts 21-35yrs IN A CAR assuming avg. mileage.
Day to day 0-100% charge net's the battery approx. 4.1yrs since it has 1,500 cycles

One thing to be corrected here as Polar Night Energy don't used resistance heaters inside pipe loops instead heat is generated outside of silo and air is circulated in close loop piping to heat up the sand. hope it may support.

I think it's funny that we're now just about finished taking down all the silos from another generation and now we are going to start putting them backup again. 🙂🙃😉

IN the US, only about 30% of glass is recycled, the rest going to landfills. Glass can be crushed and ground back into sand. If repurposed for the sand battery, it could eliminate 5% of the solid waste in landfills. Yes, it would probably cost more than mined sand, but probably a little more friendly to the environment.

Hot rock technology. That's what I always called electric storage heaters. The idea was to heat the blocks when leccy was cheap and release it later. This is pretty much the same but bigger. I think it is valid but niche. I think we must be able to store some heat from the sun and wind during the day to replace or supplement domestic evening and morning heating needs.

This is very old technology that they did not find. Many homes in the north have huge amounts of sand put under them with pipes woven in. Once fall starts coming the start pumping fluid into the sand under the house being heated by solar water heaters. They do this as long as the sun is up. Once winter gets there the amount of heat under the house is huge and helps keep it warm all winter while it still heats when the sun is up.

I have considered the deserts of the world and incredible resource and they are covering up vast cities including ancient power plants etc. we need to carefully extract all the sand from the African desert and enjoy what we find….!
The resources we find would more than pay for reconstruction or even making the cities, human homestead- that we need to move;
into something that floats

This is interesting also because it takes a lot of electricity to power a saltwater desalinization plant to produce water but most of the shorelines well many of them anyways have sand right at the shore which means easy access to the raw material for the battery to power a desalinization plant the desalinization plants need to become smaller scale and have more of them so this would actually assist with that because in large scale they seem harmful to the ocean environment. sand doesn't pollute.

50 years later... "The world deserts are running out of sand, children everywhere collect grains of sand from riverbeds to feed their families..."

You missed part of the problem for the Texas freeze out. Alternative energy (windmill and solar) went off line. With conventional energy generation failure resulting from extreme conditions, there was a insufficient amount of conventional generation available

This is pretty old tech. My great grandparents use to do something similar back in 1900. They would put rocks in front of the fireplace, then stuff them in socks and put them by their feet in bed. Kept them toasty all night.