1607 A DIY Sand Battery

To me, rocket stoves were made to be used with mass heaters. Run the exhaust through a thermal mass. Sand, dirt, bricks, clay whatever.
The heat coming out of the chimney is very little.
Letting the heat go straight up the chimney is a total waist of fuel.
Paul Wheaton has been on the forefront of rocket stove mass heaters for decades. His results for reducing fuel used is impressive.
And the time to burn is minutes instead of constantly burning all day as with conventional wood stoves.

Thank you. I'd been reading about these in the news recently. Your enthusiasm and humour when presenting your videos always gives me a lift. Please don't ever stop.

In Germany and Scandinavia it's common to have a wood burning stove surrounded by a lot of masonry as a heat store.

Seeing you heat that water so fast has inspired me to replicate this immediately.
Really love your work Rob. Your delivery is why people love you. Thankyou very much!!

I love it Rob!! I've thought about making a sand layer with a steel jacket around my existing wood stove just to remove hotspots, (I have clumsy oblivious dogs 🐕 🤣 I had wondered about the thermal battery value of it, so this encourages me immensely! Thanks Rob! You're one of the greats!

Thanks Rob. I was wondering if we would see this one. Excellent execution as always. Some days I come to the channel just to you see you get excited about the possibilities. Its infectious and believe me, many in today's world need this optimism and to know you can do this. But as you always say, its about doing. Thank you again.

Here in Michigan there are thousands of old silos on farms no longer in use, imagine filling one with sand and putting solar panels every few feet surrounding them from top to bottom. Have some heat generating resisters in the sand and you have a massive sand battery! I only wish I had one 🤔🤔 Spray foam the inside for insulation, sure seems like this would work.

I love the little Humm uttered as you stated to put the sand in.

Thanks for another great video Robert, this is something I'd definitely like to try myself, it could be used for simple home heating or in some industrial applications where a lot of heat is required for certain manufacturing or chemical processes. Could you do one or two videos that would demonstrate 1. how to heat the sand to 500 degrees using a heat pump and 2. what type of insulation would be appropriate to keep in the heat for as long as possible as they have done in Finland? Edit: I see you have answered the insulation issue in video 1622, you must have read my mind 😁 Thanks a million!!

Back in the day, a couple of centuries ago, rocks were heated by the fire and were put into metal buckets or containers and used to heat certain areas, like under the seats of carriages, in bedrooms, or wherever they were needed. Today, rocks are used for heating tents in camping, and they last a long time. I had started wondering about sand, as I live in Florida, and we don't really have rocks by the beach, just limestone, but that's kind of further inland. We are on shale here. So I started looking up sand as a heat-holder, due to the fact that I didn't really want to buy some rocks, as they are expensive, used mostly for decoration in front yards, or fire pits. I was pleased to find that sand does indeed hold heat extremely well. The sand we have is mixed with organic debris, but it can be cleaned - I have done that a lot in making some homemade fertilizer. Pure white sand is the result. We have power outages here once in awhile, but being in Florida, heat is not too much of concern, as our temps stay pretty moderate most of the year. We don't see freezing too often. Daytimes can hang around 50 or so in the winter. But putting a bucket of hot sand from a fire pit in the yard under my chair could be a warm welcome if the electric goes out in the wintertime.

Clam bake! Gotta love the old tech. Loads of potential as new tech. Good work Sir.

Great video! I think it would be interesting to find a simple way to utilize the sand in situ with minimal expenses. For example, if you want to install a solar cel array in the desert, dig a hole in the sand, throw some kind of lining and spray insulation, put whatever is needed in the hole, like pipes for medium circulation, push the sand back into the hole, and insulate and cover the top. Of course, what exactly should be used as the lining and insulation is for another debate, maybe just polyurethane foam and metal plates, or concrete, but in any case, if it would work, it would make possible to transform Sahara into a giant battery in no time, and would also have near zero impact on the environment. In fact, if you put dunes back in place carefully, none would be the wiser LOL.

Thank you for this! And all the videos!!!!

I live in Alaska and heat the main living space with a home-built woodstove. It's a horribly inefficient design (basically an old propane tank with 3-inch pipe for a chimney) that sends most of the heat straight up the pipe and out. Now you've got me thinking.

Paul, I've been watching your channel for a short time, I love the content.
In regards to the sand battery idea, I'm thinking about using a magnetic induction coil to heat the sand a bit quicker. I'm just a thinker on many subjects and certainly no scientists. I would love to see the possibilities for this idea though. Great show and quite addictive 👌

this is the channel for me.. so many interesting innovations.. thank you very much master

I can see this simple thermal store being ideal for narrow boat as a flue to outside is simple to achieve and they can get very cold during the night, the weight wouldn’t be an issue either being fixed and could form part of the ballast. Add a couple of peltiers in the right places and you’ll get a bit of continuous power. Now I just need a narrow boat 😆

thanks for this. I was going to put a smaller canner full of sand on the wood stove but maybe a chunk of concrete will work just as well, less mess and adjustable since there are a few of them around here. Should be able to let the fire go out at night.

This got me thinking to load up a couple of large tins with the fine New Mexico dune sand where I live, and placing on my wood stove when I use it. Tins would store the energy just like this battery.

I love what you made there. It would be most interesting if you filled the bottle as you did, BUT put a stainless coil inside to draw out the heat with water as needed.

something similar with copper coils inside and a fan to force air as a way to distribute the heat further away as into the interior of a house or another room would also be interesting.

Awesome 👏

Well done Rob I like the design, I used granite stone chippings but I like this solution as it's all nicely contained, my only concern is the potential to melt the firebox as sand is also an incredible insulation and mine glows bright yellow when it's been running for a while. Spalling may also be an issue so check inside occasionally for the metal flaking off but the thickness off pipe you're using you shouldn't have an issue.

Awesome! Very informative. 😊

You just gave me a great idea. Thanks again Professor.
I have big dirt and rock berms on my land, mostly clay. (I have a lot of very dense basalt rock on my land. The clay relatively fresh volcanic ash, with not much else) The rock is so dense, you have a hard time breaking it w/ hammer and chisel. I am a Mason as well, so I know what hard is.
Rocket stove, still heating water heating, w/ pipes coiled in the berms. I can add sand where I excavate for the water line. I will also coil the lines under my floor and run a small circulating pump when there is no thermosyphon. I live off grid, and I have to run generators during our really cold winter, so I am gonna capture all the exhaust heat with a heat exchanger, and put it in the system.
Win-win. I always think about all the energy wasted from exhaust heat. Now to figure out how to use the heat to cool as well. I will send you a video.
I wonder if the rock has has a good storage capacity, but I don't have the equipment to find out yet.

Great video...

Cool video, thanks.

This is a nice start. One very interesting thing that the Finnish company is doing is heating the sand electrically and then removing the heat from the outer parts of the sand first. By doing this in a controlled way, they actually can increase the efficiency quite a lot (they claim 2x) because the sand you have cooled becomes a partial insulator for the remaining sand. That approach does, however, mean that larger batteries have a large advantage over smaller ones.

This video is particularly interesting to me because I've been sitting around imagining a "fix" to the battery storage problem that solar panels have (which makes them an intermittent power source at the time--sun goes up, sun goes down kind of issue). I imagined thermal batteries as a solution. I was thinking something awfully expensive like molten metal at over 1000 C, but it's nice to see we can do the same thing by principle with sand or whatever earthy materials we have laying around. Plus, a lot of metals have lower heat capacities than sand. Overall, this video is great. Thanks.

Now their something that I never thought of for holding heat, SAND. I would bet this will hold heat for a good bit of time. Job well done Robert. Peace

I remember reading an article long ago about a cinder block container filled with sand and a fire box was built into it as well as copper water coils throughout the sand. The whole little building was just a box filled with sand and a fire box. The copper tubing ran from the box to the house and then they would build a fire in the box and just crank it up then let the fire die out. It would give in the dead of winter a good two to three days of comfortable heat to the home via a hot water system that also heated up the water for hot water for the home. The heat was not drying heat. During the summer you would not need that heat. When you did need the heat solar would not be viable because the weather was not producing enough electricity. Some days maybe. But if you have wood or some other source of burnable material you can have good heat through out the winter. May need to figure out a good way to do the solar or incorporate solar heat and fire box or some sort of natural gas for those with natural gas.

Hi.
At the end of the video the seagulls were in fact crying, thinking that with the efficiency that you've discovered, the people are going to use all the sand on the beaches they use to relax.
Cheers.

Thanks for that great video

Two points this would be exellent as t tent heater no worries about fire in the middle of the night. I am back in Portugal working on my house and I have noticed that the sandy rock in my area is very high in iron. Night storage heaters are basically fuse iron oxide bricks. So I am going to give this a go with our local sand. Try adding iron oxide cement dye to your sand it may help with the absorption of the heat charge.

Again very nice video Robert! 😁 We actually have found out that this doesn't work so well if you burn something because of the losses in exhaust. When you heat with electricity you don't have that problem 😁
How about video where you heat a ton of sand with solar panels? 😁 There you have to find the right resistivity.

great content thank you🙌

Continue your good work.
And,
I agree with my son's assessment of everything you do, "There's nothing dumb about anything that you have ever posted."

great content thanks

Scrap bricks from redundant electric storage heaters are free/very cheap resource for heat storage projects, forges etc. Often find them 'fly-tipped'! (Love these vids from R M-S)

You are awesome!

Awesome! 🎉

The indigenous peoples of New-Zealand would dig a large hole and line it with stones with a stone layer at the bottom. They would light a fire to keep warm at night then as the fire went out they would put food for the tribe in the cooling pit and cover it with dirt and let the food cook for a few days.

Seeing those big silos in finland holding loads of sand is obviously very expensive but I thought of a much cheaper way to do it, just dig a hole in your garden, say 1 mtr square and 2-3 MTs deep. Use thermal insulated blocks on the outside and fill it with sand and the exhaust of a rocket stove, up and down a couple times then out and then either pipes for water or ducting for air. Water or air goes down cool and comes up warm/hot, put an insulated lid on top and that amount of sand will hold alot of heat for a long time at not a huge price. Charge it over a few hours like a huge storage heater but the heat should last a long time, days I reckon

Fantastic!

Awesome! Thanks so much for making this video! …. So after 3.5 hours, it had cooled down completely to ambient? You didn’t mention the temp reading at the end of the video. Thanks !! Deeply appreciate you sharing your curiosity, exploration and industriousness!

As an Aussie I reckon we should be using iron ore rather than sand. We have that stuff just laying around everywhere and it has about twice the density of crappy old desert sand. I should think that it would have a fairly high heat transfer rate as well.

4.6 kWh is about enough to keep one medium size room warm for one hour in the winter. The temperature starts off nice but then gets cooler with time. You need to put it in a box with flaps or something to control the release of the heat.

So, an oil drum , 200liter of sand. Copper coil. Good amount of insulation around the drum. Heating element of a water heater at the bottom. Smart plug that dumps my extra solar power during the day into the sand. I could send water trough the copper pipe and into a radiator with fan, heating up the room long after the sun has gone down.

Ive always looked towards sodium acetate or "hot ice" because you can use it has a thermal battery that can hold the latent heat for days until you need it

I'd love to see you hook up a sterling engine and electric generator to this thermal battery. Then see how long you can run an LED that's bright enough to light a small room.

Add an air jacket around the sand mass and a Peltier fan to draw air past sand and have an efficient room heater if the wood is kept in the heater

Hi Rob, that was really interesting. One question if I may……you said it took about an hour’s burn followed by 3.5hrs of useful heat……how long did it take before the stove gave off any useful heat? In other words did the sand itself soak up all the heat in the first hour?. Thanks 👍

Good job sir love from India

Would you compare sand as thermal storage with lead transition from solid to liquid and back?

Hi Robert, enjoyed this video and the subject, while contemplating making a storage device like this I wondered if granular table salt would work in this application 🤔, it's cheap and readily available, my other option would be pilfering the white bunker sand at my local golf course 👀, maybe someone would know the thermal retention of table salt?

Rocket Mass Heaters are very good. I've been building them for some time. I must say though, DO NOT use the heat riser area for heat transfer. This will reduce combustion efficiency by quite a lot. Let the fire finish before using the heat.

Hi Robert, nice videos about sand batteries. Any chance you can record another one showing characteristics of a sand batteries and it's capacity to store heat on a long run(days, weeks, months)?

As a Norwegian, just love your comment on Swedish stove (kakkeloven), and you love those crazy Finns......
anyway, fantastic videos,

Can you combine this with solar panels and electrical heating? Im sure a lot of us would want to see the first low cost diy home build solar sandbattery

Can you talk about dangers of temperatures above 1000F and how it destroys ozone layer?.

Does black sand, preform similar?
Magnetite etc? For use say in a solar heated version for hot water heating?

The Sand Battery reminds me at Off-Peak Storage Heater which became popular in the end of 60ies. Instead of Sand was to bricks pressed rust. Unfortunately I don't know how high was the temperature inside. It's been working very well. So the idea is not new - it's now a matter of construction for longe time heat storage (only...).

It seems like the most practical use for this is an oven. There isn't really any loss in efficiency over a heat pump or battery storage since the only way to heat up an oven is either gas or resistance elements because of the high temperature. Using a fresnel lens to heat up the sand rather than a solar panel and resistance element would mean you'd be capturing and storing solar energy as heat at close to 100% efficiency. Then the oven it will be warm or ready to warm your oven whenever you need it. You could also slap a TEC to the sand and another to the back of the oven, so electricity is generated as the oven cools down and generates electricity from the sand if there is ever an excess of heat. So you could in theory have an oven that gets all its energy from sunlight and would generate electricity as the oven cools down or there is an abundance of solar thermal energy. With all except the electricity generation operating at near 100% efficiency. Even the TECs could operate at their best efficiency due ro rhe high heat and the heat passing from the oven/sand through thr TEC could even be used to heat water for residential use.

A great channel, your keeping my brain very busy.
I watched this and the rocket stove water heater video and I can't help thinking a combination of the two would be helpful. Run water pipes through the sand bank and add an oil drum cap and chimney to gather the wasted heat.
That would hopefully have the effect of gathering heat for hot water for along time after the fire has gone out. Rocket stove mass heaters are great but as its illegal to fit one in your house(in the UK) an efficient water heater outside might be more use to alot more people.
What do you think. Would the 100c temperature cap on the water drain the sand batterys usefulness too quickly?
Thanks again for the excellent channel!

How long do you think this would heat water for if you added a coil of copper tubing into the sand. Then pumped the water round attaching it to radiators. If you got the water moving fast enough so it will not boil of course.

It would be interesting to see how long a coil of steel pipe would produce hot water for in the sand battery. Steel would be structurally better than copper or aluminium as it has a higher melting point. One should get a lot of hot water/low pressure steam out of the device for a long time which could be fed into a radiator of some kind for heating. I would imagine that with the hot water recirculating back into the battery would extend the cooling off time.

isnt it possible to take distilled water to a higher temp in a microwave? i remember it would explode yeah?

They work well, I want to build or buy one for my house!

I often hear the comment that concrete is one of the highest contributors to GHG via CO2 emissions during production. Not as well known is that it has been shown that over the lifetime of that same concrete, the same if not more CO2 has been sequestered by it.

Hi Robert. Thank you for the great video. What do you think are the possible ways to store summer heat in sand and use it in winter. Do we need solar collectors with oil as the heat transfer material or are there better ways to collect heat from the building itself maybe from the inside of buildings and storing it in sand

1990 was the first time I heard of a sand-battery at a Dennis Lee presentation. He learned of the concept from Steel Mills. You can find him on You Tube.

Great videos!
I wonder if there are good DIY sand battery heaters using (multiple) PTC heating elements to heat up a room or at least to cheaply pre heat a room?

Hi, another great video 👍. Id love to see some experimenting to determine an appropriate size to suit a domestic home. You also mentioned in your previous video about uses for cooling, excuse my ignorance but how would that work?

I'm curious how much heat salt will hold and if it will hold it as long as the sand does or longer.

It is like a steampunk version of the masonry stove or Kachelofen which have been around for about 500 years.

Thank you But How can we extract the heat and use it for other purposes???

How does this compare to the molten salt heat storage used in large scale solar thermal systems?

Could you also then add a removable coiled copper pipe around it with water in and out valves as before for also boiling water for such a thing as a hot tub, bath etc?

We have a lot of old concrete from our crumbling infrastructure that we could recycle into heat batteries (as one of the ways to reuse this old concrete.).

I also learned that through convection that was created from sound waves that you could create heat. Could you transport the heat generated by this convection and store it into portable sand batteries?

So if I filled the reflecting box for my methanol heater with sand it will keep pumping out heat long after its ran out of fuel

Ur reading my mind again....

Nice, still waiting for the stirling though
It could potentially be a good pair with this too

How long can you get heat for w the sand battery?
Ideally someone is probably thinking of comparing this to how much warmth they can buy before going to sleep at night with it heating their room. I doubt it would last a full 8 hours?

Looking for more to see more... can from this sand battery instead of heating getting Kw?

Just watched Matt Ferrell’s video about latest applications of graphene and I started wondering if maybe adding a little graphene powder to the sand might improve heat distribution in the sand.

"Patently not" an invention? Punning again, Rob! Good video. Maybe one of your magnesium or zinc salt cements?

Here is my first question. Could you draw heat from antifreeze and store that heat inside a sand battery? I thought about using antifreeze inside small pipes on the back of a solar panel and transporting the heat from the antifreeze into a set of portable sand batteries.

I had contaminated oil in my skid loader last month so l boiled off the water in an old fry cooker and dumped the clean oil into a 5 gallon bucket. The oil stayed hot for 12 hours easily. It was still very warm the next morning

Hi Rob, this is one of the videos that has stirred my imagination quite a bit. I want to scale this up bit by bit but using solar, could this make an interesting video about a way to plant some form of heat exchanger in the sand, that’s if you are interested in that sort of thing.

Since water would be better at storing energy, I'm curious what is the highest pressure you can put water under in a pressurized vessel to prevent boiling.

I went down the mass heater road and after a lot of trying I decided you are better off just letting the heat enter the room the mass actually insulated and caries the heat out of the system if you are looking for efficiency weather proofing is a much better use of time I do use a pellet rocket stove gravity fed and home made so I know how fun they are I have a water system that heats a radiator no electric needed the burn chamber is 2 inch treaded pipe into a small barrel and out a 4 inch exhaust steam punky simple and super efficient and clean

I know I'm a bit late to this one but I was wondering where the video is that shows how you made this heater.

You can use sodium acetate instead, and take advantage of phase change at 58deg C. Stores few times more energy than water.

My thoughts for an off grid system was a large reservoir of sand or crushed rock with a solar concentrator system. Using air instead of oil to transport the heat to the reservoir would cut down on breakdown of the oil and pump issues such as clogging. Then use a sterling engine as a generator for electricity and the reservoir also as a way to heat the house at the same time. Have yet to purchase the land for it but a work in progress. Your thoughts?

me just visualizing, those quickconnectors plumbed with an embedded spiral for extracting hot water, and fins on the burn chamber if that would speed up the heat transfer,
i read indeed about secondairy air intake for afterburning
it is a pitty that gravity is comes heavy with these

Ok if I had 2 fire extinguishers for example joined together. 1 has a heating element which is connected to a wind turbine or solar power to provide power to the element. The other is full of sand. The heat transfers to the sand. How would you then pump heat out in to my home? Is this doable? Or am I thinking BS. Thinking of an alternative to a wood burner?

Robert ... I've been thinking about this approach for a while !. I've got 1800kW of PV power every year in summer that I just can't use and would love to "store". I know one of sands attributes is it's stupidly high temperature ability, but with the only realistic way for me to recover the stored energy being via water, I'm wondering how working at (storing at) under 100 degC might negatively affect the system. I'm also having difficulty working out the quantity of sand required, given vastly different "specific heat" (and other) figures appearing on the web. Thoughts truly welcome !! Cheers !

I wonder what would happen if you had a copper coil in there, but ran the copper coil through the sand. The sandwich would be a heat buffer, the water is easier to move and use.

Hello Robert..is it the sand or the air trapped in between the sand that stores energy?..would compacting the sand improve efficiency?..if so,why not use rock?