1604 The Sand Battery - A DIY Option Or Not? 

@marthale7 I'm lucky to live in a area where there are natural quartz sand Deposits. After building a few promising prototypes i want to move to magnetite sand instead. My current setup: Two 120 Watt / 26 volt solar panels in series connected. A metal paint bucked around 20 liters. I use aerogel glass-fiber insulation on the inside of the bucket. ( 12 mm Double layer ) Homemade heater coil with NiCh wire.( 16 Ohms ) on the bottom. Filled the space with sand. On top of the sand i placed a thick round aluminium disk ( to cook on ) with thick aluminium bars connected to it going into the sand to transfer the heat. The outside of the bucked is then wrapt with extra rock-wool insulation. Not sure about induction cookers, not tested this. Don't you need a relative big battery bank an a pure sine wave inverter for this? One day i make a "you"tube vid about this project.

@@RogerJonker I bought some variable speed controllers, one which operated my immersion heater from electric via my solar inverter and the other controller was for my small electric over to reduce its voltage and therefore consumption. Think RMS did a video on improving such a small oven, cannot remember what he did though other than insulating it. Best wishes.

Yes please make a video im very interested to about your setup and in Winter it's a great heater too?

@marthale7 Sorry, i can not place a direct link. My first two replays where removed by YT. There are a few web shops that sell this blanked where i live in Holland. Shame this stuff is sooo expensive and a real pain to work with. With the current energy prices its paying back very soon tho🙂 Yes, magnetite has a high heat capacity and i hope to bridge a few dark solar days with it.

@@CUBETechie Have a look at my channel. I just uploaded a video i made earlier where i cook my dinner directly on solar ( no heat storage ) Soon i show my heat battery setup and how it's constructed.

It’s all trying to mimick building into the side of a mountain with diy stoves where the surrounding stone holds the heat.

please make a video this sounds really intresting

we used to call those clamps - cheers mate

I bet you did. Did you know that zeolite holds heat longer than sand?

@@earthmike532Cost comparison of Zeolite vs sand?

@@ronson-natsarim good question. Zeolite is volcanic rock. It's an amendment that farmers put down, so it's not astronomical but I'm sure it's more finite than desert sand (the best sand for this project price wise because construction sand is more costly and more finite and works the same). When something lasts forever and functions a large percentile better, then the cost effectiveness is year after year so I'm sure it's a good idea. I was thinking 50/50 sand/zeolite would be the best.

Progress in 2022: toxic building materials prone to mold.

I had a Tarm wood gasification boiler about 20 years ago now in a house I don't live in anymore. But I built a 700 gallon thermal mass water tank outside with R60 insulation to keep the water out of a finished basement. It worked very well in New Hampshire where we get temperatures as low as -30f. I could shut down the boiler in the spring and fire it once in the summer to get all my domestic hot water. I have plans to do something similar at my current home as an opportunity load for solar panels I just haven't gotten to it yet. Too many projects. I would recommend looking into the plastic float valve used in energy free cattle waterers to keep the tank full. The hot water destroyed the shutoff valve in my old tank with minimal buildup and crossion. But the plastic floats don't have any trouble in a very similar environment in my cattle waterer.

please do mate I would be fascinated and I am looking forward tot he bike competition entry

What are you using to stop phase separation of the Sodium Acetate Trihydrate when it's supercooled? What about the method of kick-starting the nucleation of crystallisation?

We have had thermal storage for centuries minutes in the southwestern deserts. 3 foot thick walls on adobe houses. : ). And it uses the desert "sand" which technically clay.

My house has 2ft thick stone walls over three floor plus attic. It takes quite a few weeks after summer to loose its store until the wood burner is needed. I will complete my long awaited external insulation this year along with a Trombe Wall, im determined. Hopefully this will drastically diminish my 12-14m3 of fire wood, perhaps to less than half or more. Solar heats my water and provides electricity, the wood provides hot water and central heating and cooking in the winter. Wrapping in part your uk brick homes in glass is perhaps an easy and relatively cheap option considering total life cycle costs and much better than vast amounts of cellular plastics...but you'd have to send the local planning dept packing first. Best wishes.

interesting - thanks for sharing mate

You normally need a pretty massive well insulated store if you want to make it interseasonable. Earlier today I worked out that if you wanted to draw 1kW for four months over winter you need something like 32 tons of water heated to 90C. And many houses need much more than 1kW to stay warm

@@ColinWatters If you are interested in using water as an interseasonal thermal storage, you might check out Thorsten Chlupp's talks on the REINA, LLC RU-vid channel (they are long, but worth the time, I think). Thorsten built at least 2 houses and one public building (a library) in the Fairbanks, Alaska area, all of which used large volume water tanks (~5000 US gallons) and trickle down solar water heating panels in conjunction with a small variable speed solar cell powered pump (and very good insulation, of course). Even at that high latitude and in such a cold climate, in his own house he only burned about 1 cord (128 cubic feet, or about 3.6 cubic meters) of split and stacked fire wood (probably mostly spruce, being somewhat familiar with boreal forests, as I am), burned in a thermal mass heater during the coldest part of the year, as an auxiliary heat source. He also obtained direct solar gain via south facing windows shining on a floor slab. Unless you are at a similarly high latitude, or in an area which is extremely cloudy during the prime heating season months, you might find the same - that is, you may not need as much water as you think, _IF_ you are able to add thermal energy to your store over the course of the heating season. In particular, Thorsten developed a simple and cheap automatic mechanism which releases the heated water at the appropriate level within the stratified storage tank, based only on buoyant forces. His domestic water heating coil was immersed in the storage tank, but his heating loop pulled directly from the heated water in the tank. The last I heard, Thorsten was no longer actively involved with Reina, but had moved to Bhutan (?) to work on affordable housing with an NGO. The "Chinese greenhouses" which use a large volume of earth as the thermal store rely on phase change to transfer thermal energy to the ground, at least in some embodiments: a low speed blower circulates warm moist air from the upper reaches of the glazed volume through perforated drain tile laid several feet or a couple of meters underground (often more than one layer of drain tile); as the air cools, the humidity condenses, with the condensate draining through the perforated tile into the soil; the cooled, dried air is returned to the glazed volume to "lather-rinse-repeat". Many of the Chinese greenhouses actually located in China also use phase change through sorption mechanics of the clay constituents of the soil block north walls and end walls, though the process is entirely passive.

@@ColinWatters yup, the bigger the better for sure. I've been looking into using a bank of evacuated tubes with solar heated pipes with parabolic mirrors to keep an insulated sand battery wall topped up on sunny winter days.

On you tube you can find it : Chinese solar passive greenhouse

Hi there, what sort of materials did you fine ?

solar panels ?nah. Simply insulate the upper part. Reflect radiant sunlight onto the exposed lower sections using concave mirrors and use thck fresnel glass panes(lighthouse glass)to line this exposed area. Glasiers produce window panes of the fresnel type for pub windows. These capture ambient light and redirect it into a horizontal beam just as lighthouses do.

Hmm, interesting. A similar effect could be achieved using bi-metal strips or wax-capsule activators to adjust blinds/shutters.

Don't get me wrong mate - I think your system is awesome and any system is incredibly hard to get to commercialisation - most folks don't realise how hard that step actually is - it is a fantastic thing you have done and all credit to you - I don't really know enough about your system but I am also sure there are things you have done and problems you have solved that have defeated others - my sincerest congratulations on your achievement

@@ThinkingandTinkering Thanks! Yes it has been hard and also on field that district heating companies in Finland are very slow to take new technologies to use, of course others than Vatajankoski. :D

@@tommieronen7424 Rock on, Tommi. That'll do for me. ;-) In the UK many large/commercial properties are now built upon the ground up remains of the old brick/concrete buildings (they vibrate/compact it then drive piles through this aggregate). If the finer material was screened out the remainder should be porous enough. Could your system make use of this surplus/debris as a thermal mass?

@@tommieronen7424 love it, can you make it store electricity rather than heat? Or convert the heat to electricity? Would clay work better as they have a higher negative charge content than sand

@@tommieronen7424 or make the sand boil water to turn a steam turbine :)

Tubes of parrafin or carnuba wax inside the water vessel will allow you to take advantage of phase change for a 2-4 + times greater heat storage capacity than water alone.

I don't know the current status but I read a few years ago that a solar farm in the US (AZ or NV?) was gong to use salt to store heat during the day and extract it for power at night.

@@briankeithwood thanks, I'll check it out

We change because... economics. Cost to benefit. When the only way to moderate a home's temperature in the middle of Texas and down into Mexico, they did use the Adobe. Sometimes 4 ft thick clay + grass walls. the walls were hard to heat and hard to cool so the temperature stayed pretty steady in the home. Expensive in labor to build this way... So when cheap air conditioning was invented, that and the common 2X4 stick built house replaced most of the adobe houses. Now, the AC is getting expensive and unreliable... so variant thermal mass is coming back.

It was installed in the first new house my parents bought, it was an expensive nightmare, barely heated two downstairs rooms and cost a fortune to run, and was very noisy, electricair heating as memory serves, made by creda, they were binned in short order by everyone on the estate in favour of what was then cheap to run gas centralheating, was just a huge grey tower about seven feet tall in the kitchen.

It was called economy 7 as I remember

They were cr@p....

@@dudeatx Economy 7 (and Economy 10) are electricity tariffs. Essentially they allow you to draw electricity from the grid during periods of low demand and pay less for it. It’s main use is for household devices with timers, such as washer-dryers. And night storage heaters.

@@hel1copter yeah, I remember in the 80s my mate's dad fitted storage heaters into his new build. The first electricity bill he got he went round the house and turned them all off!

yeah I thought pretty much the same - a bit of an eye opener for me tbh

@@ThinkingandTinkering You`d be better off using soil which is usually available on site :) Transporting tons of sand from UAE would be a lot more expensive

@@ThinkingandTinkering order out of chaos Mr MUrmith? Aka Problem action solution. Mantra of the darling of media. The people’s champion, Mr. K-louse Schwab

While there is some truth to this, there are many more variables to how cold/hot an area gets than just the soil. Some of them are cloud cover (holds in heat radiated towards space), reflectivity of the surface, humidity, and plant life among others. Also, whether in the desert or arctic tundra if you go down 10 to 20 feet or so below ground the temperature will actually stay constant relative to the average monthly temperature of a given area. This is the reason geothermal air conditioning systems can work in just about any climate. So the ground is not actually changing temperature by a ton except on the surface layer.

I think that's a fantastic idea. I'm surprised I haven't heard of a practical application before now. Thank you for sharing this with us.

yes - I am a fan of compressed air

The Amish have been using compressed air for years to run their workshops, air-conditioning and refrigeration. If you are looking for alternative ways of doing things looking at how the Amish do thing's is a very good start.

@@kevinleebailey Thanks, I'll check them out.

That is a neat idea with having a resistive mass. I believe it will not be needed as long as your element can be controlled not to overheat the resistance wire locally. The heat will spread through the mass by conduction, convection and radiation at reasonable speeds even if the element was placed exclusively inside the centre of the mass (to benefit from lower heat losses from the cooler outside). Having the heat at close to melting point for the sand just in the middle would be ideal. Your method would be good to dump a LOT of energy into the sand all at once but that might be a rather unusual requirement unless you has free energy from over speed wind turbines you wanted to store instead of just dump into the atmosphere.

thank you mate

Yep, the temperature excursions are less and you can sometimes select/tune the phase change temperature to suit your project. The beauty of the sand battery is that it is cheap and if you still have energy available you dump it in and ramp up the temperature a bit more at the expense of increases insulation losses while a phase change system does not like more energy close to boiling point. I recall my brother did a science fair project in high school in South Africa in 1983 or 84 with a solar heated molten salt heat storage system. These were discussed in (university) text books at the time so the technology was mature, just not very profitable yet.

also salts, waxes, etc can be fouled or lose their characteristics a bit over time. me personally,I’m still on the hunt for info related to heating element spacing and material, heat recovery piping spacing and recovery regime.

Water can only be heated so far before it becomes steam and requires vastely more space while sand and rock can be heated to near molten temperatures with little thermal expansion.

Just found an article about magnetite being used for heat storage. It has about double the volumetric thermal energy storage capacity of silica!

Jean Pain heater

Use 2 thermal batteries, one hot, one cold. The heat pump could draw the heat out of the cold one and transfer it to the hot one. Then in the summer you can still have a hot one to use for other purposes like say a hot water heater.

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)

for sure mate - clay is also a good material by the way

the Finns are using straight forward resistive heating elements

I'd use a parabolic mirror focusing the sunlight directly onto what I want heated whether it be sand/stone or a black metal surface to heat air. No electricity or moving parts needed, though you might want to track the sun and enclose the heat store after sunset. To get the heat out of storage just run air filled pipes through the heated sand.

About 30 years ago for me at least.

Definitely be a great off grid solution.

So basically a gigantic and freakishly hot electro-magnetic object dropped from a stupendous height while it's rotating fit to bursting. Sounds like a plan. Could you also work into it reversible electro-chemistry and super-capacitance and spring-deformation, maybe a few bits of fission/fusion/super-conductivity and atomic spin stability for good measure? Perhaps with manipulation of torque/precession you could incorporate a trade off between kinetic energy and momentum to periodically replenish/reverse the overall enthalpy and mean free energy equation. Not asking too much.? Good luck with that.

that is great info - thanks for sharing mate

Yes, it would. now how to get that done? Vapor deposition?

it is amazing what there is about