From what I saw, they don't even use steel pipes, I think they just used flat rocks, steel furnace pipe would probably rot out fast.

R50 is zero energy from a starting point. Fiberglass, foam and air Crete.

@@jeffstout6567 nice

maybe lower temperature, but a bigger area with sand?

@@dvr102 that's possible

Interesting! Thank you for the comment!

any chance you can give us more details

Phase change material. I wanted to use a layer of this in my design

So interesting! Awesome! Can you share any technical information about? Any financial information?

What salt?

Interesting. I just bought a property where they pushed the old stone house into a hole, so I definitely have the stones to do this.

Great concept, I am building prototypes now for demonstration and to work out the bugs. So your idea of the larger stones will work great. So my thoughts are to have a heating element buried in sand at the bottom of a barrel or some container and now I will add larger stones at the top with maybe some grating between the two mediums at that point I won't need internal piping, like you said the air will flow around the larger stones. Perfect, fantastic commen.

Interesting

Agree - instead of sand the medium can be small granite rocks and you heat air in the parabolic reflectors and discharge at the bottom of the rock pile. In a closed system with non-return valves I am sure circulation could be done with convection/Pressure difference flow.

I would also be in favor of the air return. This should be the cheapest option.

I was a boilermaker specializing in heat exchangers with high temp, high pressure. I agree with your answer, was thinking the same thing essentially. Any liquid you use with a high boiling point is going to be expensive and/or and pressure. High heat and high pressure is not safe for most people and expensive.. A combination of water/air/sand would be relatively simple, diy friendly, low maintenance, low pressure.

@@shanewestphal1557 I've been thinking, would it be possible to remove the burner from a domestic gas boiler, and just feed hot air from your thermal battery to the heat exchanger instead? What would the air temperature at the heat exchanger need to be to make this viable?

Thank you for all the detail!

Really some good thinking

How do you ensure the water doesn't boil? At least for sand you can just keep pumping in more heat. Good point on flammability though.

@@markhemsworth2670 the simplest way would be to activate a circulator at a given temperature threshold. It would send water to radiators or any heat diffusers. An even simpler way is to make the water buffer big enough.

Soo happy I could confuse you

That’s awesome thank you for sharing

In Hamburg Siemens-Gamesa has an upscaled grid-level version of this using basalt as well: ETES, it can store 130MWh of heat in about 1000t of stone.

Really nice! That's idea is really awesome... Do you have any information about the ROI of this? Any financial information?

@TheGijzzz

That’s awesome!

Great info

sounds awesome!

Thank you for the info! I enjoyed that!

how did you build or make the frame ? strength..windproofing..allignment?

interesting

Check out Finnish company polar doing it

Thank you for post. is high temp oil vs high temp air better and less cost. i think Polar Night Energy does hot air and thought it strange

@@t9358 Hot air is a nice concept too. But I think it would be harder to achieve as a DIY project. High temp oil can be achieved very easily using old water heater tanks, copper or steel serpentines... Basically junk that can easily be obtained.

That’s awesome

Make sure to install a good prefilter or in about ten years your entire intake area will be clogged beyond use. Dust is insidious!

@@palipali4264 wise words

great ideas!

Depending on the amount of storage mass, a heat pump is going to, typically, manage low temperatures. The advantage of sand is that it can deal with very high temps. The greater the mass, the higher the temps, the greater the energy storage capacity. If you have a well sealed house with in-floor heating, the demand for space heat may be low. Water heating is different.

@@donalddalley7274 Of course, for maximizing the low limits.

Thank you for the kind words!!!

I like it

A little simplified, but the sand must be heated first. Then the heat can be distributed. Air alone will not create enough heat in a compost pile to heat the sand/rock bed uniformly. Also taking too much heat or a a fast rate from the compost pile decreases the amount of "energy" created. Distributing heat via an air plenum also lowers the efficiency and is adequate for a small confined space but not a larger area. Think "Rocket Mass Heater" concept but will a large mass heat storage area. My greenhouse is 30' x 60' and I will be adding hydroponic growing space next year.

@@frankfrederick5158 Air doesn't create any heat. It's just a medium for transporting it. Move the air and you move the heat energy it contains. Works pretty much the same as with fluids. Fermentation inside the compost pile will produce heat, but only a small amount. You can extract some of that, but if you take too much, the fermentation process will slow. Air would work fine for warming sand just like any typical household heater or heat gun does. The issue, is having enough input heat to charge the battery at a rate faster than it loses heat. Even with insulation, heat will be leaking out of the battery.

@@shaun6828 Thanks Shaun, I do believe we are saying the same thing, just in different ways. Your comment on fermentation is correct. I might add it take "air" to create the fermentation process. Starve the process of air, deplete the fermentation (heat) created. Also, for the compost pile to last (up to) 18 months small mounts of water, air, and bio digester are added regularly and the pile "turned" to help the process complete.

@@frankfrederick5158 I saw a video of a farm that used sealed tanks for the process. They tapped it for methane emissions. I guess it also depends on what is being composted, but ethanol is another possible byproduct...

interesting

I hope your house works awesome! thank you for the kind words!

I have videos on cooling! Thank you for the kind words

@@SimpleTek love that one: kzfaq.info/get/bejne/ZrRmZKeouJy0oIk.html

interesting!

cool

Hi, Would you be able to recommend any sites where I could size efficient 12-24 volt thermo electric generators. Thanks do much.

yep

How about fiber optic?

@@NwoDispatcher fiber optics? Is that only used for the visible range? Does it also transfer infrared?

@@l0I0I0I0 well it's all electromagnetism. I'm sure different materials could be used for different wavelengths

@@NwoDispatcher as long as heat doesn't escape through the fibers as well. Idk, sounds interesting. 52% of heat from solar is IR. Small amount UV. I've studied this in the past on my own including black Body emissivity etc. It's not easy to find a material that is like a diode and heat energy in all it's forms goes through a material without blocking 5-10% even in thin materials. I've seen lights however going through fiber optics straight from the sun to light a space indoors, however they are expensive and probably filter out IR radiation. Curious to see what you come up with? Love your idea of heating a hole in the ground. The glass covering the space and it's emissivity to heat radiation can be a challenge. I've been working on this at home for a long time now. Found one possible solution but the state of the art material is not in production yet.

interesting

@@SimpleTek I have another thought about heat transfer to the sand thermal battery... Heat transfer between one material and another is maximized by making sure that there is intimate contact between the materials. If this were my project I think that I would experiment a bit with the following setup: 1) Use mineral oil for the working fluid in a closed-loop system, pumping the oil through aluminum or copper tubing from the solar source to the sand battery. 2) Fill the box with sand as you originally planned. 3) Pour additional mineral oil directly into the box of sand so that it fills all the tiny voids between the sand particles. This setup would ensure very intimate contact between the outside of the tubing and the mineral oil in the sand box. This setup would also ensure very intimate contact between the mineral oil in the sand box and the sand particles. This would ensure a very good heat transfer to the sand. I'm not sure how much mineral oil would be required to fill the tiny voids between the sand particles in the box. Hopefully it would not be much. I would do a small test with container of sand of known volume. Then fill the container with water until no more will fit. Then you will know how much additional oil would be required to fill the tiny voids between the sand particles. Ed Schultheis

@@edschultheis9537 Mineral oil is a very interesting idea. What about burying a kiln in sand and somehow solar heating the sand to heat the kiln? Inside the kiln is a rockwool blanketed tubing of some heat resistant material that carries mineral oil or salt water to the desired heating endpoint. It is a loop so the cool fluid goes back to the kiln. The sand is a thermal mass and can slowly release heat...buried treasure. The insulation is more about slowly cooking the fluid, because insulation just slows heat transfer, it doesn't prevent it.

@@jeffreydustin5303 A thermos bottle arrangement around the storage would help to slow the heat loss. Now me are talking big bucks.

@@edschultheis9537 What are the environmental considerations of mineral oil in case of a spill/leak?

very cool!

Are you talking about "Rocket Mass Heaters?" I've been looking into those quite a bit. I have several project ideas inside and out that I'm planning; from cooking to space heating.

@@enigmaapoc403 rocket mass heaters work great

@@enigmaapoc403 en.wikipedia.org/wiki/Masonry_heater

that's great in all but the whole idea is to never have to feed that god dam wood stove anymore

Thanks for the tips!

Thermal mass!!! Good idea

nice

very cool!

Expensive but might work

This green egg BBQ has alway burn my steak after 1 min ,i like it blue :)

That eliminates the 'rainy day' backup that the sand provides.

ok

Good idea with the steam generator for electricity

Cheers!

Awesome

Thank you for the ideas and kind words!

Thanks for sharing, that's awesome!

I am looking into this at the moment. Can I ask what size the pile is and how you extract and distribute the heat? Cheers.

Look at "Compost Pile Heat" here on KZfaq. The videos should answer most of your questions. I use a water based system (twice), one loop of actual water for use in a hot tub and other areas, and second with a glycol mix for radiant floor heating. My in floor heating system is not a normal radiant floor. I did the usual insulated base of gravel/sand/insulation then the in-floor tubing run and covered that with sand, then 2" of concrete. I have a small "boiler" for very cold nights and the usual manifold and pumps. A water heater tank (large) serves as a reserve tank for the hot water. AT a -30 F temp outside over winter, the inside greenhouse temp was 68 F.. Although a bit of trouble to create, my energy costs this year were next to nothing. Summer ideas include a better hydroponic system and an HHO generator for electricity/heat/cooking/cooling/pumping/etc. Good luck.

@@frankfrederick5158 what inlet and outlet temperatures were you able to maintain throughout the winter months. Usual infloor supply temps are 110 degrees F and 90-100F outlet for residential, garage and commercial bldg. what’s your thoughts using your compost heating system.

@@jeffstout6567 Thoughts? No. Facts, Yes. Average 108 to 114 degrees F into the system. Out between 80 and 90 F. It gets cold where I am - VERY cold, so the floor can suck up a lot of heat.

interesting!

I have such a thought bt don't knw hw practical and efficient it is

where can i get a decently sized stirling engine from?

Assuming one is using sand already; and reaching temperatures well above 100C, then I guess using a steam-engine for generating electricity would be better? Not that I have built one myself. But my research leads me to believe that it will be way more compact, give higher output, will be easier to build, and probably cheaper. Not a steam-turbine though. Would have to be a piston-system, like an old four-stroke engine or something.

I appreciate that, look into drake landing solar community

Thank you for the kind words

maybe...

@@SimpleTek Turbo high temperature compressor is not difficult to manufacture. You just need long shaft between impeller and electric engine

Great idea

looking forward to it

@@SimpleTek by the way, not a challenge, it’s like you say, when we share everyone benefits. I saw some guys on a video a couple of months back discussing this on a large scale for cities. This was not the first. However, it is the first one I saw on wax. Interesting! They heated their sand to 700 degrees centigrade and emphasized the sand had to be dry… huh?? I’d think it would be dry!! Read some comments below…. It was the Finland group I watched, refreshed my feeble memory!

Yes, the sand would have to be dry for systems that get even close to the boiling point of water. If it isn't enclosed then rainwater would steal some of your heat in the evaporation process. If you had an enclosed system that had wet sand, then you better have a pressure relief valve to vent off the pressure created by the water that you left in there. That water in your enclosed system would take care of itself over time, but why risk the damage to your thermal battery?

Thank you!

thank you for the insight!

cool ideas

I would run it thru a good filter first and remember that spent motor oil is also a good base to make diesel fuel

keep me informed!!!!

Curtis Stone does amazing work respecting ROI on everything EXCEPT his passive solar greenhouses. It works, but it could be built for 1/6 or less the money and do the same thing. He’s aware of that and says it though .

:)

Ok

Sounds like something Anakin said. 🤔😁

cheers from Oak Point, Manitoba!

Good idea

interesting! thank you for the reply

I fully agree on domestic DIY scale you need to get as simple as possible because even the easiest setups bring unexpected challenges... :) Check out a guy called Sergiy Yurko he has a channel about a lot of solar collectors and thermal storage. Really interesting.

@@myounges I actually have a channel link exchange with Sergiy. He does INCREDIBLE work with solar collectors and water thermal batteries! I absolutly LOVE his work.

@@SimpleTek great minds think alike... Haha yes that guy really takes his job seriously. 👍

How about lights, cooking or cooling for those of us in the deep South? Shouldn't the system provide electricity?

Ok

Eso es unos 15 metros horizontales y 2 metros de profundidad , es perfectamente posible y barato. Si ademas consiges 50 grados , el salto termico a 60 0 70 grados centigrados sería muy economico para la casa . Un saludo

Great idea

good idea

This is what I was just coming around to. Another option is to mix some carbon black in with the sand and the medium becomes the heater. Would still need copper pipe to harvest the hot air/water though...

thinking about this, we need to change the boiling point of water, an anti freeze/boil additive. Interesting question is if you saturate water with as much salt as it can hold then how much does that increase boiling point by.

vegetable oils also have a flash point of 406 degrees C. drum.lib.umd.edu/handle/1903/11333

Sand is the storage medium I am trying to think of a way to move that heat from external storage to be usable in the house. An advanced method would be to convert the heat to steam to drive a turbine connected to a generator.

great ideas

Interesting… thank you

Thank you

great ideas!

Andrew, love the idea of storing water in livestock tank and insulating with aircrete. May need to waterproof aircrete as water may seep through it and exposed parts may crack with ice allowing water and thus corrosion as long term issues. Great idea however. Water even at lower temps under 200c is still great at storing heat just requires more space to meet total needs. Yes storing heat does not account for the rest of electric bill but it's a great start and reduces the rest. If one uses high temp solution, the stored heat can be used for cooking! That's cool! May be more practical to have a dedicated system for cooking to reduce cost such as piping, building etc. and for simplicity. May be easier to have solar panels and batteries for the remaining electrical needs. That's my guess. Turbines for electricity are cost prohibitive to my knowledge.

@@l0I0I0I0 Batteries are also pretty cost prohibitive if you have grid access. As for cooking and/or energy generation when the sun isn't out, a methane digester (piped directly to the stove or to a generator) wouldn't be a terrible idea. Also instead of solar panels, I've been looking into the idea of using a parabolic trough collector to generate electricity via a sterling engine and then collect the water after the sterling engine as stored hot water which can be recycled in a closed loop. This would be one hell of a project, but it'd be totally off grid depending on your energy demand and geographic location.

@@andrewb9595 keep me in the loop! Want to see what you come up with. Biogas is a thing. It's common in India I have been told and perfectly clean. Big or cow poop may work better than human.

@@l0I0I0I0 hydrogen sulfide is not clean but can be filtered out with activated charcoal and lime water.

nice

Water run through 1000 degree sand would be steam...

@@kyleburdick8771 depends on speed, length of run and contact time

How do you get around having some water left in the pipe where the sand continues to heat it to super steam?

@@kenhilving276 good point

I like it!

@@SimpleTek Btw, the reason I suggested a 3x3 layout of the immersion units rather than in a circle was the XPS insulation that is designed for below grade insulation comes in large 2.4x1.2m sheets (in the UK anyway), so insulating a square concrete jacket rather than a round one would be much easier. I also suspect running the water through a square jacket would be simpler too.

Sweet

interesting

The denser the material the better the heat holding capability

stinky

interesting idea!

cool!

;)

very cool thank you for sharing

@John Pino That's very similar to something I'm interested in doing. Can you recommend ways to get more information/details on what you described, not just that set-up but any sort of related information or links or people...? Thanks!

@@patrickcleburneuczjsxpmp9558 I don’t have any more info. I know he did buy the plans from an engineer but the plans are outdated. The pipe used was 1/2” pvc and copper. I would think that pex or soft copper coil pipe would be a more modern choice. I know that there was no pipe within 6” of the top of the stove, I would stay away a foot to be safe. I don’t know how hot the sand gets you could melt the pex. I know he doesn’t make a big fire, just enough to maintain the heat sink. If your project requires a lot more heat you could use iron pipe and a larger building. I think my friend’s system can hold a million BTU’s and release 100,000 an hour. I also wonder if a rocket stove would be more efficient. I have also thought about modifying this model to include a charcoal oven so that you could make bio char for the farm.

@@hughmanatee7433 Thanks very much for the reply. You're saying more of the same things I'm thinking. I'm currently using an outdoor water stove (and the firebox is big enough that I'm also making charcoal in a modified standard size (5 gal?) propane tank), and that system has worked great for me, but the stove is about at the end of its life -- it has a small leak already -- and I'm trying to figure out what I want for a replacement. One thing I'm pretty sure about is that I want to continue to heat with wood and I want to continue with an outdoor system. (I think I prefer a system like I have now that is completely separate from the house, but I might consider a stove that was in/attached to the house if I could feed it from outside.) If the stove itself were all masonry, I wouldn't have to worry about leaks or any water-metal issues with the stove itself, but then if I had some kind of water tank above the masonry I could store BTU's in the tank and use the water to transfer the heat to the house (and maybe use the water to indirectly heat my domestic hot water like I do now.) But if the tank started to leak I could replace it without replacing the whole stove. So that's more or less my idea. I don't know if a rocket type batch firing system (like traditional central/eastern European masonry stoves) is what I'd want or not -- I like that I can currently use very large pieces of wood, that I'm not strictly limited to ideally seasoned wood, and that I can keep a fire going rather than having to start lots of fires, but I realize there's a trade-off in efficiency and how cleanly it burns -- but I guess an all masonry firebox would allow for long-slow or fast-intense burns. I guess a masonry firebox would have to be smaller than what I have now, but I might be able to incorporate a baking oven or warming chamber into the the design. I don't think I've ever even heard of anyone else that has an outdoor masonry stove with water to circulate the heat to the house, but I'm not sure why. Obviously steel water stoves can be mass manufactured and delivered ready to use, but I really like the idea of a more modular set-up that might be able to last a lot longer and be relatively cheap and easy to fix (especially compared to water stoves which rust out or leak for other reasons.) Thanks!

@@patrickcleburneuczjsxpmp9558 I would avoid any water tank used to save heat. The sand is the key and it is about mass. Go big.

I know his channel, great stuff

Let me simplify this ramble. If you have a sand tank in the ground, the temperature around it will decrease with distance. Water pipes in the ground where it's around 100C can then be piped through the floor for heating then into the water heater. Same distance diffusion should work with oil or antifreeze

Interesting

Cool idea

Well said

I saw it - but they don't really talk about how to charge and uncharge the sand battery - just that sand hold heat lol

Cool! Thank you for sharing

Well said

Yes, he has a much higher ground temperature than I do. I have a video that addresses how to fix that though

I like it

This is what I am investigating. Right now I'm uncertain on how to calculate the area of heat an individual pipe would transfer into the sand.

Couldn't you just use heating elements embedded in the sand?

Thank you

Yep

Thank you! very interesting ideas!!!!!!!!

More volume would be more efficient, a well insulated water tank may be a good test bed tho.

Glow plugs and resistive elements get heat in. How to get it out?

Great video. I’m in Hadashville. Here’s my main point- if I buy a system that can meet my needs in the winter then I’m producing 10-15x the power I need in spring/summer. So efficiency is irrelevant, it’s all about cheap storage and retrieval. Especially with panels price dropping. The panels are probably 1/4 of the total system cost.

I like the idea of sand heated with glow plugs. Simple reliable. Imagine using TEG to convert that heat back to electricity. I know it’s very very inefficient. But someone do the math for me. How much sand? You could create a 2 stage sand cell for just the hydronic heat. But you probably also need electricity because we get so little in December? I use wood in a soapstone fireplace now, hope to do the Chinese greenhouse maybe.

Thank you

Thank you for the overly kind words

need more heat!!!!

wow

But you aren’t generally going to be heating water from 0-100. More likely from ambient temperatures to about 80c to avoid pressure problems. So a lot less energy storage. Also you will have steam/evaporation problems with water or degradation problems over time using oil.

Which is not a lot of heat. 1kWh = 3600 kJ...

live long and prosper

@@SimpleTek but what do you think of the idea

depends on cost of materials in your area...

interesting

I would be afraid of air quality issues with the air flowing through the sand. Yes it would rise and heat but still. Cheaper than piping. If the air could heat separate air or surface UNDER an air barrier then perhaps.

@@l0I0I0I0 if air quality was a problem, a simple heat exchanger would nullify the problem. Dirty air on one side, house clean air on the other. Or wash the sand and use an air filter until the fine particles are gone.

@@dustind3502 yes heat exchanger would be ideal for this build. Also as few engineers seem to know, water vapor also rises slowly through the whole building, and wood framing would not respond well but mold and other nastys would love it! Therefore you would have to install a robust dehumidifier. So as you stated, it would need a robust vapor barrier and heat exchanger which are sold commonly on the market. TY

@@l0I0I0I0 Takes a lot of energy to operate a dehumidifier.

interesting

MOVE THE HEAT NOT THE SAND.

Yes!

I don't know!

The problem with clay is that any moisture contained in the clay at the high temperatures would turn to steam which would cause pockets to form in the clay or worse could cause a steam explosion as it heated up in a tight space.

very interesting!!!!! Thank you

Sounds like the Russian system as well.

@@michaelglenning5107 which Russian system?

@@SimpleTek Russians would build a slightly off horizontal chimney in the ground. The fire box would be below ground. Seasonal solar heat storage is the same concept. Heat from the summertime is pumped through a horizontal underground air duct system. In winter the heat works it's way up. I see numerous people venting excess heat buildup in the greenhouse outdoors when in fact it should be transfered to the ground underneath it.

kzfaq.info/get/bejne/bbaImdmXv5PGXaM.html

@@alexeytigarev7645 ok

Check out (google) drake landing solar community. It’s been working there for over ten years with 55 homes

interesting idea

Air is not that good of a heat transfer medium. Hydrogen conducts heat 7 times faster than air. That's the lifeblood of every refinery and its in almost every generator over 100 megawatts but it finds every crack and escapes. Liquids are a better heat exchange medium especially if a phase change occurs...gas to liquid, solid melting, etc. Water is the cheapest most available heat transfer medium. I was going to try filling a 275 gallon IBC tote with road base gravel with 6 inches of sprayed rigid urethane foam as an insulator and water as the transfer medium. Ain't got there yet....

@@kimmer6 I thought the same thing. But the plastic of ibc tote needs to be below 160* F (preferably 140* F or less). My plan was using it to regulate water temperature of fish tank at 80*F year round in my insulated fish-house. The plan is down-sized to a 55 gal steel drum with PEX and sand-gravel mix as water heat exchange/bank. The ibc is better used as another 25 kgs of fish raising and water volume is a heat bank also. The floor is 6 " of sand & river gravel and polypipe over 4 " of insulation board (R-20) base. ( I wanted to go 2-3 feet deep and do STHC system. But time frame & finances did not allow it. )

@@redstone1999 I was planning on having a roof company spray 6'' of rigid urethane foam on all sides and top and bottom embedding the steel frame. Then it wouldn't really matter how hot the IBC tank got as it is encapsulated. Make a top hatch to load it with sand/gravel. I had 2 inches of foam sprayed on my roof 18 months ago and the stuff is wonderful. I can walk all over it and not damage anything. My attic fan rarely comes on at all any more. The foam insulates really well. We had 106 degrees F the other day and the house bottled up got to 79F. The attic was 88F. I saw 119 degrees F in the attic with the laser thermometer 2 years ago, and 106 degrees on my bedroom ceiling. Roofing foam is way more rigid than foam in the can. You have a good plan. My aquarium hobby went down the tubes decades ago. My son was 3 years old and turned the thermostat to full. I came home and $1000 worth of tropical fish were dead.

@@kimmer6 Kids ??? Lovable little lords of destruction :D I like the idea of insulating my fish tanks with roofing foam.

very cool

For injecting heat I think electricity optionally powered by solar is the way to go for inputting heat and as for withdrawing heat, if you are already using this epic heat battery why not have a simple air vent from the middle of the battery that is seriously insulated to the max to your home. And if you make the battery deep enough I'm pretty sure you could not heat it up and utilize the stabilized temp of the earth for continuous mildly cool air in the summer.

Thank you for the kind words

good insight

@@SimpleTek hho

@@SimpleTekhydrogen on demand It burns at very high temps and is easy to generate using solar And you do not have to store hydrogen

interesting

My sentiments exactly! Fluidized sand…..

You would want to integrate flow check valves into the system to ensure that the oil only flows into the desired direction.

great ideas

@@SimpleTek thinking about this article has made me think about something else entirely. I was in the US Navy for 6 years, and the main thing that I did was convert salt water into fresh water. The concentrated light from a couple of the solar options mentioned here could be used for an evaporation distillation plant, to convert waste water into freshwater.

@@justinweatherford8129 very interesting - thank you for commenting!

I think aircrete might be better and way cheaper, but good idea

@@SimpleTek AFAIK aircrete requires pressurized vessels to attain the required air pocket stratification throughout the concrete substrate. I'd guess there could be methods to create a similar material on-site but it may not have the same structural properties as the aircrete which is produced in factories. I, personally, wonder how a method using a dissolved gas in the water used during the later stages of the mixing phase could produce the necessary gas for such a material but whether or not those hold during the curing process is something I can't figure out in my head so I can't say whether the idea has merit. I do know that the acidity introduced via the carbonization of water could be a problem for the reactions involved in the setting of the concrete, so another gas may be more viable. Nitrogen doesn't dissolve nearly as readily as CO² but wouldn't lower the Ph as significantly as well as remaining an entirely inert gas regarding oxidation of the concrete's consitiuants during curing (air's oxygen content could make this an issue but I don't have the reactions memorized for concrete so I can't say for certain). Other inert gasses would likely be too expensive (helium makes me wonder how well the pockets would form due to its molecular mass being so low requiring a higher density gas for expansion to occur properly but helium isn't exactly cheap anyway) so I'd actually say CO² might be the best option, though I'd say it would have questionable long-term integrity when compared to factor-made aircrete.

@@Bird-0 lot of big words there, tons of people make air Crete at home on KZfaq.