Sand & Clay Batteries - what I learned & what I should have done differently building the greenhouse
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- Опубликовано: 9 апр 2024
- I'm pretty sure I'm close to the right answer, let me know what you think!
Article regarding heat storage for sand, clay, concrete, and water:
www.researchgate.net/publicat...
Tour of Patrick's greenhouse with sand battery: • The Most Efficient Gre... ]
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This content is amazingly useful for cold weather locations. Also, good to see someone say, "I've built something cool, here's how to make it", then admire others improvements :) Love this, good job!
Good info Dean, clay has far more surface area than sand so it makes sense that it would store energy. The nice thing about sand is that it has 100 percent compaction from a building point of veiw. Its good to note that we both used what we had available, you can't let perfection get in the way of excellence.
It was great that you guys were sharing info on here!
If there was a future leak with a clay mass, what would happen? Clay swells and expands with moisture. Just a thought. Thanks guys
@@dickdavidson3616 as long as it doesn't freeze it should be fine
Ya, expansion and contraction over a concrete pad might be an issue?
The massive advantage that sand has is how much easier it is to work with.
In your skittled rant, you actually made sence. I appreciate the insight of could have, would have thought. That is why we all seek whatever information we can to improve our plans.
Bottom line, your ultimate greenhouse build will inspire even better builds.
Awesomeness is contagious 🤠
I think your current concrete setup is already fairly good at capturing heat. What your friend in Alberta did was slow down heat loss by putting insulation under his sand and concrete. I think you could do the same, but rather than dig it up, think about where you are losing your heat. There is a community in Alberta, (might be Drake Landing, I don't remember) where they rely on the ground to be a thermal mass just like you (but with vertical pipes installed), but what they did was install insulation two feet underground outside, to keep the heat from escaping upwards. My theory is that you aren't losing heat straight down, as that is "charging the battery" and eventually the heat gradient will slow the heat loss downwards. Rather, you are losing heat sideways and up through the ground. Near the edge of your greenhouse the path for heat to travel involves let's say going down 2 feet, out 2 feet, and back up 2 feet, so travelling a distance of 6 feet total. Imagine putting insulation horizontally in the ground around your greenhouse - now the heat has to travel down 2 feet, out 10 feet, and back up 2 feet, so 14 feet total. I remember watching a youtube video of low-energy mobile homes being built this way where they didn't insulate the bottom of the mobile home, but insulated the ground around the mobile home and turned the ground beneath the home into the battery - with good results. Your greenhouse is likely already sitting on clay, just with perhaps a foot or two of non-clay near the surface. Just some food for thought.
Regardless of if I'm right or wrong, thanks for posting the video and giving us something to think about! Keep it up!
4 ft of verticle insulation around the perimeter, and 8-12 ft out of horizontal just under the surface around shop, greenhouse and house. That really helps.
@@ArkopiaRUclips Ah, so you've already addressed that. Very cool! :)
Drake Landing is dead. In spite of millions of tax payer dollars, it never worked well. The homes always sold for less than comparable
@@bobboersema362The climate control worked well, though, which is what they're referring to. Shitty communities can always be a thing--people don't choose where to live based on the heating setup generally
@@bobboersema362 Aw man, that sucks. It would be nice to see one of these projects be wildly successful.
New ways of thinking and applying new methods of heating large green houses! Clay vs sand!
So interesting for our future homes and green houses!
Really exciting, guys!
I am an artist !I live in Maine and love these types of sharing with You Tube 👏❤️✅❤️👏🥰👏👏👏
Please keep up your great work to promote natural green houses in cold climates!!
FYI -40C is the same as -40F
Great thinking out loud man 👍🌴🤠
Like the jacuzzi!❤️👏❤️ in the greenhouse!
Really cool!😎🥰✅👏✅
I'm sure you've looked at the Drake Landing Project. It is practically a community heated with stored summer thermal energy.
Wow. Good information. Thank you.👍🏼
Valuable information. Thank you. I'm bookmarking this video for the time if and when I get my own property in the Pacific North West. I want to achieve "Tropical" (not sub-Tropical) green house with aquaponics Tilapia and Fresh water Prawns, and exotic Tropical fruit trees.
Well I am interested in that 'passive solar' barn you mentioned. 🙂
Great information; thanks for sharing!
Oh boy have you got my little brain thinking! I need to go back and see if I've missed any of your videos or if I've just forgotten some details (it happens a lot these days with everything else going on) because I'm suddenly full of questions and more to research. I've been so impressed with your greenhouse since the first video you put out about it and I dream of being able to replicate it as much as I can, but our leaders seem to want to drain our bank accounts more than any of their other goals.
Thanks again for sharing the info.
I love this stuff so much.
Thanks for sharing the info.
Great info Dean, saving this video for some future projects!
Thank you for the great video !!!
Great video bro. Thanks.
I think Dong Jianyi's chinese passive solar greenhouse in Alberta could give you perspective on using clay - I'm pretty sure he uses 1 meter wide wall on the north side, with a bunch of insulating materials. Dan bostan's passive greenhouse experiences in montreal/quebec is pretty genius too. He converted big barns into low-to no energy input for growing fruit trees. I hope these two folks can help you perfect your greenhouse! cheers.
Great video mate I really liked the information you gave me and the idea of creating the heat sink for winter in a greenhouse.
Have a ripper mate!
Smart ! 👍
Awesome video
Love your insights!!! Thanks so much for sharing. It helps us all improve. I'm building a tropical 4 season dome greenhouse with solar heated radiant PEX along with radiator fans to heat the air.
I'm on the plains and have almost exclusively clay so that will save the sand/gravel cost just using my local material.
I also wanted to put the PEX below the entire greenhouse including the plant beds, with the intention of only heating the soil to 90F where tropical and other beneficial soil microbes max out.
I plan to burry and insulate a 1000 gallon water tank, headed by thermal solar panels and use that for thermal storage, and supplement it on the cold cloudy days with a Liberator Pellet Stove in the greenhouse that I'll also use to heat water for the same radiant system.
I'm at the wild idea stage of planning my greenhouse:
Wild idea #1: Use a ground source geothermal hvac system to transfer the heat between the pex in the clay battery and the greenhouse. This could still draw heat from the battery even when its below the ambient temp of the greenhouse, or charge it up during the day.
Wild idea #2: Run insulated garage doors on the inside of the glazing as thermal shutters. Run them closed at night to minimize heat loss.
Garage doors would work, have to plan your framing somehow to accommodate them.
Dude, what awesome content! All the best to you from B.C
Only use sand for this. Clay expands and contracts an insane amount with temperatures. Sand is little to no expansion. Your cement would heave and crack. Or lift
Yea sand battery's are pretty cool , watched sum videos on it on RUclips. Thermal battery an copper coils. .
I would say a huge no to the insulation under the slab due to lack of drainage. I'm sure this is why Patrick has problems keeping the humidity down. He mentioned some issues getting the watering dialed in. I suspect lack of drainage is contributing. I would be concerned about the long term effects, like mold and fungi growth.
Insulation drains, a vapour barrier would not.
Buddy you going to have to build greenhouse 2.0 !!! Great video and great ideas.
Hey, really appreciate the content. I am going to copy a ton of your designs and save myself a ton of time and money. I got an offgrid greenhouse youtube video coming out next week that you would like. All passive, no electrical, Zone 6. earth tubes. Uses Finches and frogs to control bugs
I have done some calculations based on the water thermal capacity. The easiest way to store a huge amount of thermal energy, cheap, is to dig a big 1/4 swimming pool size whole, lay down poly and insulate it with straw bales from the bottom and all sides, add more poly and add water and cover it with straw bales. Run the energy from solar thermal panels through that water battery for the entire summer. 1 cubic yard, water can store 52KWh at around 55C temperature. A 30x15x1.5 yard pool will store about 35.5 MWh (and that is a lot of thermal energy - 127.6GJ) at 55C temperature. Clearly, increasing the size of the thermal pool increases the temperature proportionately. With a layer ( horizontally placed) straw bales the energy loss is around 3-6% per month! Clearly depending on the ground temperature as in the summer that loss is drastically lower.
Maybe just water is the best answer like you say. Makes sense to me
@@ArkopiaRUclips looks like I'll have to build that swimming pool
Yes, water is the best choice, the storage of that water brings significant challenges. Sand and clay don't have these problems. You cannot use straw bales in or near the ground as they will degrade and eventually decompose. Foamboard is outrageously expensive but dependable and durable.
@@paulmaxwell8851 of course straw can not be used directly in the ground, this is why I mentioned poly, below them ( and clearly above them), as the PE or PP (or generally) any plastic based molecules are extremely sable in the ground ( no sunlight ). The cost effectiveness of this method is extremely favorable.
Sounds like the back wall can have an integrated sand battery, that could be insulated to not allow the heat to dissipate in the summer. Then uncover the front wall to allow the heat to dissipate in the winter. Or buy a shipping container and create a sand battery, then have a heat exchanger integrated into the greenhouse/house.
So then the back wall of the greenhouse can be a shipping container filled with sand/clay...plus the shipping container is structurally sound to build a roof upon. Include a water tank to preheat water and then you can also have domestic hot water.
Like it. Why not also add a thermal blanket that rolls out across the ceiling windows at night. That combo would be awesome
Very interesting. Have you worked out the pay back period on the greenhouse?
I'm curious about valuable grow space being used as mass, I've thought about solar water into 2X 300L HWC then use a DIY heat exchanger as a heater. Or run copper pipe around the base plate or option A and B
a Batch rocket mass heater would be awesome in this setup. A mass heater just makes sense for this kind of setup.
There are many different types of clay, and some get real wild as to expanding and contracting when wet vs. dry at a single given temperature. More variation over different temperatures. So before spending the money it is safest to check out your own local clay for its physical characteristics. A good thing to read up on is "mudjacking" or talking to a local mudjacker about what you can get away with using your local clay types. One way to protect yourself is to have an underground curtain of French drainage around the building, so soil moisture variability is kept in check.
Dean, I was just wondering how easily you could add a role up blanket on the inside of your greenhouse to stop heat loss in the evenings. It seems to me that it would be very practical and functional to have a system like they use on the Chinese greenhouses. Just a thought I wanted to share. Keep up the good work.
an issue that may arise is time delay i.e takes a while to warm up but more importantly takes time to cool down. I have electric storage heaters and the issue I have had is the temps outside can vary wildly so making storage inefficient.
The other thing is, i dont think we can get away with not heating our greenhouse without a Chinese style blanket . On those -40 days the amount of heat loss through the windows is to great to be overcome by the sand/clay battery alone.
Agreed. Maybe that’s money better spent.
If you want to regulate the temperature of the in-ground pipes, have it as a separate system by heating the ground loop through a heat exchanger from the heat source that is at a higher temperature. When you need to use lots of pipe in the ground, the cost of a heat exchanger could easily be offset by saving on the pipe.
Have you thought about putting the electric heating elements directly into the sand or clay and deleting the water part of the system? From the chart it looks like sand and clay both transfer heat better then water. If you spaced the elements evenly through the medium you might be able to eliminate a chunk of the complication and cost. Just a thought.
Really like what you've done.
Probably take a lot of elements scattered through, which is why water is usually used to distribute heat
My $0.02 worth. Because heat rises, I would think that rather than multiple sets of pex layers you might use only two layers. Bottom layer for charging the battery and a top layer for extracting battery heat.
One of the northern European country uses sand, as power plant. Saw it within the last 4 years.
yes that is when you can take advantage of the high temperature capabilities of material like sand even though they have far lower heat storage capabilities per degree x mass....(latent heat)...so with sand or rock or clay you can charge a smaller amount to very high temperatures (red hot, thousands of degrees. One issue with going for very high temps is the heat loss is grater because of the increased differential in temp that drives it.... In my case I place the 2000F mass inside the living space..that way any amount that "leaks" through the insulation is not wasted to the outside. Of course one needs to be careful with high temp rocks. In the UK they have been using similar "storage heaters" for a very long time as thermal batteries, they were very common, not as easy to find in the USA.
One of the primary advantages of sand over clay is that it is easier to compact. Clay needs to be spread and packed in thinner layers.
Even compaction is important to prevent settling and cracking in your concrete floor.
I like the idea of warming up the ground instead of trying to store large amounts of hot water somewhere, seems a bit more realistic. Seems like there are lots of upsides to my soil being 95% sand.
Sand can be superheated to over 1000 degrees in a fully insulated container for long term storage of summer heat using parabolic mirrors. Then release it in the winter.
I don't have sand or clay but I sure have a ton of rocks ... of course that's why they call it Rocky mountains where I live
Thank you for the very informative video!!!
Before they were called the Rocky Mountains they were called the Stony Mountains.
@@jackieow Interesting as Calgary has Stoney Trail now
Love it Dean,
Once I sell my house and build my own greenhouse - I’ll have you out too. Around Prince Albert National Park area… also, water is THE BEST heat sink of all per unit of volume vs. Other materials - with 1 caveat. That stops at 100 Degrees C. If one has a way of superheating the battery beyond boiling temp using solar mirrors or something crazy, then the best way to store heat beyond the 100C barrier is a sand battery.
Still going to recommend like I did in the last video that you pick up Anna Edey’s book Green Light at the end of the tunnel and look closely at her solar passive heat designs, it’s possible to direct heat air up to about 80C using a combination of metal roofing and polycarbonate air chambers, and to also run water lines along the back side of the metal. I just see so much wasted opportunity to use the summer heat to provide heat in the winter, and to also use the power of the sun to pull cool air through the ground for passive a/c and then to use that heated air for heat storage.
I plan to dig the biggest hole possible (way beyond 4’ down) and install channels of 3/4” washed rock just big enough for hot air infusion, with very large clay batteries between the layers of gravel protecting the gravel with landscape fabric. Water lines placed directly into the clay, and I’d even be curious to have a serviceable pv direct heating elements embedded into the middle of the clay batteries as a way to possible superheat certain areas… so many ideas flowing out of these videos!
I’ve never thought of the pv direct to heating elements before watching your videos - I would like to run a lot of experiments too - but of course have to utilize cash as efficiently as possible, and I think the PV direct might be too expensive to start.
Another technology I’m interested in trying out would be to order solar cooking (oven) vacuum tubes off of Alibaba wholesale, and run copper lines through them vs. The expense of the water heating specific vacuum tubes (would like to do a cost comparable on that idea).
Thanks for the great videos!
I looked for that book, and people want a ton for a copy. Must be good. 👍
@@ArkopiaRUclips I’ll let you have mine when the occasion arises.
@@ArkopiaRUclips Crikey! I just looked at the extortionist prices on Amazon! $350 USD??!! I bought mine direct from a different source in the US about 2 years ago and paid about 40-50… I need to see if the website still exists, if so, I’ll provide it here.
The book is up to 700$ by now 😅
I think if you want to use the natural temperature of the ground you should not insulate. As long as the earth is above freezing and you have adequately insulated the glazed area the building will not freeze. If you insulate the earthwork inside the insulated space the ground will always be trying to move towards the ambient outdoor temperature regardless of how much insulation you have. This will necessitate heating the slab with some sort of active heat source. All of that thermal mass would keep the heat very well but I wouldn’t opt out of using the ground temperature unless you were in permafrost. To improve your system you could work on improving the air temperature. I would try some sort of heavy retractable blanket just under your glassed in sections. This would let the passive solar in, as you already have, plus reduce the heat loss over night. With your system the only way to heat the air is to burn fuel. Your system is close to perfect. Maybe try a huge roll, the width of your greenhouse,of bubble pack insulation on a pipe at the top of your glazing that rolls down to the south. Perhaps a pipe on the bottom for weight and a chain fall arrangement at the top to retract the sheet in the daylight hours. You could support the bubble pack on some kind of smooth pipe like chain link fence pipe.
Insulated roller blanket is probably money and time better spent. 👍
"minus 40 or worse Celsius!" - you heard it here first folks
Styrofoam floats and you have a pond, may make a great heat sink
The University of Minnesota has a deep winter greenhouse concept that applies this idea if you haven’t seen it, you should check it out.
In Eastern Europe where temperature reach -40C they made the house floors more than hundreds years ago from few layers of clay mixed with dried straws and cow manure. The thickness of the floor was 50cm build pn top of packed river stones The walls were built with bricks made with same combination of materials. Are still parts of England where they still houses where they used same technique. The house needs an exterior coating to keep the moisture away. The ticker the walls or floor, you get better insulation. Was a very common way
In Canada we have nothing older than barely 150 years, and no old tech like that. Most houses are wooden sticks.
@@ArkopiaRUclips Siberia and Yakutsk use wood for construction as the best resistance to heating and thawing cycles. That includes not washing laundry indoors, to avoid moisture getting into the walls and lousing things up. Which is why they have separate outdoor buildings for laundry and bathing (the banya). Trees figured out what works best millions of years ago, and the ones that didn't went extinct.
Biomeiler and biogas/bio digester are potentiel options.
Question... have you ever done some core samples or testing to see what the ground temp is, permafrost or such...? to see what your absorption gradient would be... maybe auger out some 30 cm holes a meter deep, put in a temp probe and backfill with various media - sand, clay, concrete etc. to collect some data for your particular area and geological conditions... the drawback to the sand or clay batteries is probably the extra cost and time to excavate, backfill and then make it firm enough to support the concrete and structures on top... but that is a one time capital cost... perhaps you can try these ideas in the animal barn floor...
I’m not sure what I’m going to do with the barn yet. Super insulating for sure though.
Maybe instead of burying water pipes in the sand or the clay, you could bury an electrical resistance as it can heat above 100°C and so transfer more energy. If it is well calculated it could work directly on a solar panels array.
You could have a 40' container insulated & as a heat battery buried below the battery you describe as a secondary system.
A few thoughts: Firstly, clay shrinks and expands with humidity - so be careful about having it support a layer of concrete if it is going to be seasonally heated. Secondly, I think your larger earthern battery could still out perform a smaller sand battery in the long run. The longer it takes to heat up the longer it will take to cool down and I think that a cooler heat source that can buffer tempertures seasonally is more usesful in your contex than a hotter heat source that can only buffer temperature for tens of weeks.
4:14 its more than a walk in the park to walk any of the borders of the mentioned places!!!
Its a hellaa trek!!
But, if it’s a competition of who has the harsher environment, Saskatchewan Canada beats most. 😂
@@ArkopiaRUclips that depends on how a person is equipped..& such.
How about insulating the sand/clay bettery (also water proof) separate from the house or greenhouse and put a heat exchanger in between that and the house/greenhouse to keep the temp where you need it for in-cement PEX? Then you could store heat all summer and should be able to make it through the winter
But reading the paper, they say that paraffin (or oil) is better than water in your pipes because water corrodes the system.
Yet another great info video from Arkopia!! Thank you! Would you build your own water/solar panels? Could you not heat under your plants using a separate pump and water line circuit with a thermostat?
You don't want to heat under your plants , their roots don't like it. Some of my lemon trees that are planted close to the concrete don't do well because some of the heat migrates over to their roots
I don't know much about greenhouses but as a physicist my guess is Patrick's idea will work fine, and for your greenhouses its a good experiment, but you'll probably need moisture in the soil to use the earth effectively.
If you add a layer of hydration pipes below the pex might be smart. You could also use it to pull the extra heat out when it gets too hot.
Both your project and Patrick's are very, very impressive. Sure, you could have done more to improve the performance of your greenhouse, but you're standing among tropicals while you point this out! I do like the idea of foamboard down deep, under the slab and a sand or clay bed. And I'd love to see some clever person do computer modeling on these ideas before we spend a lot of money on one of them.
We have three evacuated-tube solar collectors on our home's roof to supply all our hot water needs. They work really well, but they do have some challenges, like the need to run glycol through a heat exchanger with an additional pump, which adds to the complexity. If I could do it over (and I might yet!) I'd have the collectors on a ground mount, because keeping them clear of snow is a bit of a chore. It means I need to use a very long-handled snow rake, followed by a brush. It's a daily ritual that could have been made simpler if the panels were closer to me.
Keep up the good work! It's people like you, willing to take chances and spend hard-earned money on new ideas, who advance our knowledge of better building practices. Cheers from Williams Lake, B.C.
My panels are steep enough angle that snow doesn't really stay on them for long. Frost does but simple solar says it let's enough light through that it doesn't really limit the heat production.
On pv panel it matters a lot more
5:06 ...Clay would be a very good material for a Thermal Battery (which is fully insulated from the outdoors), yet that Thermal conductivity makes it an heatsink when exposed to the rest of the ground.
Your current setup is better, clay only makes the bill get higher.
Heat rises, thermal loss down will be minimal. With the perimeter insulated your heat sink is very effective.
NO!!! This is a common misperception. Heat energy moves from an area of warm to cool, regardless of direction. It doesn't 'know' up from down. Heat loss through the bottom of an insulated cube will be exactly equal to the heat loss through the top, or any one side. Warm FLUIDS (air, water) do move upwards, but that's an entirely different matter.
I modeled an insulated earth battery under floor (2000 cubic feet). High temp of 120F, low temp of 70F. Holds 1.2 million btu or 375 kWh. About 25 hrs of 48,000 Btu heating (4 ton).
Loss to my 45F earth is 2600 Btu per hour (770Watts) @ R20 insulation.
But that much heat will require a cord of wood or over 500 250Watt solar panels (modeled on Montana January solar) to heat up to full.
A 6 ft cube of water heated to 180F will hold about half that amount of heat, but it is a lot easier to insulate, move, and use hot water. And losses are much less.
Your evac tube heaters would be necessary for 180 F water.
You can retrofit your existing location with such a small box.
That’s what I was thinking for my “retrofits”, just a large insulated water tank inside my building.
@ArkopiaRUclips If you want a spreadsheet with my calculations, let me know how to get it to you.
Love your work. BTW, also modeled the heat loss on your type of greenhouse to estimate my demand.
I’d love to see that. arkopia@hotmail.com
To do this kind of thing without the complications of water, you can have underground tunnels full of 6-12" rock and blow hot air through it, including outdoor chambers pre-intake with glass underground roofs open to the sunlight to concentrate the solar heat before it is taken fully underground to heat the rocks. Minnesota DOT has used this to heat their highway rest stop buildings.
my brother always has his bedroom window open because his computer puts out probably near 1000w of heat. i've wondered if it would be worth building a pc that has all water cooling tubes that then feed out of the case and into a sand battery built under the bed in the room, so that it heats up during the day while he's using the computer, his room doesn't get hot, he doesn't have to waste all the heat out of the open window, and then the heat comes out steadily during the night.
though i have no idea how to balance such a design, how to know how thick to make the insulation, how large to make the mass. i picture spending ages building it and it just cooks him during the night :P i think its an interesting idea though.
I think my main computer is 1500 watts.
You mention several times about having a house on top of a thermal battery and how hot it would be in the summer, but if people are already putting foam insulation on the bottom and sides of the battery, why not put it on top too? In other words a fully enclosed totally insulated battery. Then when the concrete floor actually needs heat, just pull it out of the battery by moving some fluid between the concrete floor and the battery. But otherwise, let it stay in the battery. No need to always let it "just rise up and out" regardless of whether you need it or not.
Actually, what about a thermal siphon? Have large water pipes going down into the heat battery. When you want to extract heat, open a valve to your greenhouse water reservoir. When you don't want to take heat out of the battery. Simply close a valve to stop the thermal siphoning. Throttle the valve to get the exact amount of circulation you need. Also, an air filled expansion chamber with a pressure relief valve (an up side down hot water heater may do the job) in case the system developed too much pressure when the loop is closed.
I guess you could insulate cap it, and would be probably better than just doing it outside in the yard. 👍
@@davej7458Yes, that is what I've been thinking of for several years now. I've worked in the solar and battery industry for almost 30yrs, and keeping it simple and cheap is what's needed.
I remember reading of the Germans playing with seasonal thermal storage 10+ yrs ago, but so many people in NA said solar thermal was a dead technology, but heating via lithium batteries is more of a fools thought. So using a storage medium (dirt, sand, clay, rocks) you need to move anyways when you are building a structure is our likely best path forward, and this is a wise use of surplus PV energy during our none heating seasons.
Everyone off grid knows the dilemma of having not enough energy at times, and then too much and no place to put it at other times.
Years ago I watched a video of an African village where the used salt heated by magnifying glass which’s used for cooking. I have a couple of magnifying glasses but lazy enough to run any experiment to beam it in water to creat a heating/boiling point.
Can you experiment with salt water in a smaller or separate line to see if it’s any better or not?
Really appreciate the information on heat storage.
How much does the hot tub affect the temperature and humidity in the greenhouse if it's on 24/7?
Lids on, and it’s super insulated. No additional humidity, or even spa smells.
I am interested if this can be done in reverse in deserts and keep the greenhouses cool.
Next thing you might look into is food grade hydrogen peroxide in the hot tub instead of chemicals. 😊❤️
I do that but also do use chlorine. 👍
Heat does NOT travel down. It bleeds off through the top and sides. You will have a zone of heat near the surface of the floor. Once that heat in the concrete equalizes with the air above it, the transfer stops...upward. As the air in the greenhouse loses heat to the atmosphere, your heat in the ground will equalize with the air in the greenhouse until all three are the same temperature. Heat will also radiate out the sides at the same time it is radiating into the greenhouse. It's best to have a "bathtub" of insulation below and around the foundation so that you can store more heat and focus all of it to radiate into the greenhouse. The denser and deeper the floor, the more heat it can hold for a longer time. Look at what Michael Reynolds did with earthships.
Water might be a great heat TRANSFER mechanism, but not STORAGE.
Heat moves in all directions, but stratifies in the presence of cold air because it's less dense. If you're saying it doesn't travel down, is that something to do with the thermal delta of the ground vs the open air? I'm too tired to think about it, atm.
@@noneyabidness7226 Heat moves up and out...not down. That is physics. Heat will be similar to a light. Most of it is concentrated near the source, and the rest is hovering all around. When heat moves, it flows to the "lowest point of resistance." In this case it will be to the atmosphere.
Great video. We have been thinking of a sand battery/earth battery and were especially impressed with the figures coming out of Finland for sand batteries' potential. The idea of using clay is quite appealing, as we too have it in abundance in Sweden. However, or headache is bedrock... We have it at varying levels under our structures. Can we use that as a heat battery or is it futile without insulation from below?
I think it works either way. Insulation or not. Your ground is probably warmer than ours, so maybe no insulation is better too
FAILURE OR SUCCESS?
Water hold the most heat. Wet material sand/clay holds more heat then dry material sand/clay. Max temp 100°C or 212°F at sea level.
What’s more cost-effective to build a well insulated water tank that holds 1 million BTUs, a wet clay/sand battery or a dry clay/sand battery. All three can be heated but evacuated tubes or PV.
A high temperature dry sand battery can be heated in excess of 100°C or 212°F by your pv
panels. You have a lot to consider.
Isolate only around and deeper
it seems to me that, the ideal combination would be a deep 6-sided insulated 'container' under the entire footprint of a building, with piping in it to transfer thermal energy into and out of it, then your "floor" above it, also with piping. you won't get the passive radiated effect, but you can then more accurately control the temperature of your "floor" layer, based on flow and intermix rates. you'd be way uprating the complexity of it though.
Thinking along the same lines, but what about taking it a step further and having that container just filled with water? Seems that we all agree that water is the best material for transferring and storing heat so why not just simplify it and maximize the storage capacity by eliminating the sand/clay?
Can you go back and put a heat sink around your greenhouse now?
I could do a battery somewhere else for sure
Use a mixing valve for your concrete heat.
A cold sink would be useful that could be heated, also more raised beds.
Good to look at earthship growing area as a cold sink.
Then a covering like a Chinese greenhouse to cut down on heatloss at nite probably on inside.
Would cut down on cost with gravel walkways, concrete is expensive.
Your friends evacuated tubes are straight up and down looks like glass in front of them, because they will collect ice and snow.
Yes, our sun is 14 degrees above elevation at the coldest point, so almost straight up and down
My concern would be when the heat dehydrates the clay it may shrink and form cracks that cause the plastic water line issues. Just something to think about. I would do a test of the clay in an oven before doing what you suggest.
Ya, or heave the concrete pad above
@@ArkopiaRUclips a proper concrete slab should handle the stress. Heaving is water expanding as it freezes in the soil, if anything the concrete should thank you for preventing freezing:) The worst outcome is probably a kinked hose or leak.
Between your videos and some others I've watched about ways to hear and cool green houses it's given me a question that maybe you've got some thoughts on.
What if you did the sand or clay battery, with the PEX tubing as well as some air exchange tubes to help pull some heat out of the ground into the air? I know in the video you said the air tubes aren't as effective in the video. But what about the combination of both methods?
If you’re digging down anyways, might as well throw some weeping tile tubes and make a fresh air exchanger. 👍
@@ArkopiaRUclips In what layer would you add the weeping tile tubes? Intertwined with the pex tubes or in there own layer between the sand?
I think that you may improve your greenhouse by putting more ground insulation at the perimeter of the greenhouse; something like 1.5m or 2m deep. This way when you heat your soil it will be an efficient earth battery that does not leak much heat to the surrounding ground. If I remember correctly you already have 0.5m insulation which is surely a good thing and the earth under the greenhouse is already a reasonable heat battery. The question is, how good is it?
Do you know how deep the perimeter insulation is at the new greenhouse of Patrick?
I did verticle insulation around the perimeter of my buildings, and also just under the ground surface horizontal insulation anywhere from 6-12 feet out from buildings. No frost getting even close.
@@ArkopiaRUclips with this kind of insulation I consider the ground under your concrete a huge earth heat battery - even if there is no insulation at a certain depth. Maybe not with the highest possible efficiency but should be good enough.
have you done any experiments with a gambion wall and a fan?
if you used air lines and weeping pipe, the temperature difference would squeeze out the humidity from your greenhouse, wouldnt conduct heat as effectively tho. also it may smell bad after a while
pumping air down a well could be better as you could have access to a 100ft deep hole worth of thermal mass, would be a more effective dehumidifier
instead on inside a well, running air lines vertically through a deep drill hole is another possibility
If you were to excavate to put in water lines, I would throw a weeping tile air pre-heater air exchanger down there. Just air would for sure pull a little moisture, but fresh outside air would really be nice in winter.
Good stuff, been following for decades, not as intensely as you. Understand the moisture content of either sand or clay can be an affect, drier holding the most heat. Can you comment?
Not a lot. I had concerns about expansion and contraction under a concrete pad though.
What size pot is that banana tree in (the first one on the concrete behind you)?
Way too small. It’s not flourishing anymore
What's the frost line in Alberta, 7'? So if you wanted to take advantage of that like in other areas you'd have to go way down?
I can see that being an asset in the summer for cooling though. I've been looking at building a greenhouse around a house like they do in Sweden. The biggest issue is actually the heat in the summer rather than the cold in winter.
Side note. I'm assuming most of the heat loss is through the windows in the winter? Why doesn't anyone build retractable thermal blankets on the exterior? I'm guessing cost?
Something that comes down as the sun drops and covers the windows to raise the R value. Then retract it as the sun rises to let the light in.
How would you pack the clay? How much moisture would be in the clay? Thanks for all your videos!!
Just a plate compactor I suppose. I guess have to make sure don’t squish or puncture water lines. Sand might be better in that respect.
i love the idea the only concern I would have is should a line ever be punctured. I suppose one could just run many different zones and cut off any trunks that are damaged.
@@ArkopiaRUclips For clay a jumping jack (small) or sheeps head vibrartory roller (big) is ideal
@@ArkopiaRUclips I've got some rocks in my clay, could use sand for the pipe layer for protection.
If your underground system goes bad, would the absorbed moisture clay freeze and buckle concrete? Or with heat and time cause clay ground below the concrete to become crumbly and unstable?
My greenhouse doesn’t have anything going, is protected from frost, and will never freeze.
For your barn i would consider using a sand battery for an air exchange unitas ventilation is crucial for animals. If you put it under the barn you will make a perfect area for bacteria to grow. As the warm bacteria rich air rises your animals will get sick and your barn will stink. Dont ask me how I know.😢
Yes. Stale, humid air is not good.👍
that is why the Chinese greenhouse use 2 foot thick clay filled walls . so they can moderate temperature summer and winter.. there are several of them near you in Alberta and even in Manitoba possibly even in Saskatchewan now too. that are growing 10,000 lbs of tomatoes per year near at the same heating cost of your greenhouse you can youtube Chinese greenhouse for more info. I built similar around a decade ago they work fine though my target temperature is not that warm as I need 3 months below zero for my plants to stay healthy as they are zone~5 to 6 plants that i am growing
just curious if you happen to know the name of the one in manitoba as I hope to be buying an average in the next 2 years and am starting to do research now.
Yes. Rammed earth clay north wall. Great idea. Especially if you super insulate it on the cold side.
@@ArkopiaRUclips I believe it is R20 insulation insulated on 3 sides . and not ram earth just a hollow cavity wall filled with clay/soil
@@adamk2894 the one in Manitoba is by Elie - Wenkai Liu . but it is the older style one that had the insulating mat on the outside. and not on the inside like the newer design has .. and was producing ~20,000 lbs per year since the early 2000's though he might of upgrade to the newer style by now as that was +20 years ago when he built them
@@adamk2894 I just looked it up he still in the phone book for elie
Based on what you know now if you were to dig out the entire greenhouse down 4 feet would you put Styrofoam insulation across the entire greenhouse, including underneath the flowerbeds and garden beds?
I would. And water pipes only under concrete
Yes, clay is best BUT any dry soil is an insulator! How would you keep your soil moist? Conversely, wet soil will drain heat away if the water can flow. So, will the adjacent planting areas keep the soil moist or will it cause water to actually run through the heat sink causing the water to move heat away?
clay doesn't allow air flow. sand works better for it. however, if you don't need air flow; then clay might be better. so how do you move the heat around? copper pipes? I would want all winter heating. so maybe your system low down and sand in the top, thin layer? With heat tape wrapped around the copper pipes, you could control how much heat goes into the ground using solar panels. Several temperature sensors could control the power going into the ground. clay really expands with water. this could cause buckling the floor. you would have to seal all the clay off.
Dean look in Drake Land Alberta the have heat storage borehul