Such an interesting video. Thank you for the no shade to those of us who use AC. My AC broke a little over 2 weeks ago and living where I do that is just torture. I'll be glad when we get it fixed hopefully next week. I think before those of us with AC can cut back, we need big companies to cut back on what they are doing so the planet can start cooling down, and then we'd all need the AC less. We used to actually have Fall and Winter where I live. Now we just have Summer and Slightly Less Hot Than Summer. I miss snow so much. I really hope we can start reversing what has been done to the planet. Hope everyone is staying cool as they can for now. ♥
don't suffer for the elites... you not using ac is doing absolutely nothing when rich celebrities and elites are still flying on private jets. crank that ac up!
Just a couple points about these coolers: Due to the method of operation being evaporation these coolers increase the humidity in the air, this has the effect of making the room feel hotter than it is, and in situations where there isn't much air flowing into the room and there is a lot of heat going in it can feel even hotter than it would have been without the cooler. Another effect is the lessening effectiveness of the cooler itself as both the temperature decreases and humidity increases, eventually stopping to work completely if and when the dew point reaches ambient temperature, otherwise known as 100% humidity. All of that is not to say that these coolers are bad, just that they are situational, and generally they work better outside. In my city the temperature this noon was 35C with 66% humidity, which would make the dew point somewhere around 26C. This is the absolute lowest temperature this cooler could achieve here, and with the increase in humidity it would feel quite terrible. And indeed when working under similar circumstances and using an evaporative cooler with a massive fan there was barely a difference, even the flow coming out of it barely felt colder. A desiccant based system would work better, but be a lot more complicated to install and maintain. However, another city in my country regularly sees temperatures of around 42-43C throughout the summer with heatwaves reaching as high as 49C, except with humidity at around 15-20%, which would make the dew point somewhere around 10-20C(it would be closer to 10 in most circumstances). This makes such coolers extremely effective there.
agreed! I live in a dry place and evaporative coolers are really common. Growing up we had one that was essentially a wet bale of hay with a fan behind it - all cased in plastic. Someone in my city built a wall of stacked porous ceramic pieces similar to this that acts as a water feature on the western wall of their house that gets a lot of evening sun. In this dry city this makes a huge difference to the heat in the room. It does use a fair bit of water though! In dryer climates this can also be an issue (but not a CO2 issue)
Disagree. I am not an expert, but as she already mention it, is the evaporation process that extract energy (aka heat) from the environment. Indeed your are increasing the humidity of the room, but this is not an open place. This is an old technique proven to work. Maybe with a small fan it will increase the circulation of air between the pipes and then make it to work better.
Yup. If your air is full of water then you don’t evaporate sweat effectively. The only time I got heat stroke was near rice fields. The air was very humid.
Great point. These are the equivalent of "Swamp coolers" often used in the dry Southwest of the US. I lived in Alice Springs Australia and whole house evap cooler are the norm. They work well there until it rains and then it's very unpleasant. The user of potable water is also a problem not unlike carbon emissions. The point? Nothing free and we didn't get where we are by accident. It doesn't mean there isn't a different way forward, but if it was simple, we would have solved it years ago.
As someone with a science background, my suggestion is to put them on an outside wall like what you show in the beginning. As you have it now, the heat goes from inside the clay (the water) to outside the clay (the room). Currently, you just have water coolers in the middle of the room. If you make the room the inside of the clay, heat will move outside of the room.
Put pipe between that absorbs cool easily and have a fan blow air thru it, the clay cools the water and the water cools the air as it gets pushed into room
You are right and wrong at the same time. If there is a small air ventilation from outside to the inside and again out, and you emit air with more water vapor than what came in, you are cooling the inside. If you evaporate in the outside surface, your cooling will dissipate to the outside more than to your room cause the wall acts as insulator. But if you have enough water to evaporate it would work.
Growing up in Egypt, we used to have those clay jars where water remained cool, despite high temperature. It was so refreshing drinking such cold water in hot summer days, without refrigeration.
@@pablosegundogarcia5308 we call them "Olla".. pretty much like the word "Hola" in Spanish, but the H is silent and there is an emphasis on the L: "Ol..La"
I know this goes against your "passive cooling" concept, but you could increase the evaporative effect by training a fan on the pottery. As others have mentioned, this concept works very well in climates with low relative humidity. High humidity doesn't allow the moisture to evaporate and the cooling effectiveness is significantly reduced. This exact same concept can be used to make a water chiller (as you mentioned, the water in the tubes gets quite cold) it makes for a refreshing drink! I found this project really interesting!
What an amazing video. I can totally imagine that I would work in dryer climates. Right now I live in Brazil and the humidity is so high, that this will only give more mold but I can totally see it working in more dry climates. Really cool video. Well done!
@@travelingonestepatatime Yep, in areas with high humdity, you get no cooling and it doesn't increase humdity either. You're pretty much stuck with actually submerging yourself in a cool water or drinking cold beverages to remove the heat.
Just placing them in an open window would help circulate the air around them, and more surface area would improve cooling. A greater number of smaller diameter tubes, maybe texture the tubes as well.
Maybe not the best as a cooler (unless you live in a very dry climate where swamp coolers are actually effective), but these would make great little indoor humidifiers for a plant room! Having a fan on them to increase the evaporative effect would also help.
In addition to the fan, which is going to help a lot, a grooved surface would nearly double the surface area for a lot better cooling. Probably look nifty too. I would also consider using a low fire glaze on the inside and outside of the bottom inch or so. If your evaporation keeps up with the seepage, you might get way with no drips. At worst, it will stop you losing water to wicking from the towel or surface it is sitting on. Finally, lids to keep the mosquitoes from breeding in there, avoid drowned mice, etc
honestly though does the towel itself not act under the same purpose in this situation? The towel is absorbing and evaporating water on a much greater surface area than all of the tubes combined
I would've definitely tried this when I was in Arizona! Here's how I would redesign it: - Smaller tubes for more surface area. Use a small pipe to help them keep their shape. - Arranged with a small gap between each tube into a panel (think radiator) - Make the base hollow so that filling one tube flows into the rest of them - Add another connecting piece across the tops for support - Make a small hole at the top for filling the tubes. Closed with a clay lid or a leftover wine cork - Sized to fit on a shaded window's sill for air circulation - Place multiple panels with the tube positions staggered
Those seem fairly difficult to pull off with clay, but I guess if you make the pieces separately there should be a way to assemble them in a clever way? I dunno, seems pretty complicated though.
You cannot expect a cooling effect the way you envisioned. A/C is essentially a heat pump -- you move energy from one place to another. In your setup you are moving energy from the water to the room via evaporation. This does NOT remove any heat from the room. What you have made are some awesome water coolers.
This was also my first thought. However, the phase transition from water to vapor does take a lot of energy, so as long as the evaporated water doesn't recondense, this setup should reduce the overall heat in the room somewhat - at the expense of increasing humidity. In other words, some of the heat energy is transformed into latent energy. Still, it would probably be more effective if the water vapor could be transferred outside somehow, like building this into a wall and wetting only the outside surface.
star max ur wrong it’s still a heat pump the condenser just is the entire planet as the water goes to vapor in the room, it cools itself and it’s surroundings as the vapor goes to water outside in the atmosphere, it warms itself and it’s surroundings there’s that heat u pumped out of the room..
@@knutfranke6846 The reason "swamp coolers" don't work in real, moist air swamps, is because there is no place to transfer the heat collected by the water during evaporation. The dryer the air, the better they work. And, yes, humans perceive a cooling effect when the water vaporizes -- up to a point. Have you ever lived in really moist climates where even sweating doesn't work? But, I stand by my statement that, unless you can move the water vapor out of the room you have not changed the total energy content in the room.
@@lezzbmm Yes, it is a heat pump: out of the water into the "air" of the room. Once the water evaporates from the outer surface of the clay structure (pot or tubes) what control does the clay structure have over it? Please help me understand how the clay system controls the water vapor to make certain it exits an enclosed room without transferring heat to the room???
I'm an American, and I thought it was odd that you thought 67F was hot, because in my area we usually prefer temperatures between 70F and 72F. But I converted 23C to Fahrenheit and it apparently comes out to ~73.5F, which feels much hotter and is personally out of my personal comfort zone. Very neat video, very fascinating. Just wanted to be an American and point out the Fahrenheit thing lol
The main thing that determines how well this technique works is humidity. If the environment is dry, these work *really* well. If the environment is humid, they will do almost nothing. Other folks mentioned a fan - that would help move that cooler air around and make it more efficient. But if the region is humid, they unfortunately won't do a lot
@@PotterytothePeople less but you'd have to really check. Air conditioners *are* dehumidifiers inherently as part of their behavior, but they do a bit more. It's a trade-off. The thing we really need to do to be sustainable is change how we build houses so we can let them not get so hot in the first place - like the Passivhaus concept
@@PotterytothePeopleAir conditioners, dehumidifiers, refrigerators, and heat pumps are all the same inside, but connected differently. An air conditioner takes heat from inside and dumps it outside, while a dehumidifier dumps the heat inside. It makes the air less humid but warmer. A heat pump water heater takes heat and humidity out of the air and puts it into hot water. If you are heating water and dehumidifying anyway, it is quite efficient. Evaporation coolers work best where it's dry and water is scarce, and worst where it's humid and water is plentiful. An air conditioner (refrigerator,...) also cools by evaporation, but contains all the evaporated coolant. By compressing it, it causes condensation and release of heat, in a different place.
@@PotterytothePeople A dehumidifier usually just cools down a surface for water to condense on, and is seldom as efficient as an AC unit. So for the same amount of cooling an AC would be better. That said, it is possible to make desiccant based cooling systems that would provide cooling without raising humidity, the channel tech ingredients made one, but in order to dry the desiccant heat needs to be reintroduced, so you'd probably want at least part of the system outside.
Since you live in Germany, I suggest you talk to your neighbors about lüften. My family tends to open up windows at night, close them up in the morning and then bring the rollos down wherever the sun is shining from, so the heat doesn’t come in as quickly. Then as soon as it gets hotter indoors we make wind by tying all the doors up and opening specific windows. If you are using humidity cooling (which you are) you need to cycle the air more, as it will make it stuffy.
One degree cooler IS actually a lot cooler. 23c to 21.5c is gonna make you feel much much cooler. I come from India, and we try keeping temperatures inside our homes around 21. I think this really works
That’s definitely true! I also suspect it worked better than I thought too because it got really hot that day but the room stayed cool! 😄 Thanks for watching :)
@@PotterytothePeople I was going to mention this - the room didn't get any hotter! Also I would place it in the hottest part of the room to maximise evaporation - by a window or in the sun, and add a fan behind it or place it next to an open window. My colleague at work used to pin a wet towel over her open window sitting in a tub of water! It worked a treat. Also, you maybe just learned a bit more about managing the temperature in the studio by closing the door and window - it's a win all around i think!
23C is 73.4F and 21.5C is 70.7F that is almost a 3 degree F drop which makes sense since F = 1.8C +32. Quite impressive actually! This is a pretty neat passive swamp cooler.
No it won't feel cooler at all, as it is raising the humidity also, making you feel hotter. The increase in humidity will more than negate a 1 degree difference. Also, this will not work in areas where it is hot AND 70% or higher humidity, it'll barely function. For example here, where I live, it was just 91F and 85% humidity, this would not work.
Look up evaporative cooler or swamp cooler. We use those in the SW USA. your idea is great. You need a fan to push the cool air around. Try putting a fan to blow across the wet tubes and crack a window to let the air circulate.
I am also in SW US, we are the weirdos that prefer using our evaporative cooler instead of the air conditioner. We are regularly seeing daily temperatures of 110. It’s not *cold* in our house, but it’s summer, I don’t expect to be cold this time of year. (I was shocked it was 67 in your home during summer, that is the temperature of my home in winter 🤣). Anyway, for summer, we do have fans that help us sleep at night. Also, as for the idea to bury these and allow roots of plants to drink up the water-this system is called the “Olla” and developed by indigenous peoples native to dry desert climates like mine.
Love watching the process and living vicariously. I don’t have a kiln but I do have a number of small terracotta plant pots (and some broken ones). I wonder if stacking them together would work…
I think if you put a fan behind them you would get or at least feel a better amount of cooling. I think they would work on the same theory as the "swamp coolers" my brother uses in CA. It uses a water cooled EVAP coil. Anyway they make for a really cool sculptural piece. 😊
You should try putting them in front of a fan or an open window, the air movement will help the water evaporate faster and mix the cold air around the clay with the air in the rest of the room
I think it’s amazing and cooling the room 1,5C is much, considering that the room would only have gotten hotter because of mid-day temperatures rising. The fact that it didn’t go higher, but even lowered is just awesome, also given the fact that the structure isn’t that big. It works! I love it 😻
I just started watching the video but I can tell you Yes, this will work. This also works with bamboo. You need to drill holes in the top 3-4 inches (some have made designs with drilling the holes.) It works better if you have a small fan placed tilted up with the tubes circling it set on the lowest setting. Green bamboo is best. We did this as a science project.
Even if your experiment didn’t work out how you had hoped, it was fun to watch and I appreciate your continuous ingenuity. It always inspires me throw caution to the wind and experiment with the clay to develop better ideas & ways to work when it comes to our art pieces. Bravo! 👏🏻 👏🏻👏🏻
In Iran, there are yakchal (early fridge) and a type of structure called a windcatcher for this purpose. The windcatcher actually doesn't need wind to work, and has been used since ancient times throughout the Middle East.
I used to make single tubes (with bottoms) and a hole up top for a hook as humidifiers to be hung on water or oil filled radiators (not electrical ones). Great for windowsills with plants, dry winter air etc. Never seen this idea but it will at least humidify the air. You can color the clay with maison stains and still be porous. Make them look like bamboo with a little design adjustment. Interested to hear the verdict on function!
I think it worked great. You should have compared the room temperature with the temp outside. I guess after a couple of hours the temperature must have raised outside but in the room it was kept 21.5 which is very pleasant. Also I think this works better with a roof fan or a continuos current flowing in the room (at least two openings) and with low light. Great job, beautifully made.
Run a fan onto your cooling tubes. This will increase the rate of evaporation and spread the resulting cool air around the room. This is basically a deconstructed swamp cooler :)
This was really interesting, but it made me laugh when mentioned the temperature. I’m a southern Californian and it’s typically around 40C in the summer time, and 20C is cool for us. We would never use the AC in those temperatures.
The concept is great…placement and airflow could make a big difference. I look at your project as a jumping off point for some fun functional art. Thanks so much! 😊😊😊
I think this will be more effective with open rooms, as the idea would be for the air to take the vapor away and thus cooling it down. Another thing to note is the region you're in. This will certainly be more effective on less humid regions, as it requires the water to evaporate to cool down. You can also combine this with a fan in order to make it dry up faster while also spreading the 'cold' out of those tubes
Lovely work! don't give up on it. When I was growing up in Sydney, we would put small towers of terracotta pots filled with water on the verandah of the house and it really did drop the temperature. I think the design of the one that you show at the start has a few benefits that you could play with: being external to the house, being a whole wall, and having small small tubes that create a much bigger surface area by twisting kind of like our brain does. In theory screens made like this that could fit into your window or door should work - ideally not in direct sun.
It works in a static situation until the cool water is equal to the outside of the container temperature. The water becomes a heat sink for a bit of time. Keep air moving across the tubes and the room will cool but get more humid until things equalize. The swamp coolers recirculate water and fresh cool water is mixed in as the water evaporates away which takes heat away. Static tubes only make for a temporary heat sink.
You're on the right track. When it's hot outside, my mom has always used the technique of filling up the bathtub with cold water early morning. I wonder if using a fan would work? Strategically placing fans in corners of the house to help circulate and create a nice breeze.
I'd be interested in seeing another update when the weather is warmer. I wouldn't run the A/C at 67F so testing it at that point doesn't mean anything to me. Plus, it would probably do a lot better in higher temperatures.
A few things that might help. 1. Increasing surface area by introducing ripples into the clay. Squish it a bit one way and squish it again another way slightly above it until you get something undulating? 2. Setting it near your window, with the top covered with a cloth or something. The wicked water can get the extra boost to evaporate using the sunlight. The cloth is to keep sunlight away from the internal water to prevent algae growth. 3. Instead of adjacent flowering pattern, have a linear wall with some gap between each tower. Against a window, it would provide more shade against the warm sun. If you want more sun, just shift the towers farther apart. More shade, shift them closer together. A really cool video. It was entertaining to see you explore the idea.
Interesting info to add to the convetsation, in South America, torids or terra cotta donuts would be filled with water and placed in an open window as an AC. If you put a fan next to them or had them in an open window, it should work. Great video as always. Love how you think out of the box.
Something that you could try to improve cooling is adding in a solar-powered fan to blow air past the outside surface of the tubes. This will aid in evaporation, and pass warmer air across the surface of the tube so that air will be cooled. It may not be a phenomenal difference but essentially the only thing your missing is moving air... In my opinion.
Very interesting video, thank you for sharing! I think that your experiment worked better than you think it did though; you noted that the room started at 23 degrees C and that that was 67 degrees F. In actuality, 23 C is closer to 73 F which means that your experiment dropped the temp by 3 or 4 degrees, not 1! And every little bit helps!
Yeah, I think she misread the thermometer when looking at F degrees, it made no sense that the C degrees had a bigger drop than the F degrees. So it worked better than she thought. :)
That's a really interesting approach. It will cool the water that is remaining inside the tubes . You can use the cold water. If you can get the moisture blown outside your house it will take the heat away and cool your space.
These things are great for cooling water, typically the dryer your climate the better they work because of evaporative cooling. For you maybe a small solar powered fan blowing over them might help a little. But living in a wood framed house this type of cooling can cause humidity problems like mold and rot. I put mini split units in my house because of their efficiency.
As someone who has always been into science but used to be very into creating art, especially with clay, I am so very glad I stumbled upon this video. I have my grandma's kiln in storage and look forward to finding a place I can put it to use so I can explore concepts like this. And, say, terracotta cooling of larger volumes water.
I loved this video and the thoughts and motivations behind it so much! I'm an evaporative cooling hobbyist and I'm sure others have said how you're actually so close to making this a practical thing to use to cool your home especially in Europe! All you need is a fan or some air flow with an exhaust to let some humidity and air push out! Passively moving that air is difficult though so I understand your apprehensive to add an electric fan. Maybe run it on solar from the roof with a small 100w panel? Very excited to check out more of your channel
You might be able to slide those clay tubes onto some cardboard tubes to dry them, or maybe try hanging them to dry to prevent wrinkles from forming on the bottoms.
Hi! What you did totally works, all throughout the world porous clay is used to cool down things when coupled with water, in Spain we have this same concept but as a water bottle, thing is, for the cooling to happen, counter-intuitively, you have to let the air flow so the room draws drier air in, basically there is a lot of energy going from the water into the evaporation proccess. But long story short we basically make clay sweat, much like we do.
Also, if you don’t have an extractor, these tubes could be made with slabs and stuffed with lightly balled up newspapers or something similar, to help them hold their shape while drying . I’m a retired teacher - what a fantastic science experiment this could be! And artful too - let kids carve in designs…
I love the marriage of science and design in this project!! While not good for the environment, a cut pool noodle could be used to keep the tubes upright as they firm up
You need a fan with this, the air flowing through these tubes will transfer the heat from the room to these tubes while the cooling is spread across the room. This concept is famous with evaporative cooler, which can cool the room as much as 10 degrees Celsius. In India they use the water evaporative cooler which keep the rooms pretty comfortable 25 to 26 degrees with moderate humidity.
I love seeing the creative process with artists in different mediums. The same way you look at a bent tube and go "ah, looks like coral" same exact thing with music and 2D art haha.
In India they use the top of 2 liter bottles as air conditioners. They cut off the top 3 inches of the bottle and attach the funnel in a hole on a piece of plywood. They then put the plywood ina. Window with the wide opening facing out. The funnel catches the air and it is compressed slightly as it travels through the narrow portion. As the air expands back out it cools. The heat, I think is absorbed into the neck of the bottle and into the wood.
LMAO! you know damn well the algo is gonna make this shit widely viewed because of the BS she said about AC and global whinning. idek why i or how i got here
Works even better with a fan or natural wind flowing through the passive cooling elements. And they are best located in the warmer sunlit part of the room like next to the window. It can also serve the dual purpose of being a flower vase or a water storage pot like what the ancients have done to cool both the water and the kitchen space
Wrap burlap around half of the pipes and expose to direct sun after wetting the burlap will cool the water inside the pipe dramatically. But the burlap portion would need to be outside on a window ledge.
I grew in northern Haiti, a small island in the caribbean and I remember we didnt have electricity 24/7 and my grand parents would literally get a big clay jar and fill it with water and just place in a corner. Water would be cold when you drink it. So I think this concept could definitely work. Just get big enough jars or tubes made of clay in place them in the 4 corners of the room and you have fresh water as well as cooling system in the room :-)
Hi. Maybe I can help. The purpose for those is to act like a swamp cooler. The evaporating water takes the heat with it, but too much in a room will increase the hot humidity level. 1) You need to place them somewhere in the house where the wind blows past them, or blow a fan past the tubes and direct it into the house. 2) You need to keep at least one window open for the hot humid to exit. Otherwise, the room will become extra hot with the hot humidity in the air I hope that helps
Where I live it gets to 115 degrees easily in the summer. You have a choice of AC (most homes have it) or a swamp cooler (evaporative cooler- water wets pads air gets pulled though and cools the house drier days it’s most effective humid days useless). We definitely do need an alternative and dig inward and use underground cooling like they did in ancient times
I really enjoyed the whole process and your efforts and honesty. although a suggestion that if you had them presoaked earlier and then poured water to test the cooling extent you would have gotten better results and put it somewhere more air circulation is present.
I did a similar experiment. I had read that some people use 50 gal drums of water In green houses. They would absorb heat during the day and then release heat at night keeping plants warm and alive. My experiment had no pottery involved but I had similar results. With only one degree of temperature change across all my variations. So a lot of work for small results.
Evaporative coolers usually work best in arid environments. They work by adding humidity to the air, so it will be ineffective any place that's already somewhat humid. My old apartment in Arizona had a cooler that worked on a similar principle. Basically, a piece of porous mesh was saturated with water, and then air was drawn through the mesh and into a duct system. This worked decently well in the desert, achieving around a 10-20 degree difference depending on the day. This isn't a passive cooling system, since it does use electricity, however, it uses far less than AC for good results.
In order for this to work, you need a constand airflow through the tubes. The cool water will help coolong the air and THEN you will see a dofference. This only works on ventilated environments because they increase air humidity, so avoid keeping all the doors and windows closed. If the humidity in the air grows above a certain point, your body sweat wont be as effective and you will feel even hotter
For that to work efficiently as an A/C, the pipes are supposed to be placed in a way that air (from outside the room) is exchanged through the wet pipes. the object you did here is more likely to help keeping the water inside the pipes cool, by "sacrificing" a small amount to evaporation.
I think 1 side of the room just covered with cooling pottery is doable. Some culture would use wet piece of fabric and hang in their room, beside their window. Cooling pottery is pretty nice because I assume it retains water much more. Some modern version is water curtain or water running along a feature wall.
One thing that improves the ability of evaprative coolers is air in motion. A small fan near the tubes would increase cooling. It would also be good to see the tube do a 24 hour cycle.
In Brazil is very common in houses have a "Filtro de barro", a pottery filter for water. It is very efficient to cooler the water and makes it drinkable.
To cool the house, create a wall like that with the outside being porous and inside sealed. The evaporation outside will cool the wall and that will absorb heat from the room without increasing humidity. Before considering it an ecological solution though, perhaps do the calculations of how much energy is used to provide the water consumed… that would be an interesting one to me
We use evaporative cooling in New Mexico, US. I think if you used a fan to direct the cooled ambient air, you would likely have better results. The reason perspiration works for humans and other creatures with sweat glands is because the air moving across the skin dries the sweat, thus creating the cooling effect. It’s not necessarily the presence of moisture; rather it’s the presence of moisture in addition to air that has some movement. We also find that our evaporative coolers are useless if the environmental humidity is above 25-30%.
I think the most important part would be to have that as part of the wall or near a window so that the air coming through would increase the evaporation of the water and cause the cooling of the air as it flowed through and into the home. Another part of the system is that there are air vents at the top of the wall near the ceiling that let warm air rise and escape..that causes air convection, air brought in lower and past the wet clay coming in and cooling and displacing warm air that rises and escapes out the top vents
For it to make a difference in the room you have to have someway for the evaporation to escape the room and take the energy out while maintaining the coolness inside. The old tech was probably used as windows to open but slightly shaded areas in dry climates. (Think courtyards) this allowed evaporation to be carried away from the device while producing a cooler (slight) breeze likely towards the center of the courtyard depending on placement.
Hang a big wet towel over the window. Better if the shades are drawn and the window a little open. As the water evaporates the room will get cooler. It's not the same as ac but will make the temp tolerable in that room. As soon as the the temps go up in the spring I hang my towel and wet it as needed with a squirt bottle. I usually exchange the towel once a week to wash because it can get dusty. I liked your experiment.
To allow them to dry, you stiffen the inside. I am thinking of a terrycloth towel wrapped around a paper towel tube or more, that way the towel allows air in a little bit and the structural integrity you seek is provided by the paper tube.
So its a ceramic swamp cooler. Pretty cool! As long as you live in a low humidity area (southwest US), this would work really well. In the higher humidity areas of the country this will not work nearly as well. For the more humid areas, one might try using desiccants to dehumidify a room as an alternative to electric dehumidifiers. However, when the desiccant is saturated, it will require some sort of energy to dry it out for re-use.
This is a fun project. You could have tested the A/C with terracotta flowerpots or wet towels. This principle works very well for wine coolers and water canteens.
two things : requires a dry atmosphere (think swamp cooler, American southwest) and airflow. If it is humid then very little will happen. It works because although it would need a fan it would not need a compressor. Some of these large structures built in deserts can freeze water. So, dry desert air, a source of water to supply the porous tubes and airflow to remove the heated, evaporated water vaporer to the outside. If done correctly you can make ice cubes!
The cylinder is the least possible surface area to volume shape possible that you could use for this concept. It looks like your extruder make a 2 1/2 to 3 inch pipe. If you flatten that down until the inside is around an inch or so across then you would be able to stack many more side by side and make an evaporative radiator. Put a box fan behind it and you have a swamp cooler. They don't work so well here in Louisiana due to the high humidity, but in a dry location they work quite well.
Beginner potter here. What would happen if you wrapped clay around a card board tube of appropriate diameter to get your tube shape. If there was a problem with uneven drying,maybe wrapping with wet newspaper? You could fire the whole thing, tube and paper.
The dryer the air the more efficient they will be, also having a small breeze across them will add to their effectiveness. They function on the same principle as a swamp cooler, just does not use electricity.
If you place this array this high near the ceiling, then convection currants will cool the entire room. Right now you are just cooling the floor. The hottest air is high in the room, the cold air drops downward, then more hot air moves in to the cooler.
Ok, those of you in dry environments can use these water coolers. Where I’m at, the humidity starts every morning at 100%. Then gets down between 50%-70% during the hottest part of the day. Like right now it’s 100° and 58% humidity. Water coolers in a humid environment only raise the heat index.
This is one of the best UA-cam videos I have ever watched! I teach ceramics and I will be sharing this with my students and how creative we can be with this ancient building material. Cheers!
It's worth noting that evaporative coolers only work in dry environments. They aren't nearly as effective, in humid environments because of the air saturation, so your mileage may vary. One thing you could do to increase cooling capacity is to hide a small fan behind the tubes. The air passing over the surface will increase the evaporation rate.
A/C is powered by electricity which is fully sustainable on a green energy grid. There are modern versions of AC which don’t rely on HFC or other GHGs. In northern CA the energy grid is already 80% renewable in hottest major cities where it hits 45C regularly in the summer. There is also highly reflective paint that can cool a house as much as AC and/or take much of the load off of AC. A house with high reflective paint, solar panels, and a heat pump can keep a house at 20C easily even in 45C weather while still generating excess power to return to the grid.
I just had a thought what if they were up high, like on a shelf where the air is warmer the they would cool the warm air, that could work better. I love thelook of them!!
You need to add a fan to blow the air through the clusters. Also, these should be kept on a high shelf in order to cool the top air in the room which will in turn mix downwards as cold air is denser than hot air. So have these on the top of bookshelves surrounding a ceiling fan. Have fan rotating that that airflow goes up. It will then spread towards the clusters and then cool down and roll back down to the ground.
We still use evaporative coolers in HVAC design. Most of them are large scale for commercial buildings that require a lot of pvc piping and water. They make small portable ones but like you realized, the size of the unit would have to be massive to make the temperature change you want. They best way to stay cool, for free, would be to live in a dirt/mud house, the earth will keep the house around 60 degrees F year around. plus, it is sustainable.
You could use clay/earthenware pipes to blow air through and fill the outer layer with water from a reservoir to achieve a much greater cooling effect. There are a lot of natural cooling methods like this using underground reservoirs
If you plan on making more of these , I’m not sure what the diameter of the clay tube is but if it would fit you could hot glue a pool noodle to a flat plate or board cut to your desired length and once you extrude your clay tube you could slide it over the pool noodle to hold it upright while drying 🤷🏻♀️ if it’s diameter is bigger then a pool noodle of course
67f is already fairly cool. I'd be curious to see what the tube's do to a room at around 75f. Also I imagine airflow would effect the rate of evaporation. Just a slight breeze from a ceiling fan could create an amplified effect. I also image this would be more effective the dryer the climate is.
If you want this set up to work as an AC you need the air moving, The through draft in the room ideally (even if it is warm air) from a window with the clay pipes in front of (or near) the window and you would want your clay structure on a table cause cool air sinks. The high tech set up is a fan behind the clay structure and a open window opposite the clay pipes. The clay pipes is a cooling unit but without fans, air flow, or thermodynamics to move the cooled air around the room it does nothing. The sculptures look awesome and you worked really hard on them so I want them to have the best chance they can get of working. I hope you would test out the clay structures again with these suggestions.
Great video thank you, but i would like to see you have another go at it, my feeling is that you need a greater surface area exposed to the atmosphere. i think it would have been okay to lay the pipes down while drying so they came out as flat panels, maybe a strip of cardboard to avoid sticking together. i did like the quirky bent tubes but you could make flat panels with maybe a half inch of water between?
In New Mexico's dry heat we use swamp coolers which are basically the same concept: a diy version is to just hang a white towel across a sun facing window and feed the cloth a small waterline to keep it quite damp, as the sunlight heats the cloth the water is evaporated to the outside and the temp inside the room drops. If you have a rafter window its ideal, the colder air is displaced by rising heat creating natural air circulation.
If you arrange them with a fan blowing air between them, You will find they will cool much more. During the 50's and 60's in Phoenix we used evaporative coolers to cool our homes. They had pads that were kept wet from running water that a fan pulled air through and into the house. The interior of the house was a breezy 80 to 85 deg. F., when the outside temp. was between 110 and 120 deg. F.
Lids would be welcomed if you don't plan to grow mosquitoes, and an air circulation system, not necessarly active, would be useful as well. For my living room where there's no AC, I wet a towel by soaking it in water then I put it in front of a pedestal fan, it works (in my mind at least)
Result was around what I was expecting. In a room with no air motion, it would not really be able to distribute the cool air. And what little distributed cold air would sink to the floor. This may work better if their was a fan blowing through the tubes. Of course you would have to make a large selection of tests and conditions to get an idea if this really works. But it is an interesting concept though. When I was a kid, we lived in a farm house out in Oklahoma. No AC, and I have no memory of it being super hot. The house had windows that we would open to make wind tunnels. This would cool the house. We also had fans at certain locations.
I just wanted to offer the idea that you should create a form out of wood or cardboard sized to the inner diameter of the extruded tube to support them as they dry. Waxing the surface of the form should help avoid the clay sticking to it. As someone already mentioned, adding texture to the outside of the tubes would increase surface area for cooling.
BTW, u can drink the water that is sieved out of these, because it would be filtered, also u still can make them like Vases and fill them with water without over firing them or glazing, and it will have the same effect with a better shape.
Such an interesting video. Thank you for the no shade to those of us who use AC. My AC broke a little over 2 weeks ago and living where I do that is just torture. I'll be glad when we get it fixed hopefully next week. I think before those of us with AC can cut back, we need big companies to cut back on what they are doing so the planet can start cooling down, and then we'd all need the AC less. We used to actually have Fall and Winter where I live. Now we just have Summer and Slightly Less Hot Than Summer. I miss snow so much. I really hope we can start reversing what has been done to the planet. Hope everyone is staying cool as they can for now. ♥
you’re so right! 🙌🙌
don't suffer for the elites... you not using ac is doing absolutely nothing when rich celebrities and elites are still flying on private jets. crank that ac up!
Where is this?
Perfectly said!
Can you share what location is that?
Just a couple points about these coolers: Due to the method of operation being evaporation these coolers increase the humidity in the air, this has the effect of making the room feel hotter than it is, and in situations where there isn't much air flowing into the room and there is a lot of heat going in it can feel even hotter than it would have been without the cooler. Another effect is the lessening effectiveness of the cooler itself as both the temperature decreases and humidity increases, eventually stopping to work completely if and when the dew point reaches ambient temperature, otherwise known as 100% humidity. All of that is not to say that these coolers are bad, just that they are situational, and generally they work better outside.
In my city the temperature this noon was 35C with 66% humidity, which would make the dew point somewhere around 26C. This is the absolute lowest temperature this cooler could achieve here, and with the increase in humidity it would feel quite terrible. And indeed when working under similar circumstances and using an evaporative cooler with a massive fan there was barely a difference, even the flow coming out of it barely felt colder. A desiccant based system would work better, but be a lot more complicated to install and maintain.
However, another city in my country regularly sees temperatures of around 42-43C throughout the summer with heatwaves reaching as high as 49C, except with humidity at around 15-20%, which would make the dew point somewhere around 10-20C(it would be closer to 10 in most circumstances). This makes such coolers extremely effective there.
Love finding these treasure troves of information in the comments!
agreed! I live in a dry place and evaporative coolers are really common. Growing up we had one that was essentially a wet bale of hay with a fan behind it - all cased in plastic.
Someone in my city built a wall of stacked porous ceramic pieces similar to this that acts as a water feature on the western wall of their house that gets a lot of evening sun. In this dry city this makes a huge difference to the heat in the room. It does use a fair bit of water though! In dryer climates this can also be an issue (but not a CO2 issue)
Disagree. I am not an expert, but as she already mention it, is the evaporation process that extract energy (aka heat) from the environment. Indeed your are increasing the humidity of the room, but this is not an open place. This is an old technique proven to work. Maybe with a small fan it will increase the circulation of air between the pipes and then make it to work better.
Yup. If your air is full of water then you don’t evaporate sweat effectively. The only time I got heat stroke was near rice fields. The air was very humid.
Great point. These are the equivalent of "Swamp coolers" often used in the dry Southwest of the US. I lived in Alice Springs Australia and whole house evap cooler are the norm. They work well there until it rains and then it's very unpleasant. The user of potable water is also a problem not unlike carbon emissions. The point? Nothing free and we didn't get where we are by accident. It doesn't mean there isn't a different way forward, but if it was simple, we would have solved it years ago.
As someone with a science background, my suggestion is to put them on an outside wall like what you show in the beginning. As you have it now, the heat goes from inside the clay (the water) to outside the clay (the room). Currently, you just have water coolers in the middle of the room. If you make the room the inside of the clay, heat will move outside of the room.
Put pipe between that absorbs cool easily and have a fan blow air thru it, the clay cools the water and the water cools the air as it gets pushed into room
Also - The experiment does not really say anything without a control. For all we know, the room could have been 20C or 25C without the evaporators.
You are right and wrong at the same time.
If there is a small air ventilation from outside to the inside and again out, and you emit air with more water vapor than what came in, you are cooling the inside.
If you evaporate in the outside surface, your cooling will dissipate to the outside more than to your room cause the wall acts as insulator.
But if you have enough water to evaporate it would work.
If you don't use them as AC you might consider partially bury near a tree or plant and using them as a water reservoir for the plants :)
yes I thought the same!!
Or as nest for mosquito
If you fill it with coarse sand, and then water, you won’t grow mosquitoes
It would work better in a window with cross breeze
Like an olla😊
Growing up in Egypt, we used to have those clay jars where water remained cool, despite high temperature. It was so refreshing drinking such cold water in hot summer days, without refrigeration.
How are they called there? We call the "botijos" in Spain.
@@pablosegundogarcia5308 we call them "Olla".. pretty much like the word "Hola" in Spanish, but the H is silent and there is an emphasis on the L: "Ol..La"
Funny. "Olla" in Spanish means "pot".
Although we pronounce "o-ya" not " ol-la".
Thanks buddy!
Same concept in India as well, we call them Matka (clay pot in Hindi) or Mann Paanai (clay pot in Tamil)
In Javanese we called it KENDI
I know this goes against your "passive cooling" concept, but you could increase the evaporative effect by training a fan on the pottery. As others have mentioned, this concept works very well in climates with low relative humidity. High humidity doesn't allow the moisture to evaporate and the cooling effectiveness is significantly reduced. This exact same concept can be used to make a water chiller (as you mentioned, the water in the tubes gets quite cold) it makes for a refreshing drink! I found this project really interesting!
What an amazing video. I can totally imagine that I would work in dryer climates. Right now I live in Brazil and the humidity is so high, that this will only give more mold but I can totally see it working in more dry climates. Really cool video. Well done!
@@travelingonestepatatime Yep, in areas with high humdity, you get no cooling and it doesn't increase humdity either. You're pretty much stuck with actually submerging yourself in a cool water or drinking cold beverages to remove the heat.
Just placing them in an open window would help circulate the air around them, and more surface area would improve cooling. A greater number of smaller diameter tubes, maybe texture the tubes as well.
Maybe not the best as a cooler (unless you live in a very dry climate where swamp coolers are actually effective), but these would make great little indoor humidifiers for a plant room! Having a fan on them to increase the evaporative effect would also help.
❤best comment! A fan would make this 10x more effective.
Spot on about the ambient humidity. Similarly, they sell those humidifiers as air conditioners here in the humid Midwest and they don't do anything.
In addition to the fan, which is going to help a lot, a grooved surface would nearly double the surface area for a lot better cooling. Probably look nifty too. I would also consider using a low fire glaze on the inside and outside of the bottom inch or so. If your evaporation keeps up with the seepage, you might get way with no drips. At worst, it will stop you losing water to wicking from the towel or surface it is sitting on. Finally, lids to keep the mosquitoes from breeding in there, avoid drowned mice, etc
Great ideas!
I wonder if adding spines to the grooves would work as well - a ceramic cactus cooler :D
Personally I think the mouse trap would be a hidden feature.
Wouldn't requiring a fan somewhat undermine the point of passive (ie. zero power-usage) air conditioning?
honestly though does the towel itself not act under the same purpose in this situation? The towel is absorbing and evaporating water on a much greater surface area than all of the tubes combined
I would've definitely tried this when I was in Arizona!
Here's how I would redesign it:
- Smaller tubes for more surface area. Use a small pipe to help them keep their shape.
- Arranged with a small gap between each tube into a panel (think radiator)
- Make the base hollow so that filling one tube flows into the rest of them
- Add another connecting piece across the tops for support
- Make a small hole at the top for filling the tubes. Closed with a clay lid or a leftover wine cork
- Sized to fit on a shaded window's sill for air circulation
- Place multiple panels with the tube positions staggered
@@TheresaDoneIt I live in the pnw now. It wouldn't make sense to build one here in a coastal rainforest
@@NickCombsi think you’re missing the point…
@@HouseofthePotter the point was retarded
Fins for added surface
Those seem fairly difficult to pull off with clay, but I guess if you make the pieces separately there should be a way to assemble them in a clever way? I dunno, seems pretty complicated though.
You cannot expect a cooling effect the way you envisioned. A/C is essentially a heat pump -- you move energy from one place to another. In your setup you are moving energy from the water to the room via evaporation. This does NOT remove any heat from the room.
What you have made are some awesome water coolers.
This was also my first thought. However, the phase transition from water to vapor does take a lot of energy, so as long as the evaporated water doesn't recondense, this setup should reduce the overall heat in the room somewhat - at the expense of increasing humidity. In other words, some of the heat energy is transformed into latent energy.
Still, it would probably be more effective if the water vapor could be transferred outside somehow, like building this into a wall and wetting only the outside surface.
star max ur wrong
it’s still a heat pump
the condenser just is the entire planet
as the water goes to vapor in the room, it cools itself and it’s surroundings
as the vapor goes to water outside in the atmosphere, it warms itself and it’s surroundings
there’s that heat u pumped out of the room..
@@knutfranke6846 The reason "swamp coolers" don't work in real, moist air swamps, is because there is no place to transfer the heat collected by the water during evaporation. The dryer the air, the better they work.
And, yes, humans perceive a cooling effect when the water vaporizes -- up to a point. Have you ever lived in really moist climates where even sweating doesn't work?
But, I stand by my statement that, unless you can move the water vapor out of the room you have not changed the total energy content in the room.
@@lezzbmm Yes, it is a heat pump: out of the water into the "air" of the room. Once the water evaporates from the outer surface of the clay structure (pot or tubes) what control does the clay structure have over it? Please help me understand how the clay system controls the water vapor to make certain it exits an enclosed room without transferring heat to the room???
the first smart comment
I'm an American, and I thought it was odd that you thought 67F was hot, because in my area we usually prefer temperatures between 70F and 72F. But I converted 23C to Fahrenheit and it apparently comes out to ~73.5F, which feels much hotter and is personally out of my personal comfort zone.
Very neat video, very fascinating. Just wanted to be an American and point out the Fahrenheit thing lol
Yeah, my ideal temperature is closer to 75F/24C.
what I wouldn't give for it to be 67°F anywhere in or around my house rn 😅
It was 106 today with over 50% humidity...
It's 1 am right now... 94 at 49%
Heat index has been 118F and 116F the last few days ... have the AC set to 77 F.
As a Texan, i was dumbfounded to hear 67F described as hot because for me that is sweater weather and temps we get in winter xD
The main thing that determines how well this technique works is humidity. If the environment is dry, these work *really* well. If the environment is humid, they will do almost nothing. Other folks mentioned a fan - that would help move that cooler air around and make it more efficient. But if the region is humid, they unfortunately won't do a lot
right! So maybe combining this with a dehumidifier. I wonder how much electricity a dehumidifier uses compared to an AC 🤔
@@PotterytothePeople less but you'd have to really check. Air conditioners *are* dehumidifiers inherently as part of their behavior, but they do a bit more. It's a trade-off.
The thing we really need to do to be sustainable is change how we build houses so we can let them not get so hot in the first place - like the Passivhaus concept
@@PotterytothePeopleAir conditioners, dehumidifiers, refrigerators, and heat pumps are all the same inside, but connected differently. An air conditioner takes heat from inside and dumps it outside, while a dehumidifier dumps the heat inside. It makes the air less humid but warmer. A heat pump water heater takes heat and humidity out of the air and puts it into hot water. If you are heating water and dehumidifying anyway, it is quite efficient.
Evaporation coolers work best where it's dry and water is scarce, and worst where it's humid and water is plentiful. An air conditioner (refrigerator,...) also cools by evaporation, but contains all the evaporated coolant. By compressing it, it causes condensation and release of heat, in a different place.
@@PotterytothePeople A dehumidifier usually just cools down a surface for water to condense on, and is seldom as efficient as an AC unit. So for the same amount of cooling an AC would be better. That said, it is possible to make desiccant based cooling systems that would provide cooling without raising humidity, the channel tech ingredients made one, but in order to dry the desiccant heat needs to be reintroduced, so you'd probably want at least part of the system outside.
@@PotterytothePeople I would think the dehumidifier would be counter productive to your goal and increase the use of energy.
Since you live in Germany, I suggest you talk to your neighbors about lüften. My family tends to open up windows at night, close them up in the morning and then bring the rollos down wherever the sun is shining from, so the heat doesn’t come in as quickly. Then as soon as it gets hotter indoors we make wind by tying all the doors up and opening specific windows. If you are using humidity cooling (which you are) you need to cycle the air more, as it will make it stuffy.
One degree cooler IS actually a lot cooler. 23c to 21.5c is gonna make you feel much much cooler. I come from India, and we try keeping temperatures inside our homes around 21. I think this really works
That’s definitely true! I also suspect it worked better than I thought too because it got really hot that day but the room stayed cool! 😄 Thanks for watching :)
@@PotterytothePeople I was going to mention this - the room didn't get any hotter! Also I would place it in the hottest part of the room to maximise evaporation - by a window or in the sun, and add a fan behind it or place it next to an open window. My colleague at work used to pin a wet towel over her open window sitting in a tub of water! It worked a treat.
Also, you maybe just learned a bit more about managing the temperature in the studio by closing the door and window - it's a win all around i think!
23C is 73.4F and 21.5C is 70.7F that is almost a 3 degree F drop which makes sense since F = 1.8C +32. Quite impressive actually! This is a pretty neat passive swamp cooler.
And the hotter it gets, the better it works because it will evaporate faster.
Also, combining this with a fan behind it might be an amazing idea
No it won't feel cooler at all, as it is raising the humidity also, making you feel hotter. The increase in humidity will more than negate a 1 degree difference. Also, this will not work in areas where it is hot AND 70% or higher humidity, it'll barely function. For example here, where I live, it was just 91F and 85% humidity, this would not work.
I think this is great. You've basically made a beautiful "swamp cooler". This will work well in a very dry climate. It looks very lovely too.
Look up evaporative cooler or swamp cooler. We use those in the SW USA. your idea is great. You need a fan to push the cool air around. Try putting a fan to blow across the wet tubes and crack a window to let the air circulate.
omg genius!
I agree with Carol and the fan idea, I think that will make a humongous difference! stay cool! 90F here today :(
I am also in SW US, we are the weirdos that prefer using our evaporative cooler instead of the air conditioner. We are regularly seeing daily temperatures of 110. It’s not *cold* in our house, but it’s summer, I don’t expect to be cold this time of year. (I was shocked it was 67 in your home during summer, that is the temperature of my home in winter 🤣). Anyway, for summer, we do have fans that help us sleep at night. Also, as for the idea to bury these and allow roots of plants to drink up the water-this system is called the “Olla” and developed by indigenous peoples native to dry desert climates like mine.
If you position the fan just right you’ve also made a wind instrument…
Love watching the process and living vicariously. I don’t have a kiln but I do have a number of small terracotta plant pots (and some broken ones). I wonder if stacking them together would work…
I think if you put a fan behind them you would get or at least feel a better amount of cooling. I think they would work on the same theory as the "swamp coolers" my brother uses in CA. It uses a water cooled EVAP coil. Anyway they make for a really cool sculptural piece. 😊
You should try putting them in front of a fan or an open window, the air movement will help the water evaporate faster and mix the cold air around the clay with the air in the rest of the room
I think it’s amazing and cooling the room 1,5C is much, considering that the room would only have gotten hotter because of mid-day temperatures rising. The fact that it didn’t go higher, but even lowered is just awesome, also given the fact that the structure isn’t that big. It works! I love it 😻
Why do you need to use Air conditioning in a room that is 22C??? are you insane?
@@bonaface She's making a cheese cave, obviously 😀
I feel like this would be more effective at hotter temperatures. Not much water is evaporating at 67 degrees Fahrenheit.
I just started watching the video but I can tell you Yes, this will work. This also works with bamboo. You need to drill holes in the top 3-4 inches (some have made designs with drilling the holes.) It works better if you have a small fan placed tilted up with the tubes circling it set on the lowest setting. Green bamboo is best. We did this as a science project.
If you use a fan to push air around the tubes it will encourage evaporation and therefore additional cooling.
Even if your experiment didn’t work out how you had hoped, it was fun to watch and I appreciate your continuous ingenuity. It always inspires me throw caution to the wind and experiment with the clay to develop better ideas & ways to work when it comes to our art pieces. Bravo! 👏🏻 👏🏻👏🏻
Thank you!! Yes the experimenting is absolutely the most fun part 😄😄
In Iran, there are yakchal (early fridge) and a type of structure called a windcatcher for this purpose. The windcatcher actually doesn't need wind to work, and has been used since ancient times throughout the Middle East.
If you put a slow fan next to these, and circulate the air more, you'll probably get more noticeable results
I used to make single tubes (with bottoms) and a hole up top for a hook as humidifiers to be hung on water or oil filled radiators (not electrical ones). Great for windowsills with plants, dry winter air etc. Never seen this idea but it will at least humidify the air. You can color the clay with maison stains and still be porous. Make them look like bamboo with a little design adjustment. Interested to hear the verdict on function!
I think it worked great. You should have compared the room temperature with the temp outside. I guess after a couple of hours the temperature must have raised outside but in the room it was kept 21.5 which is very pleasant. Also I think this works better with a roof fan or a continuos current flowing in the room (at least two openings) and with low light. Great job, beautifully made.
Run a fan onto your cooling tubes. This will increase the rate of evaporation and spread the resulting cool air around the room. This is basically a deconstructed swamp cooler :)
Nice. I feel like you'd need a shit ton more of the tubes for it to have a significant effect on a room
This was really interesting, but it made me laugh when mentioned the temperature. I’m a southern Californian and it’s typically around 40C in the summer time, and 20C is cool for us. We would never use the AC in those temperatures.
Same here, 20c is pretty much the dream temperature wherever you live in the USA, haha
The concept is great…placement and airflow could make a big difference. I look at your project as a jumping off point for some fun functional art. Thanks so much! 😊😊😊
Climatisation
I'm from Florida and 20C is still much too hot for me. That's why I'm _from_ Florida, not _in_ Florida.
you use Celsius in California? what happened to Fahrenheit?
I think this will be more effective with open rooms, as the idea would be for the air to take the vapor away and thus cooling it down. Another thing to note is the region you're in. This will certainly be more effective on less humid regions, as it requires the water to evaporate to cool down. You can also combine this with a fan in order to make it dry up faster while also spreading the 'cold' out of those tubes
Lovely work! don't give up on it. When I was growing up in Sydney, we would put small towers of terracotta pots filled with water on the verandah of the house and it really did drop the temperature. I think the design of the one that you show at the start has a few benefits that you could play with: being external to the house, being a whole wall, and having small small tubes that create a much bigger surface area by twisting kind of like our brain does. In theory screens made like this that could fit into your window or door should work - ideally not in direct sun.
It works in a static situation until the cool water is equal to the outside of the container temperature. The water becomes a heat sink for a bit of time. Keep air moving across the tubes and the room will cool but get more humid until things equalize. The swamp coolers recirculate water and fresh cool water is mixed in as the water evaporates away which takes heat away. Static tubes only make for a temporary heat sink.
You're on the right track. When it's hot outside, my mom has always used the technique of filling up the bathtub with cold water early morning. I wonder if using a fan would work? Strategically placing fans in corners of the house to help circulate and create a nice breeze.
I'd be interested in seeing another update when the weather is warmer. I wouldn't run the A/C at 67F so testing it at that point doesn't mean anything to me. Plus, it would probably do a lot better in higher temperatures.
A few things that might help. 1. Increasing surface area by introducing ripples into the clay. Squish it a bit one way and squish it again another way slightly above it until you get something undulating? 2. Setting it near your window, with the top covered with a cloth or something. The wicked water can get the extra boost to evaporate using the sunlight. The cloth is to keep sunlight away from the internal water to prevent algae growth. 3. Instead of adjacent flowering pattern, have a linear wall with some gap between each tower. Against a window, it would provide more shade against the warm sun. If you want more sun, just shift the towers farther apart. More shade, shift them closer together.
A really cool video. It was entertaining to see you explore the idea.
Interesting info to add to the convetsation, in South America, torids or terra cotta donuts would be filled with water and placed in an open window as an AC. If you put a fan next to them or had them in an open window, it should work. Great video as always. Love how you think out of the box.
that sounds like a very pretty design too! thanks for sharing!
Can you post a rough visualisation pic of what you want to suggest if you dont mind
Something that you could try to improve cooling is adding in a solar-powered fan to blow air past the outside surface of the tubes. This will aid in evaporation, and pass warmer air across the surface of the tube so that air will be cooled. It may not be a phenomenal difference but essentially the only thing your missing is moving air... In my opinion.
Very interesting video, thank you for sharing! I think that your experiment worked better than you think it did though; you noted that the room started at 23 degrees C and that that was 67 degrees F. In actuality, 23 C is closer to 73 F which means that your experiment dropped the temp by 3 or 4 degrees, not 1! And every little bit helps!
Yeah, I think she misread the thermometer when looking at F degrees, it made no sense that the C degrees had a bigger drop than the F degrees. So it worked better than she thought. :)
That's a really interesting approach. It will cool the water that is remaining inside the tubes . You can use the cold water. If you can get the moisture blown outside your house it will take the heat away and cool your space.
I think you need to test the effectiveness of this system in a room temperature hotter than 67 which is pretty cool already.
These things are great for cooling water, typically the dryer your climate the better they work because of evaporative cooling. For you maybe a small solar powered fan blowing over them might help a little. But living in a wood framed house this type of cooling can cause humidity problems like mold and rot. I put mini split units in my house because of their efficiency.
As someone who has always been into science but used to be very into creating art, especially with clay, I am so very glad I stumbled upon this video. I have my grandma's kiln in storage and look forward to finding a place I can put it to use so I can explore concepts like this. And, say, terracotta cooling of larger volumes water.
I loved this video and the thoughts and motivations behind it so much! I'm an evaporative cooling hobbyist and I'm sure others have said how you're actually so close to making this a practical thing to use to cool your home especially in Europe! All you need is a fan or some air flow with an exhaust to let some humidity and air push out! Passively moving that air is difficult though so I understand your apprehensive to add an electric fan. Maybe run it on solar from the roof with a small 100w panel? Very excited to check out more of your channel
You might be able to slide those clay tubes onto some cardboard tubes to dry them, or maybe try hanging them to dry to prevent wrinkles from forming on the bottoms.
Great idea! I only realized it's a problem after I started 😂 I guess that's why prototyping is so important!
Hi! What you did totally works, all throughout the world porous clay is used to cool down things when coupled with water, in Spain we have this same concept but as a water bottle, thing is, for the cooling to happen, counter-intuitively, you have to let the air flow so the room draws drier air in, basically there is a lot of energy going from the water into the evaporation proccess. But long story short we basically make clay sweat, much like we do.
Also, if you don’t have an extractor, these tubes could be made with slabs and stuffed with lightly balled up newspapers or something similar, to help them hold their shape while drying . I’m a retired teacher - what a fantastic science experiment this could be! And artful too - let kids carve in designs…
I love the marriage of science and design in this project!! While not good for the environment, a cut pool noodle could be used to keep the tubes upright as they firm up
You need a fan with this, the air flowing through these tubes will transfer the heat from the room to these tubes while the cooling is spread across the room. This concept is famous with evaporative cooler, which can cool the room as much as 10 degrees Celsius. In India they use the water evaporative cooler which keep the rooms pretty comfortable 25 to 26 degrees with moderate humidity.
I love seeing the creative process with artists in different mediums. The same way you look at a bent tube and go "ah, looks like coral" same exact thing with music and 2D art haha.
In India they use the top of 2 liter bottles as air conditioners. They cut off the top 3 inches of the bottle and attach the funnel in a hole on a piece of plywood. They then put the plywood ina. Window with the wide opening facing out. The funnel catches the air and it is compressed slightly as it travels through the narrow portion. As the air expands back out it cools. The heat, I think is absorbed into the neck of the bottle and into the wood.
That kiln uses the same amount of energy as 30 ac units. Don't lecture ppl about shit u don't understand
Shhhhhh logic and facts aren’t allowed. Just agree with the current agenda lmao
LMAO! you know damn well the algo is gonna make this shit widely viewed because of the BS she said about AC and global whinning. idek why i or how i got here
Works even better with a fan or natural wind flowing through the passive cooling elements. And they are best located in the warmer sunlit part of the room like next to the window. It can also serve the dual purpose of being a flower vase or a water storage pot like what the ancients have done to cool both the water and the kitchen space
Wrap burlap around half of the pipes and expose to direct sun after wetting the burlap will cool the water inside the pipe dramatically. But the burlap portion would need to be outside on a window ledge.
I grew in northern Haiti, a small island in the caribbean and I remember we didnt have electricity 24/7 and my grand parents would literally get a big clay jar and fill it with water and just place in a corner. Water would be cold when you drink it. So I think this concept could definitely work. Just get big enough jars or tubes made of clay in place them in the 4 corners of the room and you have fresh water as well as cooling system in the room :-)
It's cool that the process has built in down time so doing the maintenance stuff doesn't feel like wasting time.
The cool air would stay relatively near the pottery but facing a fan towards the piece would distribute the cooled air for better effect.
More artists and craftspeople need to explore alternatives like this.
Hi. Maybe I can help. The purpose for those is to act like a swamp cooler. The evaporating water takes the heat with it, but too much in a room will increase the hot humidity level.
1) You need to place them somewhere in the house where the wind blows past them, or blow a fan past the tubes and direct it into the house.
2) You need to keep at least one window open for the hot humid to exit. Otherwise, the room will become extra hot with the hot humidity in the air
I hope that helps
Where I live it gets to 115 degrees easily in the summer. You have a choice of AC (most homes have it) or a swamp cooler (evaporative cooler- water wets pads air gets pulled though and cools the house drier days it’s most effective humid days useless). We definitely do need an alternative and dig inward and use underground cooling like they did in ancient times
I really enjoyed the whole process and your efforts and honesty. although a suggestion that if you had them presoaked earlier and then poured water to test the cooling extent you would have gotten better results and put it somewhere more air circulation is present.
I did a similar experiment. I had read that some people use 50 gal drums of water In green houses. They would absorb heat during the day and then release heat at night keeping plants warm and alive. My experiment had no pottery involved but I had similar results. With only one degree of temperature change across all my variations. So a lot of work for small results.
Evaporative coolers usually work best in arid environments. They work by adding humidity to the air, so it will be ineffective any place that's already somewhat humid. My old apartment in Arizona had a cooler that worked on a similar principle. Basically, a piece of porous mesh was saturated with water, and then air was drawn through the mesh and into a duct system. This worked decently well in the desert, achieving around a 10-20 degree difference depending on the day. This isn't a passive cooling system, since it does use electricity, however, it uses far less than AC for good results.
In order for this to work, you need a constand airflow through the tubes. The cool water will help coolong the air and THEN you will see a dofference. This only works on ventilated environments because they increase air humidity, so avoid keeping all the doors and windows closed. If the humidity in the air grows above a certain point, your body sweat wont be as effective and you will feel even hotter
For that to work efficiently as an A/C, the pipes are supposed to be placed in a way that air (from outside the room) is exchanged through the wet pipes. the object you did here is more likely to help keeping the water inside the pipes cool, by "sacrificing" a small amount to evaporation.
I think 1 side of the room just covered with cooling pottery is doable. Some culture would use wet piece of fabric and hang in their room, beside their window.
Cooling pottery is pretty nice because I assume it retains water much more.
Some modern version is water curtain or water running along a feature wall.
One thing that improves the ability of evaprative coolers is air in motion. A small fan near the tubes would increase cooling. It would also be good to see the tube do a 24 hour cycle.
In Brazil is very common in houses have a "Filtro de barro", a pottery filter for water. It is very efficient to cooler the water and makes it drinkable.
To cool the house, create a wall like that with the outside being porous and inside sealed. The evaporation outside will cool the wall and that will absorb heat from the room without increasing humidity. Before considering it an ecological solution though, perhaps do the calculations of how much energy is used to provide the water consumed… that would be an interesting one to me
We use evaporative cooling in New Mexico, US. I think if you used a fan to direct the cooled ambient air, you would likely have better results. The reason perspiration works for humans and other creatures with sweat glands is because the air moving across the skin dries the sweat, thus creating the cooling effect. It’s not necessarily the presence of moisture; rather it’s the presence of moisture in addition to air that has some movement.
We also find that our evaporative coolers are useless if the environmental humidity is above 25-30%.
I think the most important part would be to have that as part of the wall or near a window so that the air coming through would increase the evaporation of the water and cause the cooling of the air as it flowed through and into the home. Another part of the system is that there are air vents at the top of the wall near the ceiling that let warm air rise and escape..that causes air convection, air brought in lower and past the wet clay coming in and cooling and displacing warm air that rises and escapes out the top vents
For it to make a difference in the room you have to have someway for the evaporation to escape the room and take the energy out while maintaining the coolness inside. The old tech was probably used as windows to open but slightly shaded areas in dry climates. (Think courtyards) this allowed evaporation to be carried away from the device while producing a cooler (slight) breeze likely towards the center of the courtyard depending on placement.
Hang a big wet towel over the window. Better if the shades are drawn and the window a little open. As the water evaporates the room will get cooler. It's not the same as ac but will make the temp tolerable in that room. As soon as the the temps go up in the spring I hang my towel and wet it as needed with a squirt bottle. I usually exchange the towel once a week to wash because it can get dusty. I liked your experiment.
To allow them to dry, you stiffen the inside. I am thinking of a terrycloth towel wrapped around a paper towel tube or more, that way the towel allows air in a little bit and the structural integrity you seek is provided by the paper tube.
So its a ceramic swamp cooler. Pretty cool! As long as you live in a low humidity area (southwest US), this would work really well. In the higher humidity areas of the country this will not work nearly as well. For the more humid areas, one might try using desiccants to dehumidify a room as an alternative to electric dehumidifiers. However, when the desiccant is saturated, it will require some sort of energy to dry it out for re-use.
This is a fun project. You could have tested the A/C with terracotta flowerpots or wet towels. This principle works very well for wine coolers and water canteens.
two things : requires a dry atmosphere (think swamp cooler, American southwest) and airflow. If it is humid then very little will happen. It works because although it would need a fan it would not need a compressor. Some of these large structures built in deserts can freeze water. So, dry desert air, a source of water to supply the porous tubes and airflow to remove the heated, evaporated water vaporer to the outside. If done correctly you can make ice cubes!
Regarding drying the tubes, fill them with long inflated baloons then you can lie them down. One side will flattern but they won't close up.
The cylinder is the least possible surface area to volume shape possible that you could use for this concept. It looks like your extruder make a 2 1/2 to 3 inch pipe. If you flatten that down until the inside is around an inch or so across then you would be able to stack many more side by side and make an evaporative radiator. Put a box fan behind it and you have a swamp cooler. They don't work so well here in Louisiana due to the high humidity, but in a dry location they work quite well.
Beginner potter here. What would happen if you wrapped clay around a card board tube of appropriate diameter to get your tube shape. If there was a problem with uneven drying,maybe wrapping with wet newspaper? You could fire the whole thing, tube and paper.
It's also known as a "swamp cooler" because it increases the humidity and absolutely doesn't work in hot and humid weather.
The dryer the air the more efficient they will be, also having a small breeze across them will add to their effectiveness. They function on the same principle as a swamp cooler, just does not use electricity.
If you place this array this high near the ceiling, then convection currants will cool the entire room. Right now you are just cooling the floor. The hottest air is high in the room, the cold air drops downward, then more hot air moves in to the cooler.
Ok, those of you in dry environments can use these water coolers. Where I’m at, the humidity starts every morning at 100%. Then gets down between 50%-70% during the hottest part of the day. Like right now it’s 100° and 58% humidity. Water coolers in a humid environment only raise the heat index.
This is one of the best UA-cam videos I have ever watched! I teach ceramics and I will be sharing this with my students and how creative we can be with this ancient building material. Cheers!
It's worth noting that evaporative coolers only work in dry environments. They aren't nearly as effective, in humid environments because of the air saturation, so your mileage may vary. One thing you could do to increase cooling capacity is to hide a small fan behind the tubes. The air passing over the surface will increase the evaporation rate.
A/C is powered by electricity which is fully sustainable on a green energy grid. There are modern versions of AC which don’t rely on HFC or other GHGs. In northern CA the energy grid is already 80% renewable in hottest major cities where it hits 45C regularly in the summer. There is also highly reflective paint that can cool a house as much as AC and/or take much of the load off of AC. A house with high reflective paint, solar panels, and a heat pump can keep a house at 20C easily even in 45C weather while still generating excess power to return to the grid.
I just had a thought what if they were up high, like on a shelf where the air is warmer the they would cool the warm air, that could work better. I love thelook of them!!
You need to add a fan to blow the air through the clusters. Also, these should be kept on a high shelf in order to cool the top air in the room which will in turn mix downwards as cold air is denser than hot air. So have these on the top of bookshelves surrounding a ceiling fan. Have fan rotating that that airflow goes up. It will then spread towards the clusters and then cool down and roll back down to the ground.
We still use evaporative coolers in HVAC design. Most of them are large scale for commercial buildings that require a lot of pvc piping and water. They make small portable ones but like you realized, the size of the unit would have to be massive to make the temperature change you want. They best way to stay cool, for free, would be to live in a dirt/mud house, the earth will keep the house around 60 degrees F year around. plus, it is sustainable.
You could use clay/earthenware pipes to blow air through and fill the outer layer with water from a reservoir to achieve a much greater cooling effect.
There are a lot of natural cooling methods like this using underground reservoirs
If you plan on making more of these , I’m not sure what the diameter of the clay tube is but if it would fit you could hot glue a pool noodle to a flat plate or board cut to your desired length and once you extrude your clay tube you could slide it over the pool noodle to hold it upright while drying 🤷🏻♀️ if it’s diameter is bigger then a pool noodle of course
Genius!
67f is already fairly cool. I'd be curious to see what the tube's do to a room at around 75f. Also I imagine airflow would effect the rate of evaporation. Just a slight breeze from a ceiling fan could create an amplified effect.
I also image this would be more effective the dryer the climate is.
If you want this set up to work as an AC you need the air moving, The through draft in the room ideally (even if it is warm air) from a window with the clay pipes in front of (or near) the window and you would want your clay structure on a table cause cool air sinks. The high tech set up is a fan behind the clay structure and a open window opposite the clay pipes. The clay pipes is a cooling unit but without fans, air flow, or thermodynamics to move the cooled air around the room it does nothing. The sculptures look awesome and you worked really hard on them so I want them to have the best chance they can get of working. I hope you would test out the clay structures again with these suggestions.
Great video thank you, but i would like to see you have another go at it, my feeling is that you need a greater surface area exposed to the atmosphere. i think it would have been okay to lay the pipes down while drying so they came out as flat panels, maybe a strip of cardboard to avoid sticking together. i did like the quirky bent tubes but you could make flat panels with maybe a half inch of water between?
In New Mexico's dry heat we use swamp coolers which are basically the same concept: a diy version is to just hang a white towel across a sun facing window and feed the cloth a small waterline to keep it quite damp, as the sunlight heats the cloth the water is evaporated to the outside and the temp inside the room drops. If you have a rafter window its ideal, the colder air is displaced by rising heat creating natural air circulation.
If you arrange them with a fan blowing air between them, You will find they will cool much more. During the 50's and 60's in Phoenix we used evaporative coolers to cool our homes. They had pads that were kept wet from running water that a fan pulled air through and into the house. The interior of the house was a breezy 80 to 85 deg. F., when the outside temp. was between 110 and 120 deg. F.
I think the cooler will function well to maintain the coolness of the night. That it cooled its surroundings at all when started midday is amazing!
a fan next to them may work better. Wonderful work . looks awsome and is functional for cooling. they look like think reeds.
Lids would be welcomed if you don't plan to grow mosquitoes, and an air circulation system, not necessarly active, would be useful as well. For my living room where there's no AC, I wet a towel by soaking it in water then I put it in front of a pedestal fan, it works (in my mind at least)
Result was around what I was expecting. In a room with no air motion, it would not really be able to distribute the cool air. And what little distributed cold air would sink to the floor. This may work better if their was a fan blowing through the tubes. Of course you would have to make a large selection of tests and conditions to get an idea if this really works. But it is an interesting concept though.
When I was a kid, we lived in a farm house out in Oklahoma. No AC, and I have no memory of it being super hot. The house had windows that we would open to make wind tunnels. This would cool the house. We also had fans at certain locations.
I just wanted to offer the idea that you should create a form out of wood or cardboard sized to the inner diameter of the extruded tube to support them as they dry. Waxing the surface of the form should help avoid the clay sticking to it. As someone already mentioned, adding texture to the outside of the tubes would increase surface area for cooling.
BTW, u can drink the water that is sieved out of these, because it would be filtered, also u still can make them like Vases and fill them with water without over firing them or glazing, and it will have the same effect with a better shape.