This Tower Turns Ocean Fog Into FRESH Drinking Water!

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This basically what your home A/C or dehumidifier does . I connected a bucket to my condensate drain (my dehumidifier has its own built in container) and pour the water into a 45 gallon trash can. When it gets full , I have a small pump and water my grass with it. There TH-cam videos out there with other's doing this. That is what I do with the water but you may have other uses.

As an retired environmental engineer I was also excited to hear about this idea. There are numerous ocean locations in hot areas that have deep cold water relatively close to shore. Monterey Bay for instance. Using a thermal-cline with a closed loop cycle containing a freon base fluid that reachs from the depths to the surface could provide the force to drive a pump to send the water to shore. Routing the humid air into pipes using the cold from the depths would also provide the cooler temperatures necessary to condense the water.

I drew this out a few ways when I was in grade school. Teacher thought it was cool.
I've many such.
Worked on how to get these sorts of projects done, generally.
Here's another: Water use in a different way, in the desserts. Use boring tunneling to make the widest & longest you can in 9 months, as a reservoir. On the land above that dig contour trenches, back filling with composted soil & shaped into swales. Shape them to work to slow down & absorb as much water runoff as possible, work on new geopolymers. Include atmospheric water harvesting features. Design to pipe excess into the boring tunnel-reservoir. Site these densely enough to capture sufficient stormwater runoff to provide slow, multi decade, reclamation of depleted lands.
Elevator pitch version.

I think this could work in Namibia. They have a unique geography where they get constant fog but no rainfall and a huge desert. Most coastal places with humidity get plenty of rainfall.

They've been doing this on a small scale along the Namibian and South African coast, these areas have sea mist in the mornings almost all year, they put up mist nets and collect the water in chanals along the bottom of the nets, produces a surprising amount of water,

Since this depends on relative humidity and vapor pressure, it will work markedly better in warmer zones. In addition, there'll also be a large amount of microcrystalline salt that gets captured as saline vapor deposits. Normally most of this is recaptured in the ocean. It's why ocean side steel structures rust so quickly. It's a pretty massive problem. The closer the capture point is to the water the higher the salt content also.

I wouldn't do a tower per say, I would instead repurpose an Oil tanker sized ship. Have it go out to sea, collect the water then bring it back and pump it into holding tanks. This improves collection because you can send the ship to places where conditions are ideal and you can use deep (cold) water pumped up to the surface to cool the condenser. Plus you wouldn't have any visual pollution of large towers just off shore blocking the view.

I have been working on AWC for a decade. You do not need any cooling towers. The ocean water at depth is cool enough to cause condensation. You just need to pump it up. And you don't need big pumps to do this. You just need an electric current to cause electrolysis which changes the density of the water, causing it to rise (like an air pump)

This should be labeled science fiction. The physical plant of these structures is simply enormous. Building only one of them would be considered a mega-project. Building multiple would be a literal impossibility. The structures are 200 meters wide, which is essentially the height of the golden gate bridge, but in width, not to mention the structure also rises 100 meters above the ocean, ignoring the size of the structure under the water. The environmental impact would be catastrophic. The size of the structures dimensions are equal to a New York City block, meaning the entire rectangular block, replete with multiple sky skyscrapers. 10 city blocks rising, hundreds of meters off the ocean floor are going to be built off the coast of major cities? This idea is sheer maddness. I hope the scientific paper detailing this project was the work of graduate students asked to dream up impractical engineering projects to solve fresh water availability and not a serious design.

I work in HVAC design, so I know all about taking water out of the air. I've wondered if we'd ever get good moisture farming tech, kind you see in Star Wars (Luke's uncle was a moisture farmer). The concept of taking it from the ocean's surface is fascinating. I don't know about their plan exactly, but we could probably engineer something pretty easily. Awesome video man!

Ricky
This is the most exciting and practical water solving idea I have heard yet to date. I think you're right, they have really hit on something special. As soon as I heard it, it's like a light bulb went off in my head, of course, all that water is just sitting there in the air above the ocean water. It makes so much sense and sounds like it could be easily done. Kudos to you for reporting this. Nice work!!

I had this idea years ago. The ocean vapour towers could be enhanced by making them transparent like greenhouses. A black slab metal or rock occasionally beneath the surface due to wave action should aide evaporative throughput. Sweet.

My idea for optimizing AWG on a home scale:
Build a greenhouse that's attached to your house, preferably on the south/Sunward side. Water the plants within with your gray water. The greenhouse will naturally be very hot and humid within. Run your AWG in there. The plants will transpire your greywater and the AWG will work at top efficiency most days as it will be near 95% RH in there constantly.

Rick, knowing this is long winded I submit the following: Some years ago mechincal engineers installed an adequate amount of air-conditioning to a gymnasium as was specified by the architect but because it was a "fresh air intake only" the humidity in the area was just too much for the system's evaporator coils to remove and this lead to a very uncomfortable cool but sticky environment inside the gym. So what they came up with was placing two additional coils (one after & one prior) to the refrigerative evaporator coil with both coils connected only by a simple water loop. As the aft coil received the refrigerated air cooling it (and then passing through it so as to cool the building) that after coil would cool down along with its water loop being pumped back into the prior water coil. Now because of that the outside air entering was pre cooled removing more humidity, the evaporator coil (now 2nd of the three) too would remove even more humidity and lastly the third "after coil" likewise would remove the majority remaining humidity as well.
Other than the additional coils, the water they contained in a closed loop and the small electric pumps no additional utility cost in cooling ever happens and yes, a measured normal of 80+% humidity entering the gym was reduced to a modest 30-35% afterwards. And this says nothing about the condensation captured.
My point, if this were used in costal high humidity area's and you were going to air condition them anyway, why not make water while you're doing it and further cool your building down while doing it. Yes, you read my statement correctly.

On an ocean vessel or abandoned oil platform small amounts of sea water enclosed in a transparent pressure cooker with sunlight concentrated onto the pressure cooker will vaporize the sea water at a 160 degrees or less, the salt is then scrapped off and stored for pickup and the fresh water is also stored for pick up. Since the water and salt is all removed, there's no harm to the surrounding Ocean and wildlife.

The average Southern California home flushes about 15 gallons (this is a very conservative number) of clean fresh water down the sewer every day during the summer while running a home air conditioner. The energy is already spent on the A/C cooling, yet the perfectly clean water is flushed down the sewer.
(Well, not at my house. I have a large home with two A/C systems and all my condensate water is diverted and stored to water my gardens and grove. The A/C is powered by ground based solar)

As i saw mentioned elsewhere, the water close to the surface still carries salt as microscopic crystals. The intake of vapor might require some new technological solution to filter those out, which is what usually drives up costs for ideas like these. Admittedly it could still be more efficient than desalination at the end of the day.

This is awesome... And if you use pipelines underwater (like for petroleum, but for gas) you could even get to some water almost free, because on ocean bottom the water is cooler. Thus, this may help cool the water with no energy cost at all, and we could cool it further to extract more water. Maybe that would even work just with a pipe going under water if water is shallow enought, then you'd just have to use giant fans, no compressor at all. Easily replaceable, but you'd probably get less water overall. And warm up a bit the ocean bottom, but meh, that warm water will rise, then evaporate again, so...

The most energy-efficient way to get seawater to evaporate and condense would be to utilize the already-present temperature difference that exists in most oceans- the water above is warmer because it receives sunlight, and the water several meters down is cooler. This termperature difference between the layers of ocean can be used to drive a vapor-condensation cycle. It would work like this: Large diameter pipes would be formed into U-shape and placed into the ocean just offshore where it is deep enough to allow for a significant temperature differenence bewteen surface water and deeper water. The pipes would go down several meters under the surface, and then come back up above the surface. Both ends of the pipes would be exposed to the atmosphere, and one side would have a fan blowing the air down the pipe and out the other side. The intake air would be drawn through some sort of apparatus that would increase its humidity as much as possible, like maybe an array of absorbent fabric that would wick up the seawater, or maybe a misting system. Then as the air goes down the pipes and hits the walls that are relatively cooler due to the cooler seawater down below, dew will form on the sides of the pipes. And we would also probably want to increase surface area of the pipes by some means. This condensation is our fresh water that can then be pumped to the coast and processed for human consumption. Since the vast majority of the system would be under water. this would eliminate the need for a lot of the structural implications of the towers.

If increased salination is a problem with traditional desalination as you say, then this process will have exactly the same effect. There is no way around separating water from the salt.

As a Perth resident, I would love to see something like this here. It would be great if we could allow our dams to fill and be used for recreational activities instead of being off limits. And 4 to provide all off the water requirements? No need to rely on groundwater and desalination

If you add dark-painted floating metal mesh, then evaporation rates will increase, so if you place those near the towers, then you will get more evaporation and higher air humidity in the air you're using to get water. If you add cheap imperfect metal mirrors to allow the pipes to cool down, then simply going from the higher air pressure inside the pipes to the lower air pressure inside the water silo, will get at least some of the water to condense, and you can also get dry cool air as a byproduct, in the hot humid areas where it's most valuable, like a city-wide central AC unit delivering to places which pay for it.

Combine this with wind generators and store the water to have it collected by a purpose built (small) tanker ship, transport it to a facility onshore to be put into the water system serving a city. This could benefit a rural area by reducing the water taken from the rural area to service the city.

We live in middle TN, one of the most humid (and rainiest) areas in the nation. Water bills are through the roof - $200-$300 in the summer and I have an enormous landscaping / garden. Due to the elongation of seasons many farmers are attempting double crops (plant April / end of July). Our A/C drains water from the air into a hose. Last summer I guided the hose into a 3 3 1/2 gallon bucket. It rapidly filled and I repeated twice before I called it quits. This year I attached a series of hoses that open or close. I water tomatoes, melons, peppers, flowers and herbs for next to nothing. The amount of water that only one units removes is just amazing. This project screams "venture capital" which is by far the fastest and easiest way of bringing it to the market.

A beautiful machine… My chanting/meditation/prayer is for the success of the innovative humans offering real solutions to our problems. Bless them and the love they offer us.

Completely agree on that, this will be much better than water desalination. This needs to be built, at least in a smaller scale to see if it really works.

I see a bright future for this tech, especially when combined with offshore wind power. With offshore wind, they're already laying down miles of cable to connect everything with the mainland... might as well lay down some water pipes at the same time to move all this fresh water to the people who need it.

You should do a deep dive into water consumption in California (Industrial, Agricultural, and Municipal) in relation to the natural capacity to replace it. I suspect you'll find that the "Mega-Drought" is simply over-consumption. California (well, everyone, actually) is ignoring the actual problem by blaming the weather. California also has a 100+ year history of just draining lakes and rivers dry.

If you want a really effective way of harvesting drinking water from the oceans, you would want to build a large solar-updraft tower, either as a floating device or on land near coastal area and fill the surface beneath the canapé with sea water. Dimensions are 5km diameter canapé and 1km large solar tower using strong and lightweight materials. It harvests energy from the updraft humid air, and condensers in the tower can harvest drinking water. Plus you can collect any rainfall on the 5km diamater structure and store it in tanks.
You could also built them on land near a mountain range that is a barrier for rainfall, and built the tower alongside of the slope of the mountain range, and fill the surface under the canapé with sea water (so it has to be built close to the ocean). Some of the humid air will escape and will increase rainfall in the area that normally is part of a rainshadow.

We like to experiment with atmospheric water capture and recycling on our homestead in the Ozarks. We have experienced a drought this year, but the passive water capture from condensation has made a big difference. Rock berms that collect morning condensation is the main system in our gardens.
So, I've thought about something more along the lines of relatively passive technology for capturing water as condensation from the ocean. Instead of building towers I envision water pumped into open troughs with glass or plexiglass panels positioned to collect condensation and divert it directly to fields for irrigation or to a water capture system. But for huge agricultural fields that may get in the way of equally huge farm machinery. A better idea is to move food production to smaller scale urban sites that use grey water condensation. Small scale urban food production should lessen the energy inputs required, especially for refrigeration and transportation. For instance, I grow all my salad fixings indoors in an area the size of a large refrigerator. Fresh food all year and no trips to the grocery store is reason enough to start bringing back residential gardening.

Google must be reading my mind, I've been thinking of this idea for a lil bit now, but slightly different.
My take on the idea was to use newly developed radiative cooling paints to cool down a wide air channel, then reduce the temp even further with normal condensers.
Above 75% RHI you don't even need the condensers to start yielding water as the equilibrium is 4-5C below ambient. (And I think you can push the equilibrium further given the right layering, IR absorbent undercoat, and topology)
You could push air pretty fast through it and still keep it not too long if I did the math right. a 300x4m system at 25mph could yield 12 gallons per second iirc

This actually has the same net salination effect as releasing brine into the ocean, just in a more diffuse way (so it is still better). That's because decreasing the vapor pressure (which is what you are doing by pulling water out of the air) is essentially the same as desalination. To explain just a bit further... water evaporates slower when the air above it is already full of water, more water = slower evaporation so less water = faster evaporation, and that water is evaporating from the salty ocean, ie evaporative desalination. These seem like a much better way of desalinating water, but that is still in essence what it's doing, and the resultant is a saltier ocean (which is a growing issue).
Projects like these are great to meet growing water demand, but they don't solve the sustainability issue. In the end, what we need most is to be much more efficient with our use of water, because just like climate change, it's not a problem that will just naturally reverse itself.

Such a fantastic idea! Thanks for picking it up and sharing this with us. From all renewable tech channels you always pick the best technologies and ideas 👏🏽👏🏽

My path to this video:
Q: How would an underwater/mermaid civilization source freshwater?
Hypothesis: Some kind of silo that captures & pressurizes rainwater as it falls & collects on the surface.
I draw out a model
Conclusion: This is actually not that complicated. Surely something like this exists already.
Google leads me here. Great to see innovation at work to address these fundamental problems! More science, less greed, go team humanity!

Lived on Ventura beach. Noted lots of corrosion on metal stuff like on cars. Was told this corrosion came about because there is salt in the fog and mist. Any comments?

So far, this is one of the best ideas I've seen for water harvesting in saltwater. 😄
12:00 It's quite nice, but the water then goes to others where it would normally rain. Even this small amount can already cause rain to fail in low-rainfall regions with poor people. So there should already be a simulation that times the changes over a decade. Rain is not about the total amount, but about the amount of precipitation per day.
Reminds me a bit of the Aswan Dam, even if the comparison is lame.

No cap I had this Idea when I was 15 years old, glad to see the scientists are catching up to child level creativity 🙌🏽😂😁

Thanks, Ricky. This sounds very useful, practical and hopefully workable! Peace

Would this not adversely impact weather systems if used on mass? Removing millions of tons of fresh water vapor from the air means that it wont create clouds, which serve in maintaining climate balance and keeping the earth cool.

California will find a way to not do this. We currently have tremendous amounts of fresh water that we just release into the ocean. We could build dams, we already have the funds to build dams yet we do not. The bigger question you should be asking is why are the powers in our state choosing to not hold more water? Is it power? Less water means they can charge more for what they allow.

Every time I get an ice, cold glass of water and set it on the table. I see this effect in action. I get a pool of water underneath the glass. I think this is really practicable. Does not produce a lot of brine only involves moving air over a cool surface and then goes into the water system. I think it deserves a lot more attention.

Wow that's ingenious. I hope they try this.

Wouldn't this have some sort of effect on the atmosphere and rainfall since it's collecting the same vapors that in turn create weather patterns?

Plants at the shore of Chile have been doing this for eons. Highly condensed fog comes from the ocean everyday, the moment it touches plants it get's into liquid and plants can take it. Sometimes you can see on the sand remnants of small streams of water flowing down from plant to the lower point.

This concept makes a lot of sense in coastal regions, like a downsized residential version for a water front property. But pipe the residual cooled dried air into the house air conditioning for further energy savings.

That was the first thing that came to mind when I learned about AWG’s was to use the ocean and solar and wind power. Kinda a no-brainer. It’s kinda like owning your own cloud 🌧️

I really hope we take this on, especially the food growing nations, the next wave of droughts is gonna be brutal. Gotta share this one!

This is such an interesting idea. I imagine there are some things to be worked out but none of them look to be insurmountable/cost prohibitive. This concept seems like a great candidate for funding a few different groups to develop and test some different versions as test pilot projects (powered by onsite solar vs wind vs shore power source, etc) Then see which work best and iterate through resolving the issues to find to most robust solution. Since like 70pct of the population is with 100 miles of the ocean these could be a good additional source of fresh water. One thing I also think of is in places like California where any water they use at the coastal cities is competing with water needed upstream inland for agriculture and there often isn't enough for both. If they could supplement nonagricultrual water needs near the coast with these it would relieve pressure on the other water sources needed for agriculture inland...after all we also need food :-)

Incredibly exciting stuff.

I love the idea. We all have seen the moisture condensing out our AC units; thank you for the quantification, it really gives a good perspective. I would note, however, that the cost argument requires clarification. Water providers have to pump and store the water around town and that implies capital, operational, and regulatory costs that may not have been considered in the analysis. I suggest that instead of using the term “the cost per beneficiary” (which people may infer as their water bill) you could refer to the cost to produce the water before distribution to the customers. Great work!

Finally I can be a moisture farmer on Tatooine!

Thank you for this presentation and summary of these important ideas. I also thank you for your other presentations. Your explanations are clear and engaging. Great qualities for an educator - which you clearly are 😊

I was laughing as my son was telling me over the weekend that he is in the process of hooking up a hose to the water drain on his HVAC (here in Central Florida very HUMID) and is going into a 5 gallon container with a small water pump that will distribute the water to his small raised bed gardens. A great idea as my HVAC empties into a small saucer that the doves come every day and drink out of... oh, also the tiny lizards. Another GREAT video, keep them coming

When seawater freezes, you get freshwater ice.
You can put seawater in a hanging bucket and collect the ice that forms on the surface of the water when the air temp is below 0 C/ 32 F.
On a small scale, it might not be very efficient, but it could save your life on a cold sailing passage if you run out of freshwater.
If you scaled it up someplace cold with access to seawater, you could make unlimited amounts of freshwater ice in the wintertime when temp was

Thank you! I love videos like these that give hope and excitement for the future!

I've thought of this a few years ago. Its the sea version of those mist catching nets . I was thinking of a passive version but the renewable energy hybrid concept makes more sense for larger populations.

What I like about the idea is it poses little risk to the current water cycle operating in these areas. Throw in efficiency gains from better engineering and it sounds very promising.

Very good idea, I especially liked your Solution on the condensation system. I wonder how it would work with those electrostatic wires that catch the moisture in the air?

This is where wave action energy needs the greatest of attention, using waves to pump air seems like an inovation completely overlooked here.

This is SO INTERESTING & EXCITING that I am feeling ANXIOUS. I AM LOVING IT.

As a UK resident I find it gobsmacking how a family of four gets to use 330 gallons a day, let alone 79-80+ GALLONS per person. Lets's look at it from a metered water perspective:
1x 3 minute shower => 6 gallons I know it's less since our water flow rate is

One problem I see with this idea, is that the sea mist this guys want to collect is usually salty. It comes more from the wind lifting water droplets from the surface than from evaporation.

Based on a video I saw yesterday on underwater server farms, I would think circulating cold sea water through these towers could provide all the cooling needed

If we can capture enough of vaporize water, might it help lesser the impact of storm? because we condense all that water before it become cloud.

I expect objections to ugly towers.
Could collectors be built into coastal structures like breakwaters, marinas, or multi story beachside Hotels / Condos.
I expect developers would pay for a Land Use Variance allowing them to develop projects required to include this technology in otherwise restricted zones. It could help to defray the cost of building.
... Just a thought

our planet is not facing a fresh water crisis.

Any and every way to get clean drinkable water is great, however we need to address the issue of how we waste water, this would take rebuilding plumbing and ''slow the flow'' of how and where water drains. Rain water and stormwater needs to be slowed to allow it to seep into the ground, where nature cleans and filters it as it seeps down ton aquifers. All hard non porous surfaces need to be changed to a material that asborts the water to in temp storage tanks before slowly release to the soil. Sidewalks, parking lots, small streets not highways. But local storage is vidal because of all the trash and piosons the storm water picks up before draining into oceans adding that trash to the oceans. Every house, fields, business, neighborhoods all need local storm storage and filter systems. Water should be used minimum twice, example sinks, tubs and washers are connected to fresh water, but they drain to local grey water tanks that supply water to our lawns, gardens, farms and toilets which don't required fresh drinkable water.

I like that you mentioned piping it under water as a condescending stage. That was my question when watching this video. I have a ground source heat pump and it is crazy efficient as a cooling system.

I REALLY appreciate how you can explain the the tech, the benefits and most importantly $$ to people to weigh in their thoughts. Unfortunately, $$ takes a higher priority in some but it explains why that is and the benefits. Don't build cheap.

This channel is a reminder of all the things I will not see or get to experience in my lifetime :(

I have been living in Las Vegas for over 40 years. I know this valley and where the fresh water is located. Las Vegas translates to The Meadows and this is for good reason. This valley is filled with water. Springs are located throughout the valley. The water table is so close to the ground surface people must keep their swimming pools filled with water to prevent the underground water from pushing their pool out of the ground. The former site of the El Rancho Hotel and Casino, which is located at Las Vegas Blvd. and Sahara Avenue, has not been developed because the water table is too close to the surface. A massive underground river the Alamagosa flows under the Las Vegas Strip. This is the source of the water for the Bellagio, Venetian, and other resort fountains.
There is no drought here. The Colorado River's water shed has had normal to above normal snow pack for over 10 years. The low Lake Mead water level is caused by 2 huge water diversion tunnels.

Again a very clear treated subject. Thanks Ricky

THIS IS by FAR ONE of the Most interesting Video that I've Ever Watched.

If you take atmospheric moisture from one place to water the ground or drink, couldn't this cause drought in another if that moisture was building up to rain in a place down the flow? Many times the rain in let's say Chicago will come from the golf of Mexico and rain across the country, but if the states are harvesting the water from this is it possible that needed rain wouldn't make it there?

I live in Quebec (Canada), and no one would have thought, even 20 years ago, to pay attention to drinking water, we have plenty of it! But this water is not as healthy as it was in my grandfather's time! The process described here is a brilliant idea but we should also pay attention to the water sources that are still within our reach: Do not waste it for industrial processes (Regulations necessary) and do not give it to bottlers who resell it to us at exorbitant prices in plastic bottles that end up in micro-particles...in our bodies and those of animals!

This is so exciting I'm literally drooling. I've been thinking about this water problem for decades of my life, and I've always thought the answer was massive desalinization plants standing out in the ocean. But this idea is so much smarter and easier than that, it's literally a no-brainer. We have to adopt this concept and make it part of our infrastructure as fast as we can! Please government, Open your eyes to these concepts and take real action! I think building a bunch of these condensation towers around the coast of Africa for the African people would be more valuable to them than all the other humanitarian aid we've given them put together!!! Please somebody wake up and take action on this. I am disabled and paralyzed, which sounds like the best excuse in the world. But maybe I can help by writing letters. That's something I'm going to look in on myself. Thank you so much too da Vinci, I really love you guys! Luke T.

I had this exact idea a few weeks ago and I have to say I'm a little bit disappointed that someone came up with it first. Still, I hope that these units start to spring up and help out the countries struggling with water supply.

people move to a desert, then say we are running out of water. there is water everywhere. we are never running out.

I had been wondering why a solution like this wasn't implemented 20 yrs ago. I hadn't gone through the trouble of figuring it out, but pulling fresh water out of the air above the ocean is basically what I was thinking too. Glad to see some academics have put in the work to really prove it out!

This is such a good idea. If we use PV and wind turbines at a sea location to draw the vapour and condense it then pipeline it to aquifer injection points we get an efficient water delivery system that chimes in with the existing infrastructure of aquifers.
Not sure if the scale of extracting freshwater this way would be sufficient but it is working in the right direction to reduce hurricanes as they are caused by water vapour over the oceans combined with the coriolis affect spinnig up the mass of vapour. I suspect this would require a much greater extraction than required by our water needs

So you're telling me, that building huge 100mx200m block at the surface of the sea, pumping everything to an other location and capturing the moisture for water is cheaper than drilling a hole in the ground and connect it to a pump???
Are you sure, that you're willing to make that claim?
Regarding those structures: Do they float or are they connected to the sea floor? For buoyancy you need a huge structure and for a solid connection, well you have to build to the sea floor, limiting the construction to coast near places. And adding cost. And maitanance. The sea is a hostile environment for concrete, steal, ... So the mainanance cost will be high too.

Reminds me of the nets they use in the desert to catch the dew. How cool ❤

Placing these collectors on the ocean makes the most sense. On the drive to Santa Barbara there are islands made for off shore oil drilling. There have been investigations for using standard RO on these islands. The discharged brine can be so dilute that within several feet of the discharge the salt content is not readily measurable. Many local desal plants use old power plants because they already have the intake and discharge piping in place which reduces cost. The environmental effects of concentrated brine never used to be part of the total cost equation for these installations. The Seawellbuoy is another example of thinking out of the box. Towers to harvest humidity make even more sense. Using natural "desalination" from the sun they become an advanced solar still. The differential temperature between the fog and the ocean below can utilize more thermal efficiency. Piping of fresh water is an issue for offshore installations but it is an engineering problem that is solvable. If we can drill and pump oil from floating platforms we can do the same for harvesting water.

Wouldn't it work spraying ocean water up into the air down wind of the area you want it to rain? It would evaporate in the air and possibly rain down on the land down wind. You would just have to figure out how far off shore. Of course how would you charge the people for the rain, to pay for the pumps to inject the water up into the atmosphere.

This is a great idea that keeps me excited about the future as well. That being said, Natural gas is a safe, cheap, abundant resource and its right here, its only corrupt pols buying stock in unicorns that has raised the price do to unnecessary regulation to raise their profits. The war in Ukraine is the shiny object to distract from the grift. YOU KNOW THAT.

For 20 years I have captured AC condensate via a condensate pump into a 64 gallon water tank in Florida. Simple calculation..... 3 gallons per AC ton per day production..
This is distilled quality water.........to drink, ozonate, charcoal filter, and black light purify. .....All Automatic. I wash my cars, windows, make cleaning solutions, ETC ETC......

Here is a wonderfully practical method of water supply, with value evident in even its prototype phase. Climate disruption of conventional urban water supplies strikes US coastal zones where most Americans live.
Development should be made a national prioirity, though with care to accomodate shoreline subsidence and storms.
Water extraction from the atmosphere bypasses the energy demands of fossil-energy methods, eliminating CO2 and other pollutants. The method works all the time, although with varied efficiency for the condensation segment, depending on method used.
This novel method could harvest for major inland population centers around the world now threatened by water shortage-- notably the American Southwest.
As with growing need for a national smart power grid, we must create a national water distribution system. Climate change is the new normal, and we will find no rest until we face the challenge.
Ricky, this article is one of your best.

Great idea, as someone has mentioned we all ready have Dehumidifiers so the tech is good, but one area I can think of, is the possible reduction in cloud formation if it was widely used.

THIS will have a bright future due to it's simplicity and easy method .I think that it wii be Sustainable in the long run for the whole world as it has a very large coastline filled with many bustling cities with huge populations.

Worked in a lot of powerhouses. The old boilers had preheaters that if you reversed the system would work as condensers. They were basically giant tanks with thousands of small tubes filled with water. Your sea air could be ducted into the body of tank and if you filled the tubes with cold water that you had chilled by geo thermal means you would get condensation. Then only real power you need is for pumps and your fans. Depending on how much water you are causing to condense and the drop to the pumps. You could even put those horizontal positioned water turbine over the outlet holes of the water to help with power demand. Like videos keep it up

I've been suggesting that 200 foot towers be built to spray sea water into the air, and allow the atmosphere to desalinize the water, in the oceans. Then use the existing systems to capture the mist as the water comes onto land, or plant pine trees to do it for us.

8:17 Its focused in OVERENGINERED WAY. Just make fins(like a tipical noctua heatsink, ok maybe more holes to let air traspasing) and use heatpump to cool down that fins. that make condensate the air and drops water go down(a pasive way can be done but require much large heatfins) The heat pump work its own fluid R238 on circuit cycle, its just used to lower the temperature like clouds finde mountains and start rain.

Brilliant channel title! I can't wait to see what the two-bit Mona Lisa looks like.

This is the best idea I have heard today. The previous best was an idea that promised to solve the climate change crisis by removing CO2 from the air using crops and buying massive amounts of them where they can't decompose. And that was earlier today.

This reminds me of a company now called Zeromass that around 7 or 8 years ago created a solar unit that could collect enough water each day for a families drinking needs. It had two solar panels and the water collector between the two. Worked similar to a dehumidifier and also filtered the water.

This is an interesting evolution of water condensing. I am going to be watching this. Now, we need to find a way to provide water for the desert areas that are not near a large body of water. Las Vegas for instance.

It’s all about the dew point and ambient temperature.
The biggest issue is that saltwater / marine environment is very very very corrosive. So what ever you use to get a lot of cold surface area needs to have a good thermal conductivity but be able to withstand the corrosion.

You never fail to educate me bro. Thanks

Reminds me of the Chilean moisture farmers who have been making use of consistent morning mist to harvest fresh water for the last few years