There are environmental costs of desalination, as well. Sea life can get sucked into desalination plants, killing small ocean creatures like baby fish and plankton, upsetting the food chain. Also, there's the problem of what to do with the separated salt, which is left over as a very concentrated brine. Pumping this supersalty water back into the ocean can harm local aquatic life. Reducing these impacts is possible, but it adds to the costs.

Despite the economic and environmental hurdles, desalination is becoming increasingly attractive as we run out of water from other sources. We are overpumping groundwater, we have already built more dams than we can afford economically and environmentally, and we have tapped nearly all of the accessible rivers.

Far more must be done to use our existing water more efficiently, but with the world's population escalating and the water supply dwindling, the economic tide may soon turn in favor of desalination.

The Pacific Institute is an Oakland, Calif.–based, nonprofit think tank devoted to solving the world's water needs. The organization reviewed these issues in depth in a 2006 report entitled “Desalination, with a Grain of Salt.” Peter Gleick also authored a book in 2000 called The World's Water, in which he and his colleagues explore desalination and other topics.

35 Comments

1. 1. hthall 07:23 PM 7/23/08

   What an embarrassing error in the first sentence. I'm sure that the intended meaning was that less than .5% of freshwater used is the result of desalination (i.e. on the order of 20 cubic kilometers a year, which matches figures given later), but what it actually says is that less than .5% of the water in the oceans (i.e. less than 6,500,000 cubic kilometers) is desalinated for use.

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2. 2. PeterGleick in reply to hthall 01:59 AM 7/24/08

   Author response: hthall is exactly right -- an embarrassing error on my part - mea culpa. I should have caught it in editing! What this should say (of course) is that of all the water humans currently use, less than half a percent of it comes from desalination. Thank you hthall, and we'll try to post a corrected copy!
   Peter Gleick

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3. 3. stonehat 06:16 AM 7/24/08

   I was shocked when I read that too ( in the RSS version ) but please don't be embarrassed: You made a small mistake, admitted it when it was pointed out and tried to get it corrected.
   
   I wish all authors - on the web, and elsewhere - were as good about this sort of thing !
   

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4. 4. Shane 10:43 AM 7/24/08

   This is where I see solar and wind energy being an enormous help. They are inconsistent energy supplies but that is fine in something like a desalination plant. In some ways, if you think about it, it would be an energy storage system.

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5. 5. weedave in reply to Shane 11:20 AM 7/24/08

   Shane makes an excellent point. What could be more environmentally friendly than a wave-powered generator far out at sea pumping fresh water back to shore and disposing of the highly saline waste back where it will be heavily diluted and dispersed by the surrounding seawater, away from shorelines where it would damage aquatic life? (Answers on a postcard to...)

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6. 6. Bobruss 12:36 PM 7/24/08

   In the mid 1950's, a French Scientist named Henri Coanda had a solar desalination tower working in a tidal pool environment . No extra energy was required. The story of Coanda's experiments was written up in Popular Mechanics magazine, in the 1961-1962 time frame.
   
   The French government had a monopoly on salt. Coanda insisted he was making fresh water; the government insisted he was making salt, because it was piling up under his tower. They shut him down, in typical government shortsightedness.
   
   The last time I looked, the Coanda papers were still available on line.

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7. 7. PeterGleick in reply to PeterGleick 12:46 PM 7/24/08

   This has now been corrected. Thanks to the sharp-eyed SciAm readers!
   Peter Gleick

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8. 8. ddpetrie 12:51 PM 7/24/08

   all these methods of making water from sea water etc is the same as continuing to give aspirin to someone with pain. On is trying to cure a sympton not the cause which as the author of the article referred to i.e. the world population is increasing. Cure that and no more problem. Very difficult of course politically.

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9. 9. abrasileirosilva 12:52 PM 7/24/08

   It's great, it's technology. Fresh water from seawater! Very different of the salty tearfully blahs about restrictions of water consumption. Articles like that bring hope to our minds.

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10. 10. shignak 01:04 PM 7/24/08

    A great, relavant article. Using fossil fuels for energy source to desalinate sea water seems like substituting another problem for the first. Solar, wind, and geothermal energy are other options, but the condensation process will require heat rejection into the already warming ocean. Reverse osmosis is clearly the preferred method using currently available technology.
    
    As for the brine, it seems the earth and sun can be used as a massive retort by pumping the brine into the Dead Sea, Salt Lake, Salton Sea, or salt flat, and let the sun further evaporate to solid salt. The solid salt itself might be a source of sodium, magnesium, or calcium like aluminum is from bauxite. Sorry, I'm not a chemist, but chemical engineers can develop processing plants if there is enough incentive.
    
    

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11. 11. Raúl Caicedo Astudillo 08:39 PM 7/24/08

    We can get hot air by recycling the heat so we can get drinkable water at low prices.
    
    It has been found that the heat is recyclable like any other object. When the heat is recycled an additional energy emerges. Thermal Energy Recycling system (TERS) will be the energy of the future. Open your minds and we will be able to replace fuels.
    
    Thousands of letters I have sent commenting how to get hot air by recycling the heat. But the Scientific community is in the worst paradigmatic paralysis of all times. The Galileos time has not ended yet. The founders of thermodynamics are responsible for the problem of pollution, global warming and dependence on fuels now.
    
    
    I am inviting all of the governments of the world and institutions, to have a demonstration with a hot air generator prototype in Cali, Colombia. It uses 5.3 Kw/hour and produces 12 Kw/hour. It produces 1050 cubic meter of hot air/hour up to 73 �C. If some components of the prototype are improved we will be able to get the same volume of air up to 250 �C with the same 5.3 kw/hour. The prototype uses a blower; (0.35 psi and the heat produced by the electric motor is evacuated). The prototype does not use fuels or electric resistor to heat the air.
    
    More information would be sent if required.
    
    
    Regards.
    
    Ra�l Caicedo Astudillo

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12. 12. swede1934 12:05 AM 7/25/08

    Why is there no discussion of the use of Nuclear Energy to produce fresh water? A nuclear power plant set up on a coastal location would produce both electrical power AND fresh water, and return water with only a small increase in salinity back to the ocean. To me, this would be a win-win situation.

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13. 13. zoladegorgon 12:07 AM 7/25/08

    Try this:
    1) Expose ocean water to radiation from a nuclear reactor
    2) Allow the evaporated water to cool and precipitate out as drops and ice crystals.
    3) Store the ice crystals at high elevations to keep them cool. Store the drops in cheap containers made of rocks and dirt.
    I know it works, we've done it for millions of years on a scale that dwarfs the desalination plants. Yet it's still not enough to satisfy the demand from the burgeoning population.

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14. 14. carlos54 12:17 AM 7/25/08

    I believe that perhaps, freshwater must be used only to drink. It is necesary to develop technologies in order to use salt water to wash or industrial uses. So the "drink water" is lowered about two galon by person (including water directly used in food preparation).

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15. 15. zoladegorgon 12:19 AM 7/25/08

    Two cavemen, Og and Erk
    Og: Lets use fire
    Erk: But won't that put carbon dioxide in the air?
    Og: Yeah, but just a little bit, we can't hurt anything.
    Erk: Okay, lets also desalinate water
    Og: But won't that increase ocean salinity?
    Erk: Yeah, but just a little bit, we can't hurt anything.

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16. 16. glenn in reply to 01:42 PM 7/25/08

    that is why god invented war

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17. 17. davea0511 in reply to ddpetrie 02:34 PM 7/25/08

    I guess I don't understand why it has to be so expensive. If an African family built two 4x8 rectangular frames that can seal together a black and a clear plastic sheet at the edges in direct sunlight, dig a 4x8 trench for it to sit it and fill it with saltwater, fill the space with hydrogen (far superior H2O carrier than air), then a large plastic trough suspended between the two sheets should provide enough water out of there for their needs and it will cost them about $20 in materials (though they'd need access to a community salt-water irrigation system). Of course they'd probably need new Visqueen every year (maybe $1 worth). The hydrogen could be trickle fed by a little 20W PV panel - that would be the big one-time expense ($100) but should last for 20-30 years.
    
    Total amortized cost = $3 to $5 per year per family. That's a far cry from the $1/M^3water quoted in this article

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18. 18. Raúl Caicedo Astudillo 07:26 PM 7/25/08

    We can get hot air by recycling the heat so we can get drinkable water at low prices.
    
    It has been found that the heat is recyclable like any other object. When the heat is recycled an additional energy emerges. The Thermal Energy Recycling system (TERS) will be the energy of the future. Open your minds and we will be able to replace fuels.
    
    Thousands of letters I have sent commenting how to get hot air by recycling the heat, but the Scientific community is in the worst paradigmatic paralysis of all times. The Galileo’s time has not ended yet. The founders of thermodynamics are responsible for the problem of pollution, global warming and dependence on fuels now.
    
    
    I am inviting the governments, institutions and foundations to send the experts in order to have a demonstration with a TERS hot air generator prototype in Cali, Colombia. It uses 5.3 Kw/hour and produces 12 Kw/hour. It produces 1050 cubic meter of hot air/hour up to 73 ºC. If some components of the prototype are improved we will be able to get the same volume of air up to 250 ºC with the same 5.3 kw/hour. The prototype uses a blower; (0.35 psi and the heat produced by the electric motor is evacuated). The prototype does not use fuels or electric resistors to heat the air.
    
    More information would be sent if required.
    
    
    Regards.
    
    Raúl Caicedo Astudillo
    

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19. 19. alainw22 08:32 AM 7/26/08

    Since the early 1920s, all the new human problems are due to overpopulation. Efforts should be made in the future to reverse this trend. Remember, in 1960 the world population was less than half what it is today.
    With today's technological capabilities and people's awareness and with three billion people on earth, life could become more interesting to live. I forsee future generations more conscious of their social choices.

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20. 20. joetommasi 09:20 AM 7/26/08

    If the problem is how to get rid of the salt, why not add it to the discharged water? It'll bring the salinity back to the same level as it came in.

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21. 21. Jonny_Jag 06:18 PM 7/26/08

    hey I'm just a student, so forgive me if I'm mistaken, but can't the production of brine be turned into a positive? The main products of the electrolysis of brine are chlorine and hydrogen, both of which are industrially valuable. The caustic liquor which remains can then be boiled down to leave 50% sodium hydroxide solution and 1% sodium chloride solution... I thought that that option would have been apparent from the beginning?
    
    I suppose the main question which remains is where to obtain the energy for the electrolysis of brine, but i mean, if desalination plants are normally near the shore ( please correct me if I'm wrong) then couldn't this allow for the utilization of tidal/wind power, both for the desalination process and for the electrolysis?
    
    Maybe I missed an important point, so any feedback would be appreciated.

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22. 22. Damir Ibrisimovic 10:26 PM 7/26/08

    As always, we are blinded by high tech solutions. SEAWATER algae are perfect natural desalinating plants. And it is easy to extract fresh water from some larger, fleshy ones. Farmers could easily grow algae on barren land and use them to fertilise and water fertile parts of their property. And the story does not end here: http://www.abc.net.au/news/stories/2008/07/01/2290426.htm
    
    Kind regards,

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23. 23. katesisco 12:51 PM 7/27/08

    Just thinking; all those endless expanses of salt, the Med was totally gone once, all that remained was salt. Salt deserts everywhere geologists look, and now consider that freshwater is coming to an end and what would our world look like if we have to consume sea water and dump the salt...............would it look like it does now, with surprisingly large salt pans and salt domes and salt expanses.............geologically unexplainable enormous expanses of evaporated salt. Leaves the question of where all the water went, doesn't it?

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24. 24. katesisco in reply to Damir Ibrisimovic 01:00 PM 7/27/08

    I have recently read Trevor Norton's book, Diving to get out of the Rain, and it is so well written, I enjoyed it.
    
    He addresses many different issues and speaks to the SEAWATER ALGAE usages for many things but, as always, the single commodity is ALWAYS integrated in the community of living things, where the success of one depends on the success of all, and as we find in fish farming, an effort to single one thing out from many entails unintended consequences.
    
    I am, of course, old. Age makes for skepticism and justifiably so. Just a student also.

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25. 25. jsocrates@gmail.com in reply to hthall 09:06 AM 8/2/08

    maybe what the author intended to say is that the freshwater available in the ground is less than .5% of the water in oceans.

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26. 26. Jofez 11:21 PM 8/4/08

    What about red tide? Can this desalinization method also get rid of germs?

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27. 27. schow 09:54 AM 9/1/08

    I remember a few years ago I read an article about research into nodes that absorb freshwater out of the sea, which would not require the amount of energy and costs of reverse osmosis. Has any progress come of this research?

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28. 28. schow 09:57 AM 9/1/08

    I remember a few years ago I read an article about research into nodes absorbing fresh water from the sea which would not require the energy or the costs that reverse osmosis does. Has any progress been made on this research?

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29. 29. fastfood in reply to weedave 12:07 AM 9/10/08

    Couldn't the sea salt just be used in place of table salt, salt blocks for live stock, etc, rather than mining it?

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30. 30. maglin1 02:07 PM 11/20/08

    The following idea sounds too good to be true, but I cannot find the fault in it. Perhaps someone else can.
    
    Why can't reverse osmosis be accomplished by using the ambient water pressure of the ocean at great depths? All you have to do would be to take a long pipe with an osmotic filter on the end and lower it deep into the water to a depth where the pressure would force pure water through the filter into the pipe. I've seen calculations that demonstrate that this is not all that deep and certainly within our technological capabilities. Eventually, the pipe would fill up with pure water, thus killing the pressure differential that drives the osmosis. This problem would be fixed by simply pumping the fresh water out of the pipe. I don't understand why this idea cannot be implemented on a commercial scale. It eliminates the huge power requirments to force water through the filter (some power would be required to pump out the fresh water, but no more than a regular well). It also eliminates the problem of residual brine. What am I missing?

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31. 31. eco-steve 07:55 PM 11/25/08

    Middle-west agriculture is based on irrigation by pumping the Ogalla aquifer that will run dry in 30 years time. I read here that farmers pay less than 10 cents a cubic meter for water. It is surely high time to make agriculture pay the true replacemant cost of (desalinated) water if US farming is to survive into the second half of this century. The alternative doesn't bear thinking about...

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32. 32. eco-steve 08:03 PM 11/25/08

    Midwest agriculture depends on irrigation by pumping the Ogallala aquifer which will run dry in 25 years time. I read here that farmers only pay 10 cents per m3 for water. Surely they should pay the replacement cost of water, (via desalination), if the US is to prepare for agriculture in 30 years time. The alternative will be mass starvation both in America and the World.

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33. 33. JC 10:10 PM 3/27/09

    Desalination is expensive way. It is good if the energy can be convert or fully utilized as global warming and animal extinction is the hot issue curently.

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34. 34. JC 10:20 PM 3/27/09

    Desalinazation is very costly method. It is great oif the energy can be converted into others use as global warming and animal extinction is the hot issue.

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35. 35. mikesmullin 11:24 PM 3/21/13

    There is a multi-billion dollar international business opportunity here for the right engineer-entreprenur. We have two overlapping disruptive technologies that could solve this problem: a) HHO as an alternative to Oil/Gas; the electrolysis of water to separate the hydrogen and oxygen into a combustable gas form, which functions as an alternative to gasoline and runs in any gasoline-based engine without modification. the downside being the same, electrolysis costs a lot. but the benefits being that the byproduct of the Browns Gas combustion is water again. so it can be made into a closed-loop system. There are already cars and houses running on this technology as open-source efforts to perfect it. In order to make electrolysis effective, salt is often added as an electrolyte. See the connection? b) Sea Water Desalinization as an alternative to Fresh Water. Instead of taking a centralized on-grid approach, if you filled gas tanks with sea water then there are potentially two uses out of a single separation event: fuel for machines, and fresh drinking water for humans. Water is the most abundant resource on the Earth. Additionally, it does not disappear; we consume it, but through perspiration, evaporation, and natural planetary cycles it is a closed-loop system. The water you began with is the water you end with. It is life-giving. This approach is not only scalable, it is sustainable, and it threatens the livelihood of the centralized energy capitalists who seek to enslave the Earth and all its inhabitants. Research it.
    
    Also check out the architectural approaches to desalinization; buildings which utilize wind, angles, evaporation, and the sun to capture massive amounts of moisture from the sea breeze; with zero energy input they produce fresh water.

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