Want to read Slashdot from your mobile device? Point it at m.slashdot.org and keep reading!

 



Forgot your password?
typodupeerror
×
Earth Science Technology

California Looks To the Sea For a Drink of Water 332

HughPickens.com writes Justin Gillis writes in the NYT that as drought strikes California, residents can't help noticing the substantial reservoir of untapped water lapping at their shores — 187 quintillion gallons of it, more or less, shimmering invitingly in the sun. Once dismissed as too expensive and harmful to the environment desalination is getting a second look. A $1 billion desalination plant to supply booming San Diego County is under construction and due to open as early as November, providing a major test of whether California cities will be able to resort to the ocean to solve their water woes. "It was not an easy decision to build this plant," says Mark Weston, chairman of the agency that supplies water to towns in San Diego County. "But it is turning out to be a spectacular choice. What we thought was on the expensive side 10 years ago is now affordable."

Carlsbad's product will sell for around $2,000 per acre-foot (the amount used by two five-person U.S. households per year), which is 80 percent more than the county pays for treated water from outside the area. Water bills already average about $75 a month and the new plant will drive them up by $5 or so to secure a new supply equal to about 7 or 8 percent of the county's water consumption. Critics say the plant will use a huge amount of electricity, increasing the carbon dioxide emissions that cause global warming, which further strains water supplies. And local environmental groups, which fought the plant, fear a substantial impact on sea life. "There is just a lot more that can be done on both the conservation side and the water-recycling side before you get to [desalination]," says Rick Wilson, coastal management coordinator with the environmental group Surfrider Foundation. "We feel, in a lot of cases, that we haven't really explored all of those options."
This discussion has been archived. No new comments can be posted.

California Looks To the Sea For a Drink of Water

Comments Filter:
  • But not to Nestle. (Score:3, Interesting)

    by 140Mandak262Jamuna ( 970587 ) on Sunday April 12, 2015 @08:52AM (#49457029) Journal
    Nestle has been bottling the California water, which it takes at some abysmally low cost and ships it out. May be it would be cheaper for California to just buy the entire output of Nestle at market prices than to embark on this desalination process.
    • Re: (Score:3, Informative)

      by Anonymous Coward

      Cost per bottle [lmgtfy.com]

    • by the_humeister ( 922869 ) on Sunday April 12, 2015 @09:03AM (#49457087)

      Wouldn't help much. They bottle about 500 million gallons of water a year. California residents use about 1 trillion gallons a year (about 10% of California's yearly water usage). To put that into perspective: almond farms use about 1.2 trillion gallons a year; alfalfa farms use about 1.5 trillion gallons a year.

    • by Foxhoundz ( 2015516 ) on Sunday April 12, 2015 @09:09AM (#49457113)
      Let's be honest here. The rate and methods by which we are consuming resources from environment is akin to a clueless child playing around the stove. Sometimes we need to get burned by the stove to learn not to touch it again. And the drought in California is natures way of telling us our hand is currently roasting on said stove.
      • by Bing Tsher E ( 943915 ) on Sunday April 12, 2015 @11:22AM (#49457735) Journal

        Who is this 'we' and 'us' you refer to? I've been pumping excess flood water off my land all weekend. I have a 2" pump and it's working hard to keep a corner of my property dry, what with all the rain.

        The county I live in used to be a huge supplier of tomatoes to the whole eastern half of the country, but now all I have around me is cornfields, presumably because of the artificial increase in corn prices that 'environmentalists' spurred with alcohol-as-a-fuel initiatives.

        Whatever the political incentives there are that caused so much arid land in California to be converted to farmland (there are certainly said political factors at play- there always are) should be reviewed and removed. It doesn't make sense to grow crops in a desert if the real market forces at play would make it impossible if the water costs for farmers weren't distorted by politics.

        • by n3r0.m4dski11z ( 447312 ) on Sunday April 12, 2015 @12:03PM (#49457911) Homepage Journal

          "presumably because of the artificial increase in corn prices that 'environmentalists' spurred with alcohol-as-a-fuel initiatives."

          I dont disagree with most of your post, but two things about this statement are wrong. One, if you remember your history of the last 40 years, corn turning into alcohol was a problem that BUSH (not an environmentalist) pushed as a political solution to foreign oil. Not to mention that because "corn must go in everything", the US produced way more corn than it could ever use. Those two reasons are why corn is turned into ethanol in the usa. You may want to look into the history of big business and sugarcane as well in the USA. There are a few reasons that americans produce much corn*, but predominantly because it is cheaper;

          "The use of HFCS in the United States is partially attributable to government tariffs that maintain domestic sugar prices at above the global price and subsidies to corn growers that lower the cost of the primary ingredient in HFCS, corn."

          https://en.wikipedia.org/wiki/... [wikipedia.org]

          9 out of 10 environmentalists you meet I am sure will tell you that they absolutely do not want food being turned into fuel for cars. They want to reduce peoples dependance on cars and that involves using LESS fuel, not more. Do you know any "environmentalists" at all?

          *( the paranoid part of me thinks that the government wants you to eat more corn sugar so that you will get fatter. Fat people dont start revolutions )

        • by RubberDogBone ( 851604 ) on Sunday April 12, 2015 @04:46PM (#49459095)

          Well that is the unspoken elephant in the room: we have people trying to live in arid areas never before used for habitation, and we have farmers and ranchers trying to make a go of their businesses in areas never before suitable for that kind of thing, all thanks to supplied sources of water which are now dwindling.

          The simple answer is that all these people should pack up and leave, Nobody is promised they can live in any particular place. And some places are just not meant for it. But people hate to do that. They'd rather fight and protest and pay lots of money to truck in water, etc. And struggle for years trying to make it work.

    • by Rei ( 128717 ) on Sunday April 12, 2015 @09:15AM (#49457151) Homepage

      Agriculture is the big culprit, taking 80% of the state's water (and in return ag and mining together only make up 2% of the economy). Its a totally unsustainable situation that has to be remedied sooner or later.

      That said, I do have hope for the future of desalination. Not with current techs (as with the one in the article, they're energy hungry and expensive), but potentially with new techs that don't rely on electricity as their power source. One I find interesting is this one [economist.com]. Basically, it relies on evaporation, which isn't unique... but *not* by capturing the evaporated water. It's just concentrated salt solution that's desired, which means that you don't need some sort of elaborate vapor capture system and sealed tanks, just simply any sort of open area that can hold water - even an endoherric basin or jettied-off chunk of ocean. Far, far cheaper.

      Concentrated brine is turned into freshwater via ion bridges: it's connected to two tanks of normal seawater, one by a positive ion bridge and the other by a negative ion bridge. The brine greatly wants to dilute into the normal seawater, but it can't because the ions would be imbalanced in the two side tanks. So these two side tanks are connected to a third tank of seawater with the opposite ion bridges, so that salt can dilute from the brine into the two seawater tanks, but only if they also "suck" the opposite ion out of the final seawater tank. Since the brine concentrated brine wants to dilute so much, the action is energetically favorable and continues until there's no salt left in the third tank - aka, it's freshwater. (An actual implementation would be a continuous process, not fixed tanks, of course)

      Apart from basic pumping needs, there's no electricity needed. The energy source is just "sun falling on any water chunk of seawater that's not free to circulate with the open ocean". You might even be able to have it filled automatically in some places via the tides or waves breaking over a jetty without having to pump new seawater in, leaving the only pumping needs for distribution.

      Of course, the main tech limitation right now is making the salt bridges have high enough throughput and reliability to justify the capital costs.

      • don't rely on electricity as their power source

        Why wouldn't we use the single most abundant energy source on the planet to power something that is energy intensive? Oh and said energy source has no fuel costs?

        • Why wouldn't we use the single most abundant energy source on the planet to power something that is energy intensive? Oh and said energy source has no fuel costs?

          Because it's stupid to collect solar energy with PV cells, which convert it to electricity, which gets stored chemically in a battery, which gets converted back to electricity, which gets converted to rotational mechanical energy in a motor, which gets converted to linear mechanical energy in pumps which, which gets converted to pressure mechanica

    • Re: (Score:2, Insightful)

      by Anonymous Coward

      Not helping.

      What they nee to do is stop selling subsidized water to farms. Especially almond and alfalfa. Let them pay market rates.

  • Lifestyle (Score:3, Insightful)

    by AmiMoJo ( 196126 ) * on Sunday April 12, 2015 @08:55AM (#49457051) Homepage Journal

    The environmental groups are right. American families use a lot more water than those in other countries with a similar quality of life. It's always cheaper to save water or save energy, the problem is that people are unwilling and take it as some kind of assault on their way of life and freedom to waste. It's dumb because it just costs them more money.

    • Except California's water usage per capita is one of the lowest (if not the lowest) in the country.

    • Re:Lifestyle (Score:5, Interesting)

      by alen ( 225700 ) on Sunday April 12, 2015 @09:11AM (#49457127)

      in america we are expected to shower daily

      • Re: (Score:3, Interesting)

        You say that like it's a good thing.

        Do you know what the end result is of making sure you flush off all the oils and body waxes that our bodies have evolved to emit to protect our skin and organs from invasive organisms?

        It's fairly similar to the process where the growth medium is 'sterilized' when you prepare petri dishes to grow cell cultures. A 'squeaky' clean body is a body 'shrieking' in terror, to put it succinctly.

        Fuck you, soap and cosmetic companies. There is a balance to be arrived at, and the s

      • I don't think that showers are the problem. Try the insistence on a bright green lawn surrounded by trees, bushes and flowers. Growing that in the middle of what is effectively a desert takes a lot more water than one shower a day.

        If the average family in Canada tried to grow tropical plants in their gardens using heat lamps in the winter to stop them from dying we would soon be having a major electricity crisis (well at least until the global warming from burning all that coal kicked in). If the average
    • Re: Lifestyle (Score:5, Interesting)

      by Anonymous Coward on Sunday April 12, 2015 @09:13AM (#49457139)

      Just 20% of water usage in California comes from residents and non-ag businesses. 80% of water usage comes from agriculture. Almonds alone (70% of which are exported out of the country) account for about the same amount of water as all residences in the state.

      People could switch to a two-minute shower once a week and it wouldn't make a measurable difference. Flood irrigation in a desert is the real problem, and until that's universally recognized, nothing will be solved.

      If you retrofitted all almond groves to use drip irrigation, you could maintain the same crop output at less than half the water usage. Why not? Because it costs money, and growers would rather just pull more from their wells. The aquifers in California are a true Tragedy of the Commons.

      • Re: Lifestyle (Score:5, Informative)

        by AmiMoJo ( 196126 ) * on Sunday April 12, 2015 @10:03AM (#49457319) Homepage Journal

        Almonds alone (70% of which are exported out of the country) account for about the same amount of water as all residences in the state.

        That's why in other countries they have made farmers switch to more suitable crops that don't need so much water, or do as you suggest and use more efficient watering methods. Almonds are nice and all but is it really a good idea to use so much of your limited water supply on them?

        That's why I mean by lifestyle. Not just showing less (FYI we shower just as much in Europe), changing what you eat, what you grow, what industries you allow to use massive amount of water. Ask yourself why almonds continue to be grown, even though it is causing so many problems.

        • Re: Lifestyle (Score:5, Interesting)

          by TheGavster ( 774657 ) on Sunday April 12, 2015 @10:19AM (#49457387) Homepage

          I think that the 70% export figure indicates that while "other countries" have switched which crops they grow, they haven't changed their almond consumption rate. Similar to how the western world has eliminated the environmentally destructive extraction techniques necessary for rare earth metals, but still buys cell phones because China is willing to take the hit.

          • by AmiMoJo ( 196126 ) *

            I don't have data for almond consumption rates, but Europe does have the Regulation of Hazardous Substances directive (RoHS) which means that China has had to clean up products it exports to us, so it's not true that simply export our environmental problems elsewhere. It's the same with carbon rules, if a company moves manufacturing to China then the CO2 released in China still counts. If it uses rare earth metals the carbon released mining them still counts, even if it was released overseas.

        • It was pretty clear what you meant and you weren't making a point about farming. This kind of econut proselytising is why people are not inclined to listen to environmentalist activist groups.

          Not just showing less (FYI we shower just as much in Europe)

          Not even showering less. Get the memo, the lifestyles of the citizenry aren't the problem.

    • Re: (Score:3, Interesting)

      by trout007 ( 975317 )

      It's always cheaper to save water or save energy,.

      That's not true at all. There are diminishing returns.

  • This seems like a perfect project to power with solar energy. You can easily store the fresh water in times of peak solar production, and draw from reserves when solar output is low.

    • Re:Energy use (Score:5, Interesting)

      by silas_moeckel ( 234313 ) <silas AT dsminc-corp DOT com> on Sunday April 12, 2015 @09:27AM (#49457195) Homepage

      They should not be using electricity in the first place. Desalination is a perfect pairing for cogeneration with Gen IV fission plants. Added benefit is you can put the entire output to desalination when demand is low to avoid using peeking plants.

    • Re:Energy use (Score:5, Interesting)

      by Applehu Akbar ( 2968043 ) on Sunday April 12, 2015 @09:58AM (#49457295)

      Desalination is an ideal use for fluctuating power sources in general. Instead of spending trillions to put wind and sun on the grid, use them to provide water for California and Texas. At the same time, we won't be using energy-intensive R-O forever. Cheaper desalination tech improves the equation.

  • The obvious answer (Score:5, Insightful)

    by DrXym ( 126579 ) on Sunday April 12, 2015 @09:10AM (#49457123)
    Start whacking industries who use the most water with a levy to pay for the plants. e.g. almond growers. If they are suddenly motivated to develop ways to save water then fine, if then don't then it's still a new plant.
    • That's socialism!! I signed my pledge not to raise taxes etc

      • That's not socialism. No laissez-faire capitalist would ever say that an industry should be given a handout. Now, mercantilist / corporate-cronists might argue that these subsidies are "needed" but that's one reason why laissez-faire capitalists are for less regulation. (Regulation can, and often does, include handouts to politically connected companies.

        Removing these subsidies is PRECISELY what laissez-faire capitalism is all about.

        And, to continue this, no Libertarian or small-government type of a
    • Obvious? These faceless ag farmers are drilling down and draining the aquafers. Smaller farmers do not have that kind of access. But no one hears about accessing the worlds largest body of water as an irrigation source. But then again, developers are grinning at drying up the Kings River.
    • Start whacking industries who use the most water with a levy to pay for the plants. e.g. almond growers. If they are suddenly motivated to develop ways to save water then fine, if then don't then it's still a new plant.

      Or better yet, let the market set the price for water. The California water shortage is just another example of what happens when we allow the government to manage resources.

    • Re: (Score:2, Insightful)

      by caseih ( 160668 )

      As far as industries go, farming is in a rather unique situation. Manufacturing and processing plants, which can use a fair amount of water, simply pass on their increased costs to the consumer. Water conservation increases somewhat, which is good, while overall prices go up. Farmers, on the other hand, cannot pass on their costs to consumers. They are price takers. So simply making farmers pay more for water may help somewhat, but ultimately it will just drive farmers out of business. If enough farmers

  • by HuskyDog ( 143220 ) on Sunday April 12, 2015 @09:11AM (#49457131) Homepage
    At first I thought that the 'Acre-Foot' sounded like a joke unit, but obviously it is the amount of water that one hundred and twelve horses need to drink if they are each to plough eight hundred furlongs of furrow in a fortnight!! Honestly, you Americans just crack me up with your wacky units. So much more fun than being stuck with boring old litres!
    • by Black Parrot ( 19622 ) on Sunday April 12, 2015 @09:21AM (#49457179)

      We're trying to modernize acre-feet to Manhattan-fathoms, but the traditionalists won't have anything to do with it.

    • by SuricouRaven ( 1897204 ) on Sunday April 12, 2015 @09:38AM (#49457229)

      The acre-foot may seem an odd unit, but it makes calculations much simpler when you have to work with either catchment or agriculture. It's much like the use of kilowatt-hours in the electrical industry: A unit of convenience.

      It'd be more convenient still if they went to hectare-meters, then the engineering and policy sides wouldn't have to convert units every time they spoke.

    • by quenda ( 644621 )

      For the older Americans, 1 acre foot = 5,172 hogsheads.
      Its also equal to 9.7 cubic rods, or 325,851.429 US gallons.
      For the Aussies, that is 2 micro-Sydney-Harbours.

      So remind me, what is the problem you guys have with metric?

    • It's great isn't it? Google says 1 acre foot is around 1.23 megalitres (reference [google.co.uk]) or 1230 m^3.

      The more astounding bit once you do the conversion is that according to TFS the average individual Californian living in a 5 person household uses well over 300 litres per person per day (reference [google.co.uk]). I'm from the UK, a place with over twice the rainfall of California, and yet our typical usage per person in a five person household is only 100L/person/day (reference [ccwater.org.uk]). Even our "high usage" households only use 135L/

      • by jpapon ( 1877296 )
        Actually it's even worse than that 178 gallons per capita per day [ppic.org] ~ 670 liters. A lot of that is probably due to watering lawns though, something you don't need to do much in the UK I imagine. Swimming pool evaporation is another one you don't have much of.

        I wonder where the rest of the difference goes? Less efficient clothes and dish washing machines maybe?

    • by youn ( 1516637 )

      But more importantly, how many libraries of congress is that?

  • What about Poo? (Score:3, Interesting)

    by Anonymous Coward on Sunday April 12, 2015 @09:18AM (#49457161)

    Seriously, desalination is hard. Much harder than just completely cleaning and treating all waste water. That is why Singapore switched their desalination plant to poo processing. Getting rid of salt is incredibly hard.

    • by gtall ( 79522 )

      I believe the county that San Diego is in (is it San Diego county?) has a poo processing plant. At first the residents were a bit squeamish but now seem to accept it.

  • $75 water bill? (Score:5, Insightful)

    by JonWan ( 456212 ) on Sunday April 12, 2015 @09:25AM (#49457191)

    I want that, mine was $141 last month. We had an increase this year by $5 a month because the lake is dry and they had to drill a bunch of water wells. A local private water coop regularly charges $200 a month. Suck it up Calif. If we can afford it in west Texas, you can in calif.
       

    • Re: (Score:3, Insightful)

      by ColdWetDog ( 752185 )

      No, don't suck it up. That's the problem. Wiping out the aquifers just kicks the can down the road.

      You need to start picking up the can and recycling it.

  • For desalinating i guess the main energy consumption is in pumping and the desalination itself...

    Could a modified steam turbine concept be used that is driven directly by concentrated solar... that way the desalination mostly takes care of itself and the energy generated can be used for pumping... making it pretty much self sufficient.

    • Re: (Score:2, Informative)

      by Anonymous Coward

      Forget it, you're trying to sustain the unsustainable. This new plant will provide drinking water for about half a million people, which is the population growth of the state in 1 year. By the time it is running it will in effect only be providing water for the new arrivals.

  • Back in the 60's I lived on the US naval base in Guantanamo Bay Cuba and our water source was a desalination plant. Extra water was stored in a old ship anchored in the bay. The climate there is similar to SoCal, arid and mountainous. Sounds like a reasonable approach to take and should it rain stored desalinated water would provide a backup plan, which they need.
  • by rossdee ( 243626 ) on Sunday April 12, 2015 @09:45AM (#49457247)

    We could use the heat from the sun to evaporate seawater, then condense it.

  • It would be interesting and clever to follow the alternative energies path, this plant in Australia gives desalination and energy power from ocean waves http://thinkprogress.org/clima... [thinkprogress.org]
  • Carbon emissions? (Score:5, Informative)

    by PRMan ( 959735 ) on Sunday April 12, 2015 @10:30AM (#49457455)
    San Diego has the cleanest power of anywhere in the whole US. They currently get over 25% of their power from renewable sources such as wind and solar and 67% from natural gas. They burn ZERO coal or oil. They are the model for the whole US.
    • Natural gas isn't "clean". It's cleaner than coal and an excellent bridge technology as it uses turbines than essentially can run off of anything that you can get to explode. But it creates lots of CO2 and uses a non renewable source. So don't pat yourselves on the back too hard.

  • Sign me up! My wife and I use VERY little water (no lawn, few flowers, irrigate about 6 minutes total per week; short showers, 2 loads of laundry a week) and we're paying $200 per month. We live in Ventura, CA. So if It's $400 per YEAR for both of us - I'm all for it! Desalinated water is cheaper than what we pay right now - why aren't we moving to it immediately?
    • Move to a sailboat and Bob's your uncle. You can have a nice RO system for about $20K USD that will fit your bill quite nicely with the added bonus that if you don't like your neighbors you can move a bit. No central utilities (well, shore power if you like). No lawn (just algae).

      The downsides is that you will spend an occasional weekend chasing down leaks and pressure spikes. RO is a very, very cranky technology that doesn't really scale well. You see those pictures? Thousands of plastic pipes, pumps

  • by argStyopa ( 232550 ) on Sunday April 12, 2015 @12:00PM (#49457905) Journal

    Maybe the entire country could stop massive subsidies for farmers to grow crops in what amounts to coastal steppe/desert? Oh, and the massive subsidies allowing millions and millions of people to live in deserts (and yes, I'm not just looking at California).

    It was a stupid policy in the early 20th century, but at least then there was the incentive to populate the (south) west coast for geopolitical/security reasons. Now, simply start charging people (farmers, corporations, individuals) the ACTUAL costs of the water they use and let the market cull the system. /solved.

  • Flibe Energy likes to talk about how their liquid fluoride thorium reactors can provide electricity and process heat for desalination. California is short on electricity and water, a perfect place for LFTR. The earthquake problem might be an issue but LFTR doesn't work like the first and second generation reactors in Fukushima and Chernobyl. This is a fourth generation design that cannot explode. A meltdown is possible but unlikely, and if it occurs a China Syndrome situation is impossible as once containment is lost so is criticality.

    Since LFTR involves continuous processing of fission products it would nearly eliminate the risks of iodine and strontium radioisotopes being released into the environment. Any loss of containment would be small as the continuous processing allows for harvesting these elements for use in medical and industrial applications. Solid fuels prevent this because all those radioactive fission products in a solid fuel rod at once makes the spent fuel uneconomical to process as it is much too radioactive, and allowing the radiation to decay means the valuable isotopes have decayed away as well.

    California using LFTR to make energy and drinking water cheaply for its population won't happen any time soon of course. They'd rather drive profitable industry out of the state. It has been said that people get the government they deserve. California has voted themselves water shortages and high electricity prices.

You know you've landed gear-up when it takes full power to taxi.

Working...