Is it just a matter of not being worth it? I see cooling towers releasing what appears to be a ton of steam, pretty high up. If that steam were captured at the top and allowed to condense, wouldn’t that result in a ton of water with a lot of gravitational potential energy? That water could then be released and used to power water turbines. Maybe I’m overestimating the amount of water being released as steam, or underestimating how much is needed to spin a water turbine to get a meaningful result, but it seems like wasted energy to me.

  • I_Has_A_Hat@lemmy.worldOP
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    2 days ago

    You can get a hell of a vertical drop for free though. A typical nuclear cooling tower, for instance, is about 500ft and thats not the limit to how high the water vapor will travel. Even a couple thousand gallons at that height is a lot of potential energy that could be recaptured, and it appears that large nuclear plants release several million gallons of water per day.

    • dual_sport_dork 🐧🗡️@lemmy.world
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      2 days ago

      They don’t release that much as steam, though.

      The majority of water discharged from nuclear plants is cooling water, which stays in liquid form the whole way. It’s just rather warmer on the way out than in.

      • kersploosh@sh.itjust.works
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        2 days ago

        I went looking for some number for fun. (Every work day needs a good distraction, right?)

        The nuclear plant that provides some of my electricity supposedly intakes 24 million gallons of water per day. As far as I can tell, that is entirely to make up for cooling water that is released as steam. There is a lot more cooling water present in the system which is recaptured and reused.

        24M gallons/day = 16,667 gallons/minute. That’s a significant amount of water. However, it’s several orders of magnitude less than the flow through the smaller hydro power dams in my area. A few that I looked at have average turbine discharges in the ballpark of 6,000,000 gallons/min.

        So for the cost (and vast regulatory headaches) of adding a secondary generation unit onto a nuclear cooling tower, you can just dam a nearby river and get 360x the energy.

        Edit: I was way off on that 24M gallon/day number. After more reading, it looks like only around 2% of that water becomes steam leaving the cooling towers. So condensing the steam would give us a flow rate of 333 gallons/min of liquid water. That’s barely enough flow to operate a water slide at a theme park, let alone generate significant electricity through a turbine.

        • Fermion@feddit.nl
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          2 days ago

          They are not evaporating 24M gallons a day. Most of that will be returned to the body of water it is pulled from but a few degrees warmer. There’s strict limits on how much the plant can warm a river or lake because of concerns about killing fish so plants will have cooling towers in parallel.

          • kersploosh@sh.itjust.works
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            2 days ago

            That makes a lot more sense. I thought the number seemed huge, but everything I could find said they have closed-loop cooling at this particular facility.