The concrete blocks are slowly hoisted upwards by motors powered with electricity from the Swiss power grid. As each block descends, the motors that lift the blocks start spinning in reverse, generating electricity that courses through the thick cables running down the side of the crane and onto the power grid. In the 30 seconds during which the blocks are descending, each one generates about one megawatt of electricity: enough to power roughly 1,000 homes.

  • Zerush@lemmy.ml
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    3 years ago

    Both statements are wrong. Water is cheaper than concrete and these blocks won’t work for a long time. Apart from that, Concrete is definitely not “green” by any means.

    Yes, but wiss less mass, ok, concrete isn’t so grren, but this is irrelevant in one construction for years, same in all constructs made with concrete, like the employed for hydro energy dams, which can only be used in places that allow the accumulation of hidro energy.

    True that it can’t store the amount of energy like a hidro energy dam, but this is not intended to replace it, but rather an additional system that can be used, like others that exist, such as the aforementioned saline hor geothermic eat accumulators for places where a dam is not viableN

    • Helix 🧬@feddit.deB
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      3 years ago

      Yes, but wiss less mass

      What do you mean by this? I bet you I can buy ten tons of water for way less money than ten tons of concrete, not only because you need lots of water to make concrete…

      Apart from that, you need lots of dead weight just to hold the cranes in a stable position.

      • AgreeableLandscape@lemmy.ml
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        3 years ago

        I bet you I can buy ten tons of water for way less money than ten tons of concrete

        In most cases, you can even get water for free with rain and runoff. Pretty much no man-made lake is filled manually, they just dig a hole and wait.

      • obbeel@lemmy.ml
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        3 years ago

        Did you read the article? The concrete block is supposed to be reused for a long period of time, that’s why the guy said it’s a long term return project.

        • Helix 🧬@feddit.deB
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          3 years ago

          Did you read the article?

          Yes, did you? Did you also form your own opinion based solely on the article?

          How long is the period of time? How long does it take for concrete to actually be affected by weather conditions?

      • Zerush@lemmy.ml
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        3 years ago

        Every crane need a lot of dead weight for a stable position, don’t see problems where are no exists. Concrete isn’t a sustance which contaminate, is cheap and disposable in any quantity as byproduct in any fundition of steel. They all have beside mounts of concrete.

        • Helix 🧬@feddit.deB
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          3 years ago

          Every crane need a lot of dead weight for a stable position, don’t see problems where are no exists.

          Yes, but why build a crane when you can also build a water reservoir?

          • Zerush@lemmy.ml
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            3 years ago

            What will you do in a desert zone? It’s the best for solar energy but not for water

            • Helix 🧬@feddit.deB
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              3 years ago

              You could for example use black balls to reduce evaporation or power lines to places where you can store energy. You can also use batteries, electrolysis, huge flywheels, synthetic oil, molten salts or the sand itself.

              I didn’t say I have the optimal solution, but in a desert you have very high temperatures heating up the concrete and sand and wind eroding it and clogging up the gears and pulleys. So it’s not optimal for the crane solution either.

    • AgreeableLandscape@lemmy.ml
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      3 years ago

      I don’t see why pumped hydro storage needs to be replaced or how this will have any benefits over it for bulk energy storage. At the end of the day, gravitational energy is gravitational energy whether it comes from water or concrete. And one is much more mature and proven than the other, with less mechanical complexity (two lakes, a pipe, pumps and turbines compared to an extremely complex system of cranes, rotation points, and pulleys with motor-generators) which inevitably translate to more points of failure. Also, size matters since it’s the mass of the moving material that determines how much energy you get out of it, and this will never beat pumped hydro in scale, simply because water is a much easier bulk mass material to deal with. You can also use the lakes for other purposes, like recreation, potable water sources, and as a host for aquatic biodiversity. Finally, if it rains over your top lake, you get free energy added to your system (essentially solar energy).

      What’s actually missing from the renewable grid space is instantaneous power supplementation on the orders of milliseconds to balance out fluctuations in the grid (which cause brownouts), which some are trying to solve with compressed air tanks, heat energy storage, or motor-flywheel-generator units. Assuming it starts in the idle state (generators not spinning), pumped hydro storage takes a few seconds to start delivering energy which makes it unsuitable for this kind of power smoothing, but neither is this because the cranes need time to find and pick up the blocks.

      • Zerush@lemmy.ml
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        3 years ago

        You can use hydro systems in countries where a great differencias of terrain levels, what is incompatible for Example with Belgium or the Netherlands or lots of contries in Africa, where are no much water, If the Netherlands puts a dam in the Rhin, Netherlands disappears, they only can construct big and high deposits for this which needs more concrete as this artifact, which can be good a alternative or a supplement, better than they put a water pipeline through several countries for the energy storing. Maybe the concrete blocks can be changed with iron blocks, which have a bigger mass and can be better recycled.

        Every solution needs a inversion of energy, not all green, even pollutant from manufacturing products, like resines for eolic generators, PVC or other polymers for the cables and generators or toxic products for solarcells, but only one time for many years, not as the continous use of fossil energy I think, insteat of discriminate from the beginning, it’s better to try to find better solutions. It’s true that not all works as espected in the beginning, but if they don’t try it, the problem of energy storing persists,and avoid that a lot of countrys can use efficiently energy renovable.

          • Zerush@lemmy.ml
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            3 years ago

            Good idea, but I don’t believe that this system can store more energy than for a few houses. Can be a good system for a house near by a lake. For hydraulic store systems the use great lakes or very huge deposits… But yes, can be another auxiliary system in certain cases

        • AgreeableLandscape@lemmy.ml
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          2 years ago

          Hey, super late comment I know, but I’ve been thinking about this lately.

          You can use hydro systems in countries where a great differencias of terrain levels, what is incompatible for Example with Belgium or the Netherlands or lots of contries in Africa,

          In that case, instead of a stack of concrete blocks, why not have a giant water tower with one tank at ground level and one tank high up in the air? You could even have it be a literal building: big tank underground, apartments in between, big tank on the roof. If lots of buildings in an urban core had this, it would actually be really efficient because there would be basically be no loss from power transmission.

          Water will never get damaged like concrete blocks can, don’t produce carbon when it’s made, and can be easily replaced if any is lost.

          where are no much water

          Well, with this, that would be a negligible problem because it would be a closed system. It would basically only require an initial investment of water and very occasional top-ups. You don’t even need the water to be of that great quality if you’re not using the water tank for anything else, even sea water can be used. Or, if you’re using treated water, it can double as both the city’s potable water reservoir and energy storage. Plenty of cities already have giant water towers feeding the entire urban area after all, and nearly every high rise building already has potable water tanks like these, because it means they don’t have to run pumps constantly to maintain water pressure, and can rely on hydrostatic pressure due to gravity.

          Plus, making concrete also requires water, so using concrete probably isn’t saving that much in it. And with concrete, the water is permanently incorporated into it and can never be reused again, probably not the best idea for an already water scarce region.

          • Zerush@lemmy.ml
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            2 years ago

            Yes, but concrete need less water and in a lot of countries with lack of water it’s too valuable to be used as a simple weight, besides it requires a much larger installation due to the lower specific weight and greater maintenance due to evaporation and eventual losses, which is not necessary in concrete, which can last for centuries with minimal maintenance, in installations that are much more compact. The best way to store energy depends on many factors and can vary greatly, depending on the circumstances of each country. Where there are large slopes and mountainous regions, without water shortage, naturally, water tanks are the obvious solution, while in desert areas it is not, in others it can be a solution in salt mines, as thermal storage, etc.