![]() ![]() A LEST could store up a literal ton of energy in the summer, then release its reserves gradually through the winter. It won't be able to respond to demand spikes as quickly or reliably as a big battery project – but on the other hand, it might be a terrific way to address some of the weaknesses a big battery system brings, like the fact that they'll likely be less effective for longer-term seasonal energy generation fluctuations and multi-day blackout scenarios. First and foremost, it lives right in the middle of the cities it serves, using ready-made properties of the tallest existing infrastructure known to man – that cuts down hugely on capital expenses, since all you need to do is roll some robots and weights into the lobby, and fiddle with the elevator programming, and you're off. There are plenty of other grid-level energy storage technologies under development, but the LEST has some unique features that could get it a seat at the table. If large amounts of energy are needed quickly, the lifts can be set to descend faster, at the expense of some efficiency – and this system could become even more efficient when paired with a cable-free, Willy Wonka-style magnetic elevator system like the Thysenkrupp multi-elevator in the top image. In a study published in the journal Energy, the researchers state that state-of-the-art permanent-magnet synchronous gear-motor smart elevators can operate with efficiencies near 92 percent, when the elevators are fully loaded and set to descend at an optimal speed for energy generation. Algorithms can determine the most appropriate times to get the weights up high, and when to harvest the stored energy, without turning the elevator system into a tenant's nightmare of waiting around. The weights needn't be bulky enough to prevent people from getting in a lift with them, and the robots can be programmed to hop out if passengers step into the lift and push it over its weight capacity. They can either be stored along the corridors, or in empty apartments or offices, or potentially in dedicated out-of-the-way spaces should a building be planned with this system in mind – a spare half-floor near the top or bottom of a building could conceivably do the job, since it wouldn't be necessary to have a ceiling high enough for people to walk around. Skyscraper ride series#The IIASA team has proposed building a series of autonomous trailer robots for the job of picking up the weights and towing them in and out of the lifts where it's prudent. Thus, it could be remarkably cheap to retrofit this kind of capability to a building, as compared with building a dedicated gravity battery system anywhere else.īasically, the LEST would take advantage of any elevator downtime, by moving heavy items – like big containers of wet sand – from the bottom of the building up to the top, when excess renewable energy is available, and from the top to the bottom, when that energy can be used or sold back into the power grid. The LEST would also make use of vacant spaces throughout the building, ideally close to the top and bottom. Many of these are already designed with regenerative braking systems that can harvest energy as a lift descends, so they can effectively be looked at as pre-installed power generators. The Lift Energy Storage System (LEST) would make use of the existing elevator systems in tall buildings. Researchers from the International Institute of Applied Systems Analysis (IIASA) in Vienna, Austria, looked at the height and location of skyscrapers and saw a huge amount of pre-built energy storage waiting to be unlocked. That energy can then be released by using gravity to drive some kind of generator. The concept is simple enough: excess renewable energy can be stored as potential energy, by using it to lift something heavy up to a higher point. IIASA researchers have put forth a fascinating solution, proposing to turn skyscrapers into giant gravity batteries for remarkably cheap renewable energy storage. ![]() Renewable energy is intermittent, so energy storage and release will be critical in the next few decades. ![]()
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