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Research  turbine. Based on the known costs of thermo-           Suss’ research team has developed batteries
          solar devices (about 7 cents per kWh) and of           whose chemical makeup differs from conventional
          solar panels (2 cents per kWh), we estimate that       lithium-ion batteries—storing energy in giant
          the per-kWh cost of using our technology will          tanks of zinc-bromine, instead of lithium-ion.
          drop below 3 cents and will enable increased           These batteries do not have high energy density,
          use of solar energy. The Technion is currently         but because they are stationary, the tanks can
          leading negotiations with entrepreneurs about          be enlarged, or additional tanks can be added as
          commercializing this technology,” says Rotschild.      necessary. Suss is pursuing a quick and efficient
                                                                 method for charging zinc-bromine batteries,
          The Utility-Scale Batteries to Come                    hoping that this technology will enable even
                                                                 countries such as Israel to move to renewable
          Wind and sun are found everywhere on the planet,       energy. “At present, Israel is totally reliant on
          but their quantity varies over the course of a year    fossil fuels, despite the fact that we have plenty
          and even over the course of a single day. At noon,     of sunshine,” he explains. “We want to limit this
          solar panels and solar power plants produce large      reliance. If we succeed in developing batteries
          quantities of energy, but at night they remain idle.   with a long shelf life at low costs, extensive use
          Similarly, the wind can change its speed from one      of wind and solar energy will become possible in
          hour to the next, making it impossible to know         Israel.”
          in advance how much energy a wind turbine will
          produce. Theoretically, too much energy doesn’t        Prof. Matthew Suss: In the future, we could
          sound like a problem, but in reality, a surplus of     have a single system that simultaneously
          energy can overload the electricity grid and even      stores energy and desalinates water.
          cause infrastructures to collapse. The problem         This could have applications in areas
          with a sudden lack of energy is, of course,            not covered by the electricity grid.
          obvious. “It is difficult to construct entire energy
          grids based on renewable energy,” explains the         Israel represents a large number of countries that
          Technion’s Prof. Matthew Suss. “What we need           cannot trade excess energy with their neighbors.
          is to build energy storage systems, so that when       It also does not have the benefit of the economics
          there’s abundant sunshine and we get more              of scale of such superpowers as China, India,
          energy than we need, we’d be able to store it for      and the U.S., which can transport energy over
          future use. Then, when it’s dark outside, we would     long distances within their own territory. Suss’
          be able to feed this energy to the electricity grid.”  innovations could enable many additional
          Suss is a global expert in energy storage. In his      countries to use renewables.
          lab at the Faculty of Mechanical Engineering, he       “We have developed and patented a new zinc-
          is trying to solve one of the biggest problems         bromine battery, and I think it could really solve
          with lithium-ion batteries. These are the              all the problems existing zinc-bromine batteries
          batteries found in our portable computers and          encounter. It’s still in early stages of development,
          smartphones, and they have a high energy               but looks very promising,” he adds. In the future,
          density. They can store large quantities of energy     his batteries may help small countries, even
          with very little physical space, but their Achilles    villages, in additional ways; Suss is developing
          heel is their high cost, which makes it impossible     ways of coupling the battery charging and
          to manufacture larger batteries of this type, for      discharging processes with another process
          example, the batteries that could power an entire      that is important in dry environments: Water
          city and store excess energy from millions of solar    desalination.
          panels during the day.

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