Harvard University research and development of new rechargeable batteries can store intermittent energy

Harvard University's research team recently demonstrated a new type of rechargeable battery that stores intermittent energy sources such as rooftop solar and wind power. Using cheaper and more reliable electricity is both safe and cost-effective for residential and commercial energy use. The findings of the study were published in the recently published issue of Science. Mismatch between the availability of intermittent wind or solar energy and the actual energy requirements is a major barrier to the use of renewable energy. Now this problem can be solved in a cost-effective way, storing the electricity generated by a large number of renewable energy equipment for a long time in a calm and cloudy manner. Recently, according to the Physicist's Organization Network, electrons are collected and released by compounds formed from water-soluble, low-abundance elements such as carbon, oxygen, nitrogen, hydrogen, iron and potassium during the operation of new rechargeable batteries. This is safer and cheaper than other battery systems. Researcher Gordon said that in the development of a new rechargeable battery electrode material, they combined a common organic dye with ferrocyanide, a common, inexpensive food additive or fertilizer that can be up to 50% more than previous materials Battery voltage, resulting in the first high-performance, non-flammable, non-toxic, non-corrosive and low-cost flow battery. The difference between a new battery and a solid electrode battery is that such a flow battery stores the electric energy in a tank of the plug-in liquid, similar to a fuel cell. The tank, which determines the amount of energy, sets the peak power capacity and pumps the fluid through electrochemical converter hardware. Because of the size of the scaled liquid tank, the stored energy can be increased at will, reducing the cost of storing more energy than conventional battery systems.