Ustun,O.Yilmaz,M.Ali-Zada,P.Tuncay,R.N.Mamadov,H.2024-05-252024-05-2520100978-142448219-110.1109/VPPC.2010.57290002-s2.0-79953145340https://doi.org/10.1109/VPPC.2010.5729000https://hdl.handle.net/20.500.14517/2242IEEE Power Electronics Society (PELS); IEEE Vehicular Technology Society (VTS)The chemical nature of an accumulator battery is likely to defeat the ability to charge. Traumatic damage is being caused to the environment by the accumulator waste-pollutants: sulfuric acid and lead from the accumulators. Similar problems arise with different types of accumulators (NiCd, NiMH, Li-ion, Li-Polymer, etc.) This leakage seeps into waterways, soil and the air of the living beings, animals, birds and humans, especially to children. The paper outlines an examination of a cheap and smart experimental charging-discharging device, which helps getting a significant extension of the active life of car and renewable energy storage accumulators, as well as known methods, therefore minimizing the environmental impact of batteries wastes. Having known the limiting crystallization, it is possible to extend the battery active life cycles more than three times, provide a remediation of these environmental polluting effects and diminish the environmental impact of accumulator hazardous wastes on living organisms. © Copyright 2011 IEEE - All Rights Reserved.eninfo:eu-repo/semantics/closedAccessAccumulator life extensionEnvironmental impact minimizationHazardous wastesCar and renewable energy storage accumulators active life extension for hazardous wastes eco-impact minimizationConference Object