چكيده به لاتين
Abstract:
Lead-acid reduction oxidation batteries due to high energy density, low cost of construction and use, reactions and hazardous materials, relatively high efficiency and .... As one of the most suitable future for storing electrical energy in large dimensions and Medium is considered. In this dissertation, an example of this battery is designed and built. For this purpose, the technical design of the computer was carried out and after the corrections, the machinations were made. Then, in order to test the performance, various electrodes such as steel, graphite and poly (aniline) nanotubes were used on graphite. The results for the first time in this area were promising. Since the focus of this work is on designing and manufacturing a laboratory sample, the electrolyte used solution is 7 /. Mol lead methane sulfanate and one mole of methanesulfonic acid without adding any other common additive. Because of the limitations of the device, only two cycles of charging and discharging were performed. The results of the second cycle were obtained for 80% electrode electrodes, 75% graphite electrodes and for graphite electrodes coated with 35% nanotube polyethylene. Subsequently, changes were made to the design of the cell structure to overcome the problem of pouring lead oxide electrodes. Unfortunately, it was not possible to test this design due to the impossibility of providing a mesh of nickel mesh.
Keywords: Reduction / Oxidation flow batteries - Lead / Acid battery - Poly Aniline Nano Layer
