Study on the Polyamine Thin Film Composite Membrane for Vanadium Battery
Vanadium redox flow battery(VRB)exhibits the advantages of independent capacity and power,easy modulari-zation,long lifespan and high safety,which make it particularly suitable for use in large-scale energy storage systems.The separator is one of the key components of VRB,which has a significant impact on the overall performance and cost of the battery.Perfluorosulfonic acid membranes such as Nafion(DuPont)possesses the advantages of high chemical stability,high conductivity and good mechanical properties,therefore it has been widely used as commercial membrane in VRB.However,Nafion has the two main drawbacks of high vanadium ion permeability and high cost when used in VRB,which seriously restricts the commercialization process of VRB.Thin film composite(TFC)membranes have the advantages of easy regula-tion of the skin layer and substrate layer,simple preparation process and high ion selectivity,which make them particularly suitable for VRB system.However,traditional polyamide TFC membranes have potential problems of hydrolysis and de-composition in VRB strong acid electrolytes.In order to obtain a high stable TFC membrane for VRB application,polyeth-ylenimine(PEI)and cyanuric chloride(CC)were used as monomers to prepare polyamine TFC membrane via interfacial polymerization(IP)method.Detailed physico-chemical and electrochemical performances of the membranes including vana-dium permeability,single cell charge-discharge performances,chemical stability and long-term charge-discharge have been measured.The results showed that the vanadium permeability of MT is 3.17× 10-7 cm2·min-1,which is dramatically lower than that of M0(30.89 × 10-7 cm2·min-1)and commercial N 115(Nafion 115,10.91 ×10-7 cm2·min-1)membranes.The en-ergy efficiency(EE)of MT membrane at 40 mA·cm-2 reached up to 86.2%,which was much higher than that of M0(74.9%)and N 115(80.0%)membranes.Chemical stability test proved that the permeability loss rate of MT was 4.42%,which is smaller than that of M0(8.93%)and N 115(4.86%).At the current density of 80 mA·cm-2,the prepared TFC membrane has shown stable coulombic efficiency,voltage efficiency and energy efficiency.The TFC membrane is the ideal substitutes for commercial Nafion membrane and has great promise of application in VRB.
vanadium batterypolyaminethin film composite membraneinterfacial polymerizationporous membrane
万方数据
维普
