Hernández-Pérez Lorena, Martí-Calatayud Manuel César, Montañés Maria Teresa, Pérez-Herranz Valentín
IEC Group, ISIRYM, Universitat Politècnica de València, Camí de Vera s/n, 46022 València, Spain.
Membranes (Basel). 2023 Mar 21;13(3):363. doi: 10.3390/membranes13030363.
Electrodialysis (ED) applications have expanded in recent years and new modes of operation are being investigated. Operation at overlimiting currents involves the phenomenon of electroconvection, which is associated with the generation of vortices. These vortices accelerate the process of solution mixing, making it possible to increase the transport of ions across the membranes. In this work, frequency analysis is applied to investigate the interaction between different parameters on the development of electroconvection near anion-exchange membranes, which would provide a basis for the development of ED systems with favored electroconvection. Chronopotentiometric curves are registered and Fast Fourier Transform analysis is carried out to study the amplitude of the transmembrane voltage oscillations. Diverse behaviors are detected as a function of the level of forced convection and current density. The synergistic combination of forced convection and overlimiting currents leads to an increase in the signal amplitude, which is especially noticeable at frequencies around 0.1 Hz. Fast Fourier Transform analysis allows identifying, for a given system, the conditions that lead to a transition between stable and chaotic electroconvection modes.
近年来,电渗析(ED)的应用不断扩展,新的运行模式也在研究之中。在超极限电流下运行涉及电对流现象,这与涡旋的产生有关。这些涡旋加速了溶液混合过程,使得增加离子跨膜传输成为可能。在这项工作中,应用频率分析来研究不同参数之间对阴离子交换膜附近电对流发展的相互作用,这将为开发具有有利电对流的ED系统提供基础。记录计时电位曲线并进行快速傅里叶变换分析,以研究跨膜电压振荡的幅度。检测到随强制对流水平和电流密度而变化的不同行为。强制对流和超极限电流的协同组合导致信号幅度增加,这在0.1Hz左右的频率下尤为明显。快速傅里叶变换分析能够为给定系统确定导致稳定和混沌电对流模式之间转变的条件。