The phenomenon of magnetization of water by an electromagnetic field (EMF) represented a major challenge in the current research. The aim of this work is to improve the efficiency of the electromagnetic device and make the magnetic treatment as efficient as possible. In other words, the characterizations of the parameters that influence the process of magnetization of tap water (TW) were investigated. The Aqua-4D device generates an EMF playing the role of an external impulse, which will influence the magnetization of TW with a speed of 0.2 m / s, T = 26.5° C and pH = 8.25. The circulation of TW under the effect of the EMF generates magnetized water. The parameters were estimated after stopping the EMF. The magnetization time of water was monitored by the Kobra interface using the software Latis pro. It was shown that the magnetization time of the treated water persisted about 15 h, the magnetization time is strongly influenced by temperature, salinity, velocity but the pH has no influence on the magnetization time. The water molecules represented a major challenge in the current research.

电磁场 (EMF) 对水的磁化现象代表了当前研究的主要挑战。这项工作的目的是提高电磁装置的效率，并使磁处理尽可能高效。换言之，研究了影响自来水 (TW) 磁化过程的参数的特征。Aqua-4D 设备产生一个 EMF，起到外部脉冲的作用，它将以 0.2 m/s 的速度影响 TW 的磁化，T = 26.5°C 和 pH = 8.25。TW 在 EMF 作用下的循环产生磁化水。在停止 EMF 后估计参数。水的磁化时间通过 Kobra 界面使用软件 Latis pro 进行监测。结果表明，处理后水的磁化时间持续约15 h，磁化时间受温度、盐度、流速的影响很大，但pH值对磁化时间没有影响。水分子代表了当前研究的主要挑战。