处理腔是高频电磁水处理器的重要组成部件,为了确定何种处理腔结构对高频电磁阻垢除垢具有更佳的效果,利用准静态学方法对2种常见的处理腔即同轴式处理腔和螺线管式处理腔进行了电磁场分析,得到了同轴式处理腔主导场为电场、螺线管式处理腔主导场为磁场的结论;利用Ansoft Maxwell软件建立了有限元模型,仿真分析其内部的电磁场能量的分布,仿真分析表明:当施加相同的激励源并处理相同体积的水时,同轴式处理腔内的电磁能量大于螺线管式处理腔;最后,设计了一套高频电磁阻垢除垢系统和微型循环水系统,并自行配兑钙离子浓度为5mmol/L的碳酸钙溶液进行了实验研究,检测了溶液中电导率和生成的晶体形态,并用挂片法测定了阻垢率。实验结果表明:2种处理腔都有一定的阻垢效果,但同轴式处理腔的阻垢效果明显优于螺线管式处理腔。 Processing chamber is an important component of high-frequency electromagnetic water processor, in order to determine what kind of processing chamber structure for high-frequency electromagnetic scale removal and descaling has a better effect, the use of quasi-static method of two common processing chamber that is coaxial Electromagnetic field analysis of the processing chamber and the solenoid-type processing chamber, the main field of the coaxial processing chamber is the electric field and the leading field of the solenoid-type processing chamber is the magnetic field. The finite element model is established by Ansoft Maxwell software, Simulation analysis of the electromagnetic field energy distribution inside, the simulation analysis shows that: when the same excitation source and the same volume of water treatment, the coaxial electromagnetic treatment chamber is greater than the electromagnetic energy; Finally, the design of a A set of high-frequency electromagnetic scale inhibition and descaling system and a microcirculation water system, and with its own calcium ion concentration of 5mmol / L of calcium carbonate solution was studied experimentally to measure the conductivity of the solution and the generated crystal morphology, Determination of the scale inhibition rate. The experimental results show that both of the two kinds of treatment chambers have certain scale inhibition effect, but the scale inhibition effect of the coaxial treatment chamber is obviously superior to that of the solenoid type treatment chamber.