The electromagnetic steam generator adopts advanced electromagnetic induction heating technology, which has significant structural advantages and many advantages. Its working principle is to make the metal cylinder itself heat up through electromagnetic induction, and at the same time, the insulation material can be wrapped outside the cylinder to reduce heat loss, high thermal efficiency, significant power saving effect.

The electromagnetic heating ring itself does not heat up, and is made of insulating materials and high temperature cables. There is no problem that the resistance wire of the original heating ring is oxidized at high temperature and its service life is shortened. It has the advantages of long service life, fast heating rate, no maintenance, etc., which can effectively reduce the maintenance time and reduce the use cost.

Compared to traditional electric heating elements, electromagnetic induction heating offers significant advantages. Conventional electric heating elements use contact heat transfer, which has several drawbacks: only 30-70% of the electricity is converted into usable heat; heating must be conducted through direct contact; there is an inertia effect, leading to slow temperature changes; there are no dead zones for heating, and the outer layer of the material cylinder cannot be fully enveloped; the heating coil has high losses and a short lifespan. In contrast, electromagnetic induction heating uses non contact heat transfer, converting 95% of the electricity into usable heat. The coil loss is only about 2%, and the control unit loss is also about 2%. The insulation layer retains 98% of the energy on the material cylinder, achieving a thermal efficiency of up to 98%. This method heats only the material cylinder, keeping other parts cool, eliminating the inertia effect of heating, and allowing for rapid and efficient temperature changes. There are no dead zones for heating, and the material cylinder is heated uniformly, extending its lifespan.