How to make magnet induction heating / alternative to gas crisis
Hobs, forges, induction ovens all have one thing in common... Induction heating is a process of heating an electrical conductor (usually ferromagnetic materials and metals) by electromagnetic induction.
The heat generated in the conductor is due to eddy currents induced in the conductor. In its simplest form, an induction heater consists of a coil passing through a high frequency alternating current. This high-frequency alternating current creates a fast alternating magnetic field that causes eddy currents in the conductor. Eddy currents are responsible for heating the conductor. The higher the resistance to the flow of current, the greater the heating. This phenomenon of heating of the conductor by eddy currents is called Joule effect.
Test with a spiral and flat working coil with the same induction module. This test takes place at powers of 600 to 1000 watts
How to make magnet induction heating / alternative to gas crisis
Hobs, forges, induction ovens all have one thing in common... Induction heating is a process of heating an electrical conductor (usually ferromagnetic materials and metals) by electromagnetic induction.
The heat generated in the conductor is due to eddy currents induced in the conductor. In its simplest form, an induction heater consists of a coil passing through a high frequency alternating current. This high-frequency alternating current creates a fast alternating magnetic field that causes eddy currents in the conductor. Eddy currents are responsible for heating the conductor. The higher the resistance to the flow of current, the greater the heating. This phenomenon of heating of the conductor by eddy currents is called Joule effect.
Test with a spiral and flat working coil with the same induction module. This test takes place at powers of 600 to 1000 watts
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