How to calculate the power of induction heating?
Please fill out the parameters below for your theoretical induction heating process calculation. This power calculation gives you approximate refrence value for your induction heating application.
How to calculate kW requirements for typical heater applications?
h = height (ft) After determining the tanks surface area the maintain KW can be calculated as follows: KW = (A x (1/R) x ΔT(°F) x SF)/3412. A = surface area. R = R-value of the insulation. Use 0.5 as the R-value of an uninsulated steel tank. See the chart below for typical examples.
What kind of power supply is used for induction heating?
The induction heating method mainly includes RF power supply which supplies an AC to the entire circuit, and the set up of this is shown below. A copper coil can be used like an inductor as well as the current is given to it. This coil includes a material that is to be heated.
How to use Ultraflex power for induction heating?
Please input information about your induction heating application. Magnetic? Please, select Yes No The calculations performed by the Ultraflex HeatCalc are only estimates. Please contact Ultraflex Power Technologies directly for a professional evaluation of your application.
How does energy transfer occur in an inductive heater?
Energy transfer in an inductive heater happens only due to the coupling of the primary inductance with the secondary load, which appears as a weakly coupled inductive load with a near-dead-short across the coil. You can see an attempt to reverse-engineer a commercially available induction cooker here, which includes a SPICE simulation.
How to calculate the transferred energy to the working piece?
Its inductor is calculated 50 uH as below: And I draw 9.4 A AC current at 33 Khz of it. But, I want to know how to calculate the transferred energy to the working piece. Take this schematic into account: As you see some of the power is Reactance but there is always magnetic flux even when the power on the inductor is negative.