3-2. Conventional heating vs. dielectric heating

1. Conventional heating

2. Dielectric heating

FIRE!

FIRE!FIRE!

1)

The heating is uniform.

2)

The temperature rise is fast (high).

3) If you break the electric power: The microwave oven stops

FIRE!

 

 

!

 

 

HEAT

FIRE!

HEAT

!

 

 

 

HEAT

FIRE!

! HEAT!

FIRE!

!

HEAT!

HEAT!

HEAT

 

WELL-DONE!

HALF-DONE!

UNDER!

DONE!

HEAT!

HEAT!

HEAT

 

 

!

FIRE!

HEAT!

HEAT

!

HEAT

!

 

! HEAT

FIRE!

FIRE!

FIRE!

FOOD!

heating at once, so you can’t heat something with the heat

of their surroundings.

4) Since it heats inside, the surface isn’t damaged.

WAVE

 

WAVE

 

 

WAVE

WAVE

 

 

WAVE

 

WAVE

MOLECULES

WAVE

FIRE!FIRE!

FIRE!

TRANSMITTED!

BY CONDUCTION!

WAVE

It shall be heated by the sources of the electric heater, the gas, and the briquet.!

* The heat energy from the sources of the heating power shall be transmitted

from the warm surface to the cold inside.

* Heating with the strong fire: The surface of the food shall be well done, but be

burnt to have a black side, and the center of the food shall not be well-done.

* Heating with the weak fire: The surface of the food shall be burnt and have a

little black side, but it shall be taken lots of time for the center to be well-done.

WAVE

WAVE

WAVE

WAVE

 

WAVE

FOOD

* The thermal conductivity in the water or in the food is low.

• If you give microwave to food with the microwave oven, the food and￿

￿￿molecules of the water included in the food is turned, or moved and generates￿ ￿￿heat with the friction among the the molecules.

*The water, the oil and the foods shall absorb the electric wave well.

*It generates heat all around the apparatus and the foods are well-done with short time

*If you heat something for long time, all of it will be burnt and can’t be eaten.

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Goldstar MA-2005ST service manual Conventional heating vs. dielectric heating
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