A>>INDUCTION HEATING FOR REACTORS, DISTILLATION VESSELS
| Mode of heating: Alternating magnetic field in the work coil
creates induced current in the work piece, causing heat.
Important parameters to be considered in the design of the induction heating  Coil design | Generator frequency | Applied power density | Advantages | Heat is very controllable | Fast cycle
| Excellent heat transfer(heat is produced in the job itself , unlike other modes of heating like thermic fluid boiler, steam boiler etc.) | Induction coil does not add to the thermal mass. | Low maintenance | Highest efficiency of 95% as compared to the other methods of heating
| Induction heating can also be used in the flame proof areas, with the required safety aspects taken into consideration.
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B>>IMPEDANCE HEATING FOR THE PIPE LINES, PRE-HEATING THE LIQUIDS/ GASES IN THE PIPELINES/REACTORS/STORAGE TANKS
| Applications: | |
| Heating of high pressure gases,lube oil, fuel oil, chocolate, chemicals, resins and many other speciality products |
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Advantages: | |
| Pipe line becomes the heating element. Hence no heater burnout. No jacket to the pipe line. Existing pipe line can be used, without any alterations. |
| Voltages are in the range of 5 V-30volts.Hence safe operation. |
| Since pipe line is heated, there will be good heat transfer to the materials flowing inside |
| No hot-spots. Hence ideal for heat sensitive materials |
| Precise temperature control (SCR control) |
| Highest efficiency of all modes of pipe line heating |
