At line 21 changed 14 lines. |

1. Heat transfer: Fourier law, heat equation |

2. Physical similarity theory, Fourier and Nusselt number |

3. Convective heat transfer coefficient at free, forces and transient convection |

4. Heat exchangers: equations, types, use |

5. Heat pumps: equations, types, use |

6. Mathematical models of thermal storage tanks, solar collectors, fluid mixing |

7. Humid air thermodynamic principles, Mollier enthalpy diagram |

8. Induction heating of materials: circuit access |

9. Induction heating of materials: alemag. field access |

10. FEM for thermal and elmag. Field, boundary and initial conditions |

11. Arc furnaces: types, construction, connection to the grid |

12. Arc models and its influence on the grid, higher harmonic frequencies and flicker compensation |

13. Supplementary systems for induction heating devices (sources, cooling systems) |

14. Reserve |

1. Heat transfer: Fourier law, heat equation\\ |

2. Physical similarity theory, Fourier and Nusselt number\\ |

3. Convective heat transfer coefficient at free, forces and transient convection\\ |

4. Heat exchangers: equations, types, use\\ |

5. Heat pumps: equations, types, use\\ |

6. Mathematical models of thermal storage tanks, solar collectors, fluid mixing\\ |

7. Humid air thermodynamic principles, Mollier enthalpy diagram\\ |

8. Induction heating of materials: circuit access\\ |

9. Induction heating of materials: alemag. field access\\ |

10. FEM for thermal and elmag. Field, boundary and initial conditions\\ |

11. Arc furnaces: types, construction, connection to the grid\\ |

12. Arc models and its influence on the grid, higher harmonic frequencies and flicker compensation\\ |

13. Supplementary systems for induction heating devices (sources, cooling systems)\\ |

14. Reserve\\ |