Electrical Heat 1

The course is a substitute for:

Electrical Heat 1 (D15ET1)

Lecturer:

Tutor:

Supervisor:

Department of Electroenergetics

Synopsis:

The aim of the course is to master heat transfer laws and apply them in resistance heating devices design. The overview of the field of arc and special devices discussed. Theory of the electromagnetic field in real dielectric allows to design basic dielectric and microwave-based appliances. Theory of the thermal comfort of a human being allows the students to design electrical heating systems in interiors.

Requirements:

Syllabus of lectures:

1. Elementary laws of thermal field in continuum, Fourier-Kirchhoff equation

2. Navier-Stokes equation, physical similarity in thermal and velocity fields

3. Convection heat transfer

4. Radiant heat transfer

5. Zonal method

6. Direct resistance heating, theory, applications

7. Indirect resistance heating, theory, applications

8. Principles of the resistance furnace design, material assessment

9. Theory of dielectric heating

10. Dielectric and microwave appliances

11. Arc furnaces, connection to the power network

12. Laser, electron beam, and plasma electroheat devices

13. Thermal comfort of a human being

14. Electrical heating of interiors

Syllabus of tutorials:

1. Solution of basic cases of temperature field

2. Solution of basic cases of temperature field

3. Forced convection coefficient assessment

4. Free convection coefficient assessment

5. Examples of radiant heat transfer

6. Electric hot water heater design

7. Electric furnace design

8. Heating elements for the electric furnace design

9. Electromagnetic field in real dielectric

10. Dielectric wood dryer design

11. Circular diagram of the arc furnace

12. Examples of electron ballistics

13. PMV and PPD determination in the real interior, reverse tasks

14. Final Term Test - written

Study Objective:

Study materials:

1. Holman, Heat Transfer, Fifth Edition, McGraw-Hill, 1981

2. ELECTRA: Electromagnetic Induction and Electric Conduction in Industry, UIE 1997

Note:

Further information:

No time-table has been prepared for this course

The course is a part of the following study plans:

• Heavy-current Engineering - Electroenergetics- structured studies (compulsory elective course)
• Heavy-current Engineering - Technological Systems- structured studies (compulsory elective course)
• Heavy-current Engineering - Electric Drives- structured studies (compulsory elective course)
• Heavy-current Engineering - Electrical Engineering Applications- structured studies (compulsory course, compulsory elective course)