Description: Power systems are constantly subjected to disturbances and switching actions. These actions can go from a normal connection/disconnection of a load or line to the opening of a faulted line after a short circuit or the incidence of lightning strokes, among others. These events are known as electromagnetic transients and have a short duration in the range of microseconds/milliseconds, typically.

Even being short duration phenomena, electromagnetic transients are of fundamental importance, as the system is subjected to high currents, voltages and/or frequencies during those micro/milliseconds, which may damage the electrical equipment and put them out-of-service. As a result, extensive investigations are made when installing new high voltage equipment as transformers or new lines, in order to assure that the equipment is not subjected to high stresses. This is a key part of a process known as Insulation Coordination, and it is the focus of this course.

The participants in the course will learn about insulation coordination, how to analyse electromagnetic transients and different transient phenomena will be explored using examples and real-life cases. When relevant, the respective countermeasures will be explained and examples given on how to do the respective choice.

The course will also focus in the use of software tools for the simulation of the transients, more specifically EMTDC/PSCAD, which will be introduced and explained during the course. The importance of having a proper modelling of the equipment (e.g., overhead lines, underground cables, transformers, …) in function of the phenomena will be demonstrated and guidelines will be provided on how to define the modelling requirements for different transient phenomena.

Some of the phenomena that will be studied in the course are:

  • Energisation and de-energisation of capacitor banks, shunt reactors, lines, transformers, …;
  • Travelling waves and switching phenomena;
  • Particularities of switching in HVAC cables (zero-missing, influence of bonding, etc…);
  • Energisation of transformers (inrush currents and other resonances);
  • Lightning simulation and back flashover;
  • Fault transients;
  • Impact of resonance points;
  • Guidelines for network modelling:
  • Network size;
  • Modelling precision;
  • Model validation;

Prerequisites:  Master degree in Electric Power Systems or similar

Form of evaluation: Several exercises consisting in the simulation and analysis of different phenomena in an EMTP-type software must be done after the course. The attendees are expected to do a proper simulation of the phenomena, to comment the results and to propose solutions to the main issues, in a manner similar to an insulation coordination study.

Organizer    Assoc. Professor, Filipe Faria da Silva, ffs@energy.aau.dk

Lecturers:      Filipe Faria da Silva, Aalborg University

ECTS:               3

Date/Time:   23-25 October

Deadline:      13 October 2023

Price:               6000 DKK for PhD students outside of Denmark and 8000 DKK for the Industry excl. VAT
The Danish universities have entered into an agreement that allows PhD students at a Danish university (except Copenhagen Business School) the opportunity to free of charge take a subject-specific course at another Danish university. Guests at AAU Energy can free attend the course. 

Payment:       A Online link will be annonced after deadline for registration

Place:              AAU Energy – Aalborg

Max no. of participants: 15