Title :
Variable Frequency Transformer—Concept and Electromagnetic Design Evaluation
Author :
Merkhouf, Arezki ; Doyon, Pierre ; Upadhyay, Sanjoy
Author_Institution :
GE Energy, Peterborough, ON
Abstract :
Variable frequency transformer (VFT) is a controllable bidirectional transmission device that can transfer power between asynchronous networks. The construction of VFT is similar to conventional asynchronous machines, where the two separate electrical networks are connected to the stator and rotor respectively. Electrical power is exchanged between the two networks by magnetic coupling through the air gap of the VFT. This paper describes the basic concept of the VFT and presents an overview of the mechanical and electromagnetic design of a unit having four poles and rated at 100 MW, 17 kV/17 kV, 60 Hz.
Keywords :
asynchronous machines; power transformers; rotors; stators; air gap; asynchronous machines; bidirectional transmission device; electromagnetic design evaluation; frequency 60 Hz; magnetic coupling; mechanical design; power 100 MW; rotor; stator; variable frequency transformer; voltage 17 kV; Couplings; Electric variables control; Electromagnetic devices; Frequency; HVDC transmission; Load flow; Magnetic separation; Magnetic variables control; Power system interconnection; Stator cores; Asynchronous rotating machines; flexible ac transmission system; high-voltage dc (HVdc) substations; interconnected power systems; load flow control; phase angle regulator; phase-shifting transformer; power transmission; rotating transformer;
Journal_Title :
Energy Conversion, IEEE Transactions on
DOI :
10.1109/TEC.2008.2001460
