F. Bakhsh. ACEEE Int. J. on Control System and Instrumentation, (February 2013)
Abstract
The variable frequency transformer (VFT) developed
recently is a flexible asynchronous ac link which is used to
transfer power in-between asynchronous power system
networks. The first VFT was installed at the Langlois
substation, which interconnects the New York (USA) and the
Hydro-Québec (Canada) systems. Basically, it is a rotary
transformer whose torque is externally adjusted in order to
control the power transfer. In the paper, a simulated model of
VFT is present, which is used as a controllable bidirectional
power transmission device that can control power transfer
through the asynchronous power system networks. A digital
simulation model of VFT and its control system are developed
with MATLAB Simulink and a series of studies on power
transfer through asynchronous power system networks are
carried out with this model. M oreover, the response
characteristics of power transfer under various torque
conditions are discussed. Further voltage, current, torque and
power transfer plots are also obtained. Thus, the VFT concept
and its advantages are verified by simulation results.
%0 Journal Article
%1 bakhsh2013application
%A Bakhsh, Farhad Ilahi
%D 2013
%E ACEEE,
%J ACEEE Int. J. on Control System and Instrumentation
%K Flexible Frequency MATLAB Power Simulink System Transformer Variable ac asynchronous link networks transfer
%N 1
%T VFT Application for Asynchronous Power Transfer
%U /brokenurl#doi.searchdl.org/01/IJCSI/4/1/1043.pdf
%V 4
%X The variable frequency transformer (VFT) developed
recently is a flexible asynchronous ac link which is used to
transfer power in-between asynchronous power system
networks. The first VFT was installed at the Langlois
substation, which interconnects the New York (USA) and the
Hydro-Québec (Canada) systems. Basically, it is a rotary
transformer whose torque is externally adjusted in order to
control the power transfer. In the paper, a simulated model of
VFT is present, which is used as a controllable bidirectional
power transmission device that can control power transfer
through the asynchronous power system networks. A digital
simulation model of VFT and its control system are developed
with MATLAB Simulink and a series of studies on power
transfer through asynchronous power system networks are
carried out with this model. M oreover, the response
characteristics of power transfer under various torque
conditions are discussed. Further voltage, current, torque and
power transfer plots are also obtained. Thus, the VFT concept
and its advantages are verified by simulation results.
@article{bakhsh2013application,
abstract = {The variable frequency transformer (VFT) developed
recently is a flexible asynchronous ac link which is used to
transfer power in-between asynchronous power system
networks. The first VFT was installed at the Langlois
substation, which interconnects the New York (USA) and the
Hydro-Québec (Canada) systems. Basically, it is a rotary
transformer whose torque is externally adjusted in order to
control the power transfer. In the paper, a simulated model of
VFT is present, which is used as a controllable bidirectional
power transmission device that can control power transfer
through the asynchronous power system networks. A digital
simulation model of VFT and its control system are developed
with MATLAB Simulink and a series of studies on power
transfer through asynchronous power system networks are
carried out with this model. M oreover, the response
characteristics of power transfer under various torque
conditions are discussed. Further voltage, current, torque and
power transfer plots are also obtained. Thus, the VFT concept
and its advantages are verified by simulation results.
},
added-at = {2013-03-09T06:14:19.000+0100},
author = {Bakhsh, Farhad Ilahi},
biburl = {https://www.bibsonomy.org/bibtex/2cf436440b327bcb5c42e50527311f0eb/ideseditor},
editor = {ACEEE},
interhash = {4c1858612c6054f92c8e0902f281b4e0},
intrahash = {cf436440b327bcb5c42e50527311f0eb},
journal = {ACEEE Int. J. on Control System and Instrumentation},
keywords = {Flexible Frequency MATLAB Power Simulink System Transformer Variable ac asynchronous link networks transfer},
month = feb,
number = 1,
timestamp = {2013-03-09T06:14:20.000+0100},
title = {VFT Application for Asynchronous Power Transfer
},
url = {/brokenurl#doi.searchdl.org/01/IJCSI/4/1/1043.pdf},
volume = 4,
year = 2013
}