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**Harvard**

Markolo, P. (2013) *Wind Generator Co-Simulation with Fault Case Analysis*. Göteborg : Chalmers University of Technology

** BibTeX **

@mastersthesis{

Markolo2013,

author={Markolo, Peter},

title={Wind Generator Co-Simulation with Fault Case Analysis},

abstract={As machine designs are becoming more complex and sophisticated, the process of
verifying these designs and hence developing control strategies are therefore becoming
more complicated, expensive and time consuming. In order to better understand
the physics in complex machine designs, first-order harmonic models within dynamic
simulations are becoming insufficient. However, co-simulation is now a proven way
to handle and understand the physics of these complex machine designs. In this
project, a finite-element-method model of a permanent magnet synchronous generator
is developed. The generator model is then embedded/coupled with a PI control
system model which is developed in Simulink. The process of coupling is facilitated
with the use of Simplorer which links these two models. The complete embedded/
coupled model is then simulated for a conventional torque control strategy of
the generator. A fault case is introduced in the simulation in order to understand
control strategies for the machine. Finally, simulation results indicate that it is possible
to co-simulate a PMSM using Maxwell embedded in Simulink control system
using Simplorer.
},

publisher={Institutionen för energi och miljö, Chalmers tekniska högskola},

place={Göteborg},

year={2013},

keywords={Simulink PI controller, Finite-Element-Method (FEM) of PMSM},

note={64},

}

** RefWorks **

RT Generic

SR Electronic

ID 184824

A1 Markolo, Peter

T1 Wind Generator Co-Simulation with Fault Case Analysis

YR 2013

AB As machine designs are becoming more complex and sophisticated, the process of
verifying these designs and hence developing control strategies are therefore becoming
more complicated, expensive and time consuming. In order to better understand
the physics in complex machine designs, first-order harmonic models within dynamic
simulations are becoming insufficient. However, co-simulation is now a proven way
to handle and understand the physics of these complex machine designs. In this
project, a finite-element-method model of a permanent magnet synchronous generator
is developed. The generator model is then embedded/coupled with a PI control
system model which is developed in Simulink. The process of coupling is facilitated
with the use of Simplorer which links these two models. The complete embedded/
coupled model is then simulated for a conventional torque control strategy of
the generator. A fault case is introduced in the simulation in order to understand
control strategies for the machine. Finally, simulation results indicate that it is possible
to co-simulate a PMSM using Maxwell embedded in Simulink control system
using Simplorer.

PB Institutionen för energi och miljö, Chalmers tekniska högskola,

LA eng

LK http://publications.lib.chalmers.se/records/fulltext/184824/184824.pdf

OL 30