Rank: 1818 based on 77 downloads (last 30 days) and 2 files submitted
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Silvano Casoria

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Company/University
Hydro-Quebec Research Institute (IREQ)

Personal Profile:

He received the B.Ing and M.Sc.A degrees in Electrical Engineering from École Polytechnique de Montréal. Since 1981, he is with the real time simulator at IREQ. In 1988-89 he was a trainee at ABB plant in Ludvika, Sweden. His works includes the design and testing of HVDC control models. He developed various models for transient analyses programs, including MATLAB/SPS, and the real time simulator.

Professional Interests:
Simulation & study of HVDC transmission and control systems, modeling for transient analysis programs. Cognitive informatics.

 

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22 Feb 2013 Screenshot LLR type AC network equivalent Defines the elements of an AC network equivalent represented by two inductors and one resistor. Author: Silvano Casoria hvdc transmission, equivalent network, network damping, resonance frequency, network impedance 28 3
  • 5.0
5.0 | 1 rating
30 Mar 2012 Screenshot Sequential AC-DC load flow method for two-terminal HVDC networks A HVDC load flow algorithm in Simulink treated separately from an AC load flow in SimPowerSystems. Author: Silvano Casoria dc grid, hvdc transmission, load flow, ac generators, converters, acdc 49 1
  • 4.0
4.0 | 1 rating
Comments and Ratings by Silvano
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28 Mar 2013 LLR type AC network equivalent Defines the elements of an AC network equivalent represented by two inductors and one resistor. Author: Silvano Casoria

The three non linear equations are :
The first equation (bloc Mod_Zf1) defines the network impedance module, at the fundamental frequency (f1), as a function of L1, L2, R.
The second equation (bloc Angle_f1) defines the network phase angle, at the fundamental frequency (f1), as a function of L1, L2, R.
The third equation (bloc Angle_f2) defines the network phase angle, at the harmonic frequency (f2), as a function of L1, L2, R.

Comments and Ratings on Silvano's Files View all
Updated File Comment by Comments Rating
28 Mar 2013 LLR type AC network equivalent Defines the elements of an AC network equivalent represented by two inductors and one resistor. Author: Silvano Casoria Casoria, Silvano

The three non linear equations are :
The first equation (bloc Mod_Zf1) defines the network impedance module, at the fundamental frequency (f1), as a function of L1, L2, R.
The second equation (bloc Angle_f1) defines the network phase angle, at the fundamental frequency (f1), as a function of L1, L2, R.
The third equation (bloc Angle_f2) defines the network phase angle, at the harmonic frequency (f2), as a function of L1, L2, R.

24 Feb 2013 LLR type AC network equivalent Defines the elements of an AC network equivalent represented by two inductors and one resistor. Author: Silvano Casoria rt

Please explain how to get the three non linear equations of the model

23 Feb 2013 LLR type AC network equivalent Defines the elements of an AC network equivalent represented by two inductors and one resistor. Author: Silvano Casoria rt

23 Feb 2013 LLR type AC network equivalent Defines the elements of an AC network equivalent represented by two inductors and one resistor. Author: Silvano Casoria rt

Thank you so much . Getting the correct answers

02 Dec 2012 Sequential AC-DC load flow method for two-terminal HVDC networks A HVDC load flow algorithm in Simulink treated separately from an AC load flow in SimPowerSystems. Author: Silvano Casoria Sameetr

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