Parameter determination for modeling system transients-Part I: overhead lines

Overhead line parameters are calculated, taking into account the length of the line and the frequency range of the transient to be simulated. Depending on the frequency range and the origin of the transient, several parts of the line (phase conductors, shield wires, towers or poles, footing impedances, insulators) have to be included in the model. In all cases, the most important part is phase conductors. This paper describes an input requirement for obtaining electric overhead line parameters and investigates the sensitivity of these parameters with respect to some input data. The aim is to conclude on the accuracy with which input values must be specified. An illustrative example is included to support the main conclusions.

[1]  S. A. Schelkunoff,et al.  The electromagnetic theory of coaxial transmission lines and cylindrical shields , 1934 .

[2]  M.T. Glinkowski,et al.  Voltage Escalation and Reignition Behavior of Vacuum Generator Circuit Breakers During Load Shedding , 1997, IEEE Power Engineering Review.

[3]  K. Feser,et al.  Behaviour of MO-surge-arrester blocks to fast transients , 1989 .

[4]  A. Petit,et al.  An experimental method to determine the electro-thermal model parameters of metal oxide surge arresters , 1991 .

[5]  L. Blahous The problem of defining a test circuit for circuit breakers in terms of the prospective voltage , 1979 .

[6]  Nikos D. Hatziargyriou,et al.  Generalised transformer model based on the analysis of its magnetic core circuit , 1993 .

[7]  F. de Leon,et al.  Time domain modeling of eddy current effects for transformer transients , 1993 .

[8]  J. C. Hwang,et al.  Determination of customer load characteristics by load survey system at Taipower , 1996 .

[9]  G. E. Dawson,et al.  Standstill frequency response testing and modeling of salient-pole synchronous machines , 1998 .

[10]  Stephen J. Finney,et al.  A new analytical IGBT model with improved electrical characteristics , 1999 .

[11]  D. Novotny,et al.  Equivalent Circuit Representation of Current Inverter Driven Synchronous Machines , 1981, IEEE Transactions on Power Apparatus and Systems.

[12]  Ali Keyhani,et al.  On-line synchronous machine parameter estimation from small disturbance operating data , 1995 .

[13]  A. R. Hefner,et al.  An experimentally verified IGBT model implemented in the Saber circuit simulator , 1991 .

[14]  I. M. Canay,et al.  Determination of model parameters of synchronous machines , 1983 .

[15]  R. Iravani,et al.  Modeling Nonuniform Transmission Lines for Time Domain Simulation of Electromagnetic Transients , 2002, IEEE Power Engineering Review.

[16]  S. Carneiro,et al.  Evaluation of Corona and Line Models in Electromagnetic Transients Simulations , 1991, IEEE Power Engineering Review.

[17]  Ieee Standards Board IEEE standard test procedure for polyphase induction motors and generators , 1992 .

[18]  V. Brandwajn Representation of MAagnetic Saturation in the Synchronous Machine Model in an Electro-Mlagnetic Transients Program , 1980, IEEE Transactions on Power Apparatus and Systems.

[19]  A. S. Abdallah,et al.  Effect of saturation on the steady-state stability of a synchronous machine connected to an infinite bus system , 1991 .

[20]  D. W. Berning,et al.  IGBT model validation , 1998 .

[21]  G. J. Rogers,et al.  Induction Machine Modelling for Electromagnetic Transient Program , 1987, IEEE Power Engineering Review.

[22]  A. Semlyen,et al.  Rational approximation of frequency domain responses by vector fitting , 1999 .

[23]  E.C. Sakshaug Influence of Rate-of-Rise on Distribution Arrester Protective Characteristics , 1979, IEEE Transactions on Power Apparatus and Systems.

[24]  Emil Levi Modelling of magnetic saturation in smooth air-gap synchronous machines , 1997 .

[25]  B. K. Johnson,et al.  Tailoring induction motor analytical models to fit known motor performance characteristics and satisfy particular study needs , 1991 .

[26]  S. Henschel,et al.  Noniterative synchronous machine parameter identification from frequency response tests , 1999 .

[27]  David Leggate,et al.  Interaction of drive modulation and cable parameters on AC motor transients , 1996, IAS '96. Conference Record of the 1996 IEEE Industry Applications Conference Thirty-First IAS Annual Meeting.

[28]  L. Blahous Derivation of Circuit-Breaker Parameters by Means of Gaussian Approximation , 1982, IEEE Power Engineering Review.

[29]  P. Chowdhuri,et al.  Parameters of lightning strokes: a review , 2005, IEEE Transactions on Power Delivery.

[30]  A. S. Morched,et al.  A universal model for accurate calculation of electromagnetic transients on overhead lines and underground cables , 1999 .

[31]  R. Yacamini,et al.  Transformer inrush calculations using a coupled electromagnetic model , 1994 .

[32]  J. R. Carson Wave propagation in overhead wires with ground return , 1926 .

[33]  T. Murata,et al.  Characteristic of cylindrical-rotor synchronous generator , 2000 .

[34]  A. Keyhani,et al.  Estimation of induction machine parameters from standstill time domain data , 1993, Conference Record of the 1993 IEEE Industry Applications Conference Twenty-Eighth IAS Annual Meeting.

[35]  B. Kulicke,et al.  Clearance of Short-Circuits With Delayed Current Zeros in the Itaipu 550 kV-Substation , 1980, IEEE Transactions on Power Apparatus and Systems.

[36]  P. Zunko,et al.  A statistical vacuum circuit breaker model for simulation of transient overvoltages , 1995 .

[37]  Innocent Kamwa,et al.  A two-factor saturation model for synchronous machines with multiple rotor circuits , 1995 .

[38]  J. Martí,et al.  Accuarte Modelling of Frequency-Dependent Transmission Lines in Electromagnetic Transient Simulations , 1982, IEEE Transactions on Power Apparatus and Systems.

[39]  Jennifer Stephan,et al.  Real-time estimation of the parameters and fluxes of induction motors , 1992, Conference Record of the 1992 IEEE Industry Applications Society Annual Meeting.

[40]  F. de Leon,et al.  Complete transformer model for electromagnetic transients , 1994 .

[41]  R. A. Walling,et al.  Ferroresonant overvoltages in grounded wye-wye padmount transformers with low-loss silicon steel cores , 1993 .

[42]  Toshiaki Murata,et al.  A New Method to Evaluate the -Axis Saturation Characteristic of Cylindrical-Rotor Synchronous Generator , 2000 .

[43]  Muhammad H. Rashid SPICE for circuits and electronics using PSpice (2nd ed.) , 1994 .

[44]  I. Kamwa,et al.  Experience with standstill frequency response (SSFR) testing and analysis of salient pole synchronous machines , 1999 .

[45]  I. M. Canay,et al.  Determination of the model parameters of machines from the reactance operators x/sub d/(p), x/sub q/(p) (evaluation of standstill frequency response test) , 1993 .

[46]  W.R. Rutgers,et al.  A physical arc model for the simulation of current zero behavior of high-voltage circuit breakers , 1991, Proceedings of the 1991 IEEE Power Engineering Society Transmission and Distribution Conference.

[47]  P. Kundur,et al.  Adaptation and Validation of Turbogenerator Model Parameters Through On-Line Frequency Response Measurements , 1981, IEEE Transactions on Power Apparatus and Systems.

[48]  A. S. Morched,et al.  Modelling and analysis guidelines for slow transients. II. Controller interactions; harmonic interactions , 1996 .

[49]  M. V. Lat,et al.  Analytical Method for Performance Prediction of Metal Oxide Surge Arresters , 1985, IEEE Power Engineering Review.

[50]  Gary L. Skibinski,et al.  Effect of surge voltage risetime on the insulation of low voltage machines fed by PWM converters , 1997, IAS '97. Conference Record of the 1997 IEEE Industry Applications Conference Thirty-Second IAS Annual Meeting.

[51]  R. Iravani,et al.  Guidelines for Modeling Power Electronics in Electric Power Engineering Applications , 1997, IEEE Power Engineering Review.

[52]  E. Thuries,et al.  Synthetic Testing Method for Generator Circuit Breakers , 1986, IEEE Transactions on Power Delivery.

[53]  Ren Wang,et al.  Equivalence Between Direct and Synthetic Short-Circuit Interruption Tests on HV Circuit Breakers , 1983, IEEE Transactions on Power Apparatus and Systems.

[54]  Philip T. Krein,et al.  Elements of Power Electronics , 1997 .

[55]  Hans Jurgen Mattausch,et al.  Status and trends of power semiconductor device models for circuit simulation , 1998 .

[56]  K. Steinbrich,et al.  Influence of semiconducting layers on the attenuation behaviour of single-core power cables , 2005 .

[57]  Paul M. Anderson,et al.  Subsynchronous resonance in power systems , 1989 .

[58]  B. Gustavsen Panel session on data for modeling system transients insulated cables , 2001, 2001 IEEE Power Engineering Society Winter Meeting. Conference Proceedings (Cat. No.01CH37194).

[59]  J. S. Edmonds,et al.  Derivation of Induction Motor Models from Standstill Frequency Response Tests , 1989, IEEE Power Engineering Review.

[60]  V. Brandwajn,et al.  Matrix Representation of Three-Phase N-Winding Transformers for Steady-State and Transient Studies , 1982, IEEE Power Engineering Review.

[61]  L. Marti Simulation of transients in underground cables with frequency-dependent modal transformation matrices , 1988 .

[62]  Laszlo Gyugyi,et al.  Understanding FACTS: Concepts and Technology of Flexible AC Transmission Systems , 1999 .

[63]  A. M. El-Serafi,et al.  Saturated synchronous reactances of synchronous machines , 1992 .

[64]  Xusheng Chen,et al.  A three-phase multi-legged transformer model in ATP using the directly-formed inverse inductance matrix , 1996 .

[65]  I. M. Canay,et al.  Modelling of alternating-current machines having multiple rotor circuits , 1993 .

[66]  A.R. Hefner An investigation of the drive circuit requirements for the power insulated gate bipolar transistor (IGBT) , 1990, 21st Annual IEEE Conference on Power Electronics Specialists.

[67]  L. Bolduc,et al.  No-load losses in transformer under overexcitation/inrush-current conditions: tests and a new model , 2002 .

[68]  Ali Keyhani,et al.  Identification of high-order synchronous generator models from SSFR test data , 1994 .

[69]  W. M. Grady,et al.  Measurement of eddy-current loss coefficient P/sub EC-R/, derating of single-phase transformers, and comparison with K-factor approach , 2000 .

[70]  S. Nasar,et al.  A general equivalent circuit (GEC) of electric machines including cross-coupling saturation and frequency effects , 1988 .

[71]  A. S. Abdallah,et al.  Experimental study of the saturation and the cross-magnetizing phenomenon in saturated synchronous machines , 1988 .

[72]  Ola Breien,et al.  Attenuation of travelling waves in single-phase high-voltage cables , 1971 .

[73]  L. M. Wedepohl,et al.  Transient analysis of underground power-transmission systems. System-model and wave-propagation characteristics , 1973 .

[74]  P. Kundur,et al.  An induction motor parameter estimation method , 2001 .

[75]  C. Dang,et al.  The Response of Metal Oxide Surge Arresters to Steep Fronted Current Impulses , 1986 .

[76]  Toshihisa Funabashi,et al.  Study of ZnO arrester model for steep front wave , 1996 .

[77]  C.M. Arturi Transient Simulation and Analysis of Three-Phase Five-Limb Step-Up Transformer Following an Out-of-Phase Synchronization , 1991, IEEE Power Engineering Review.

[78]  Bruce A. Mork,et al.  Five-legged wound-core transformer model: derivation, parameters, implementation and evaluation , 1999 .

[79]  T. Lipo,et al.  Vector Control and Dynamics of AC Drives , 1996 .

[80]  J. Holtz,et al.  Identification of the machine parameters in a vector controlled induction motor drive , 1989, Conference Record of the IEEE Industry Applications Society Annual Meeting,.

[81]  E. F. Fuchs,et al.  Measurement of /spl lambda/-i characteristics of asymmetric three-phase transformers and their applications , 2000, Ninth International Conference on Harmonics and Quality of Power. Proceedings (Cat. No.00EX441).

[82]  S.S. Choi,et al.  A parameter identification technique for metal-oxide surge arrester models , 2002, IEEE Power Engineering Society Summer Meeting,.

[83]  Ping Ju,et al.  Sequential parameter estimation of a simplified induction motor load model , 1995 .

[84]  A. Deri,et al.  The Complex Ground Return Plane a Simplified Model for Homogeneous and Multi-Layer Earth Return , 1981, IEEE Transactions on Power Apparatus and Systems.

[85]  A. Ametani Wave Propagation Characteristics of Cables , 1980, IEEE Transactions on Power Apparatus and Systems.

[86]  G. Le Roy,et al.  Wave-propagation modes on high-voltage cables , 1977, IEEE Transactions on Power Apparatus and Systems.

[87]  E. Levi,et al.  Impact of dynamic cross-saturation on accuracy of saturated synchronous machine models , 2000 .

[88]  L. N. Hannett,et al.  Determination of synchronous machine stator and field leakage inductances from standstill frequency response tests , 1988 .

[89]  B. A. Mork,et al.  Transformer modeling for low- and mid-frequency transients - a review , 2005 .

[90]  C. Wong,et al.  EMTP modeling of IGBT dynamic performance for power dissipation estimation , 1995, IAS '95. Conference Record of the 1995 IEEE Industry Applications Conference Thirtieth IAS Annual Meeting.

[91]  G. C. Paap,et al.  Overvoltages in power transformers caused by no-load switching , 1995 .

[92]  Mladen Kezunovic,et al.  Mathematical models for current, voltage, and coupling capacitor voltage transformers , 2000 .

[93]  M. Landry,et al.  A new concept in post-arc analysis applied to power circuit-breakers , 1988 .

[94]  Jean Mahseredjian,et al.  Potential Risk of Failures in Switching EHV Shunt Reactors in Some One-and-a-half Breaker Scheme Substations , 2003 .

[95]  W. J. Giesbrecht,et al.  Modeling and analysis guidelines for slow transients. Part 1: Torsional oscillations; transient torques; turbine blade vibrations; fast bus transfer , 1995 .

[96]  P. Sarma Maruvada,et al.  Studies on Modeling Corona Attenuation of Dynamic Overvoltages , 1989, IEEE Power Engineering Review.

[97]  J. R. Marti,et al.  A phase-domain synchronous generator model including saturation effects , 1997 .

[98]  R. M. Saunders Standstill frequency-response methods and salient-pole synchronous machines , 1999 .

[99]  A. Keyhani,et al.  Iteratively reweighted least squares for maximum likelihood identification of synchronous machine parameters from on-line tests , 1999 .

[100]  G. Luoni,et al.  Induced currents and losses in single-core submarine cables , 1976, IEEE Transactions on Power Apparatus and Systems.

[101]  Ned Mohan,et al.  Simulation of power electronic and motion control systems-an overview , 1994 .

[102]  A. R. Hefner Modeling buffer layer IGBTs for circuit simulation , 1993 .

[103]  A. S. Morched,et al.  Frequency dependent eddy current models for nonlinear iron cores , 1993 .

[104]  A. Narang,et al.  Topology based magnetic model for steady-state and transient studies for three-phase core type transformers , 1994 .

[105]  F. de Leon,et al.  Efficient calculation of elementary parameters of transformers , 1992 .

[106]  Emil Levi Saturation modelling in d-q axis models of salient pole synchronous machines , 1999 .

[107]  Taku Noda,et al.  Phase domain modeling of frequency-dependent transmission lines by means of an ARMA model , 1996 .

[108]  H. W. Dommel,et al.  Calculation of frequency-dependent impedances of underground power cables with finite element method , 1989 .

[109]  Alan R. Wood,et al.  Improved simulation of HVDC converter transformers in electromagnetic transient programs , 1997 .

[110]  S. H. Minnich Small Signals, Large Signals, and Saturation in Generator Modeling , 1986, IEEE Transactions on Energy Conversion.

[111]  A. M. El-Serafi,et al.  Determination of the parameters representing the cross-magnetizing effect in saturated synchronous machines , 1993 .

[112]  N. Hylten-Cavallius,et al.  Capacitance calculations for some basic high voltage electrode configurations , 1975, IEEE Transactions on Power Apparatus and Systems.

[113]  A. Ametani,et al.  A General Formulation of Impedance and Admittance of Cables , 1980, IEEE Transactions on Power Apparatus and Systems.

[114]  N. Nagaoka,et al.  Semiconducting Layer impedance and its effect on cable wave-propagation and transient Characteristics , 2004, IEEE Transactions on Power Delivery.

[115]  P. Pinceti,et al.  A simplified model for zinc oxide surge arresters , 1999 .

[116]  S. Tominaga,et al.  Protective Performance of Metal Oxide Surge Arrester Based on the Dynamic V-I Characteristics , 1979, IEEE Transactions on Power Apparatus and Systems.

[117]  P. Lataire,et al.  Influence of saturation on estimated synchronous machine parameters in standstill frequency response tests , 2000 .

[118]  Muhammad H. Rashid Microelectronic Circuits: Analysis and Design , 1998 .

[119]  Rik Pintelon,et al.  Determination of synchronous machine parameters using network synthesis techniques , 1999 .

[120]  F. S. van der Merwe,et al.  Induction motor parameter estimation through an output error technique , 1994 .

[121]  H. Elahi,et al.  Modeling guidelines for fast front transients , 1996 .

[122]  Fridolin Heidler,et al.  Calculation of lightning current parameters , 1999 .

[123]  A. Greenwood,et al.  Electrical transients in power systems , 1971 .

[124]  A. S. Morched,et al.  Modeling and analysis guidelines for slow transients. III. The study of ferroresonance , 2000 .