Abstract:
The authors summarize the state of knowledge of the effects of power system harmonics on equipment. The general mechanisms presented are thermal overloading, disruption, ...Show MoreMetadata
Abstract:
The authors summarize the state of knowledge of the effects of power system harmonics on equipment. The general mechanisms presented are thermal overloading, disruption, and dielectric stressing. Quantitative effects are presented or referenced whenever possible. However, many of the effects are can only be qualitatively described. The types of equipment considered are adjustable speed drives, capacitors, circuit breakers, fuses, conductors, electronic equipment, lighting, metering, protective relays, rotating machines, telephones, and transformers.<>
Published in: IEEE Transactions on Power Delivery ( Volume: 8, Issue: 2, April 1993)
DOI: 10.1109/61.216874
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1.
"The Effects of Power System Harmonics on Power System Equipment and Loads", IEEE Trans. Power Apparatus and Systems, vol. PAS-104, no. 9, pp. 2555-2563, Sept. 1985.
2.
A. E. Emanuel, "Estimating the Effects of Harmonic Voltage Fluctuations on the Temperature Rise of Squirrel-Cage Motors", IEEE Trans. Energy Conversion, vol. 6, no. 1, pp. 162-169, Mar 1991.
3.
F. Lembo and V. H. D'Onofrio, "Distribution Harmonics Cause Breaker Problems", Electrical World, pp. 121-122, Sept 1981.
4.
J. P. Brozek, "The Effects of Harmonics on Overcurrent Protection Devices", Proc. 1990 IAS, pp. 1965-1967, 1990.
5.
A. E. Kennelly, F. A. Laws and P. H. Pierce, "Experimental Researches on Skin Effects in Conductors", Trans. AIEE, vol. 34, pp. 1953-2018, 1915.
6.
J. Arrillaga, D. A. Bradley and P. S. Bodger, Power System Harmonics, John Wiley & Sons, 1985.
7.
D. Ε. Rice, "Adjustable Speed Drive and Power Rectifier Harmonics - Their Effect on Power System Components", IEEE Trans. Industrial Applications, vol. LA-22, no. 1, pp. 161-177, Jan/Feb 1986.
8.
T. M. Gruzs, "A Survey of Neutral Currents in Three-Phase Computer Power Systems", IEEE Trans. Industrial Applications, vol. 26, no. 4, pp. 719-725, Jul/Aug 1990.
9.
A. A. Girgis, J. W. Nims, J. Jacamino, J. G. Dalton and A. Bishop, "Effect of Voltage Harmonics on the Operation of Solid State Relays in Industrial Applications", Proc. 1990 IAS, pp. 1821-1828.
10.
A. Ludbrook, "Harmonic Filters for Notch Reduction", IEEE Trans. Industrial Applications, vol. 24, no. 5, pp. 947-954, Sept/Oct 1988.
11.
"IEEE Standard 519-1981", Guide for Harmonic Control and Reactive Compensation of Static Power Converters.
12.
Ε. F. Fuchs, D. J. Roesler and K. P. Kovacs, "Sensitivity of Electrical Appliances to Harmonics and Fractional Harmonics of the Power System's Voltage. Part II: Television Sets Induction Watthour Meters and Universal Machines", IEEE Trans. Power Delivery, vol. PWRD-2, no. 2, April 1987.
13.
IES Lighting Handbook, New York:Illuminating Engineering Society of North America, 1981.
14.
N. M. Oldham and T. L. Nelson, Influence of Non-sinusoidal Waveforms on Voltmeters Ammeters and Phase Meters.
15.
P. S. Filipski and R. Arseneau, Behavior of Wattmeters and Watthour Meters Under Distorted Waveform Conditions.
16.
S. Goldberg and W. F. Horton, "An Experimental Study of the Effects of NonSinsoidal Currents on the Registration of Induction Watthour Meters", Proceedings of the 21st Annual North American Power Symposium, 1989-Oct.-9-10.
17.
"Fault Induced Wave Distortion of Interest to Relay Engineers", IEEE Trans. Power Apparatus and Systems, vol. PAS-104, no. 12, pp. 3574-3584, December 1985.
18.
Sine-Wave Distortions in Power Systems and the Impact on Protective Relaying, 1984.
19.
F. A. Jost, D. F. Menzies and S. W. Sachdev, "Effects of System Harmonics on Power System Relays", Transactions of the Operation and Planning Division of the Canadian Electric Association Conference, vol. 3, 1974-March.
20.
D. E. Saramaga, R. W. Menzies and G. W. Swift, "Effect of Harmonic Currents on Induction Disc Operating Torque", IEEE Conference.
21.
"The Impact of Sine-Wave Distortions on Protective Relays", IEEE Trans. Industrial Applications, vol. IA20, no. 2, pp. 335-343, March/April 1984.
22.
W. F. Horton and S. Goldberg, "The Effect of Harmonics on the Operating Points of Electromechanical Relays", IEEE Trans. Power Apparatus and Systems, vol. PAS-104, no. 5, pp. 1178-1186, May 1985.
23.
W. T. Jewell, The Effects of Voltage and Current Distortion on Power System Protective Relay Operation, September 1989.
24.
C. J. Erickson, "Motor Design Features for Adjustable-Frequency Drives", IEEE Trans. Industrial Applications, vol. 24, no. 2, pp. 192-198, Mar/Apr 1988.
25.
E. F. Fuchs, D. J. Roesler and F. S. Alashhab, "Sensitivity of Electrical Appliances to Harmonics and Fractional Harmonics of the Power System's Voltage. Part I: Transformers and Induction Machines", IEEE Trans on Power Delivery, vol. PWRD-2, no. 2, pp. 437-444, Apr 1987.
26.
E. F. Fuchs, D. J. Roesler and K. P. Kovacs, "Aging of Electrical Appliances due to Harmonics of the Power System's Voltage", IEEE Trans. Power Delivery, vol. PWRD-1, no. 3, pp. 301-307, Jul 1986.
27.
R. A. Hanna, "Harmonics and Technical Barriers in Adjustable Speed Drives", IEEE TYans. Industry Applications, vol. 25, no. 5, pp. 894-900, Sep/Oct 1989.
28.
J. M. D. Murphy and M. G. Egan, "A Comparison of PWM Strategies for Inverter-Fed Induction Motors", IEEE Trans. Industry Applications, vol. IA-19, no. 3, pp. 363-369, May/Jun 1983.
29.
J. T. Boys and S. J. Walton, "A Loss Minimisied Sinusoidal PWM Inverter", IEE Proceedings, vol. 132, no. 5, pp. 260-268, Sept 1985.
30.
E. C. Anderesen and K. Bieniek, "On the Torques and Losses of Voltage- and CurrentSource Inverter Drives", IEEE Trans. Industry Applications, vol. IA-20, no. 2, pp. 321-327, Mar/Apr 1984.
