156
CHAPTER 9
REFERENCES
[1]. Gosbell,V.J., Perera, B.S.P., Herath, H.M.S.C.: New framework for
utility power quality (PQ) data analysis. Proceedings AUPEC’01, Perth,
pp. 577–582 (2001).
[2]. Bollen, M.H.J., Understanding power quality problems – voltage sags
and interruption, IEEE press series of Power Engineering, pp. 255,
2000.
[3]. J. Arrillaga, M.H.J. Bollen, and N.R. Watson, “Power quality following
deregulation,” Proceedings of the IEEE, vol. 88, no. 2, pp. 246–261,
February 2000.
[4]. Cobben J.F.G, Casteren J.F.L. van, Classification methodologies for
power quality, Electrical Power Quality and Utilization, Magazine Vol
II, No.1, 2006.
[5]. Task force 38.06.01.Methods to consider customer interruption costs
in power system analysis, technical report, CIGRE, 2001.
[6]. W. Kanitpanyacharoean and S. Premrudeepreechacharn.
Power
quality problem classification using wavelet transformation and
artificial neural networks. In Proc. of Power System Conf. and
Exposition, pp 1496– 1501, 2004.
[7]. B. Bizjak and P. Planinsic.
using fuzzy logic.
Classification of power
distrbances
In Proc. of IEEE Int. Conf. on Power Electronics
and Motion Control, 2006
157
[8]. P.K. Dash, M.M.A. Salama, S. Mishra, and A.C. Liew, “Classification of
power system disturbances using a fuzzy expert system and a fourier
linear combiner,” IEEE Transactions on Power Delivery, vol. 15, no. 2,
pp. 472–477,April 2000.
[9]. I.Y.H. Gu and M.H.J. Bollen, “Time-frequency and time-scale domain
analysis of voltage disturbances,” IEEE Transactions on Power
Delivery, vol. 15, no. 4, pp. 1279–1284, October 2000.
[10]. A. Mansoor, W. M. Grady, P. T. Staats, R. S. Thallam; M. T. Doyle, M.
J. Samotyj, "Predicting the net harmonic currents produced by large
numbers of distributed single-phase computer loads," Power Delivery,
IEEE Transactions on, vol.10, no.4, pp.2001-2006, Oct 1995.
[11]. W. Mack Grady and R. J. Gilleskie, “Harmonics and how they relate to
power factor.” Proc. of the EPRI Power Quality Issues & Opportunities
Conference (PQA’93), San Diego, CA, pp. 1-8, November 1993.
[12]. Arrillaga,
J.,
Watson,
N.R.,
Chen,
S.:
Power
System
Quality
Assessment. Wiley, New York (2000).
[13]. A. McEachern, “Designing electronic devices to survive power-quality
events,” IEEE Industry Applications Magazine, vol. 6, no. 6, pp. 66–
69, Novemer- December 2000.
[14]. B. Kennedy, Power Quality Primer, McGraw-Hill, 2000.
[15]. Keulenaer H. De., Power quality self-assessment guide, Power Quality
Application Guide 1-1, November 2002. [15.06.07]
[16]. Hans De Keulenaer., The hidden cost of poor power quality selfassessment guide, Power Quality Application Guide 1-1, Oct 31, 2003.
158
[17]. Ashish Bendre, Divan D, Kranz W, Brumsickle W, Equipment failures
caused
by
power
quality
disturbances,
Industry
Applications
Conference, Oct 2004.
[18]. Johan H. R. Enslin, and Peter J. M. Heskes., “Harmonic Interaction
Between a Large Number of Distributed Power Inverters and the
Distribution Network” IEEE Transactions on Power Electronics, Vol.
19, No. 6, pp1586-1593 November 2004.
[19]. Roy Billinton and Wijarn Wangdee., “Approximate Methods for EventBased Customer Interruption Cost Evaluation” IEEE Transactions on
Power Systems, VOL. 20, NO. 2, pp 1103-1110 May 2005.
[20]. Iglesias J.Luis.G, McEachern A, The economics of power quality – a
systematic framework for the assessment, 19th International Conf. on
Electricity Distribution, CIRED 2007, Vienna.
[21]. Targosz
R, Manson J, PAN European LPQI
power quality survey,
19th International Conference on Electricity Distribution, CIRED
2007, Vienna.
[22]. S. Bhattacharyya, J.M.A. Myrzik and W.L. Kling Consequences of Poor
Power Quality – An Overview UPEC 2007 pp. 651-656
[23]. Math H. J. Bollen and Irene Y. H. Gu, Automatic Classification of
Power System Events using rms Voltage Measurements IEEE
Conference 2002 pp.824-829.
[24]. E. Styvaktakis, M.H.J. Bollen; and I.Y.H. Gu, “Expert system for
classification and analysis of power system events,” IEEE Trans. On
Power Delivery, vol. 17, no. 2,pp. 423-428, Apr. 2002.
[25]. Y. Liao and J.-B. Lee. A fuzzy-expert system for classifying power
159
quality
disturbances. Electrical Power and Energy Systems, Elvier
Science, 26:199–205, 2004.
[26]. Mamun Bin Ibne Reaz and Florence Choong “Expert System for Power
Quality Disturbance Classifier” IEEE Transactions on Power Delivery,
Vol. 22, NO. 3, pp. 1979-1188 July 2007.
[27]. Saron K. Meyer “Power Quality Event Analysis using Wavelet Feature
based Fuzzy Classification” proceedings of IEEE Conference 2008.
[28]. A. Mansoor; W. M. Grady; A. H. Chowdhury; M .J. Samotyi, "An
investigation
of
harmonics
attenuation
and
diversity
among
distributed single-phase power electronic loads," Power Delivery, IEEE
Transactions on , vol.10, no.1, pp.467-473, Jan 1995.
[29]. W. M. Grady, A. Mansoor, E. F. Fuchs; P. Verde; M. Doyle, "Estimating
the net harmonic currents produced by selected distributed singlephase loads: computers, televisions, and incandescent light dimmers,"
Power Engineering Society Winter Meeting, 2002. IEEE , vol.2, no., pp.
1090- 1094, 2002
[30]. A. J. Collin and S. Z, Djokic, “Voltage Disturbances and Inrush
Current of DC Power Supplies,” presented at The International
Conference of Renewable Energy and Power Quality (ICREPQ),
Granada, March 23 -25, 2010
[31]. R. Dwyer,et al., “Evaluation of harmonic impact from compact
fluorescent lights on distribution systems.” IEEE Transactions on
Power Delivery, Vol. 10, No. 4, November 1995.
[32]. I. Daut, H .S. Syafruddin, Rosnazri Ali, M. Samila and H. Haziah, “The
effects of harmonic components on transformer losses of sinusoidal
160
source supplying non-linear loads,”American Journal of Applied
Sciences 3 (12), pp. 2131-2133, 2006.
[33]. M. Erhan Balci, M. Hakan Hocaoglu “Effects of Source Voltage
Harmonics on Power Factor Compensation in AC Chopper Circuits”
Electrical Power Quality and Utilisation, Journal Vol. XIV, No. 1, pp. 5360 2008.
[34]. Juan C. Gomez and Medhat M. Morcos “Behavior of Induction Motor
Due to Voltage Sags and Short Interruptions” IEEE Transactions on
Power Delivery, VOL. 17, NO. 2, pp. 434-440 APRIL 2002.
[35]. Math H.J. Bollen, Mats Hager and Christian Roxenius “Effect of
Induction Motors and Other Loads on Voltage Dips: Theory and
Measurements” IEEE Bologna PowerTech Conference, June 23-26,
2003 Bologna, Italy.
[36]. Emanuel A. E., McNeill J.A., Electric power quality, Annu. Rev. Energy
Environ., 1997.
[37]. Johnson P., Coney R., Introducing national quality of supply (power
quality) standards the South African experience, 10th International
Conference on Electromagnetic Compatibility, September 1997.
[38]. Melhorn C.J, Maitra A, Sunderman W, Waclawiak M, Sundaram A,
Distribution system power quality assessment phase-II: voltage sag
and interruption analysis, copyright IEEE, paper no. PCIC- 2005-13.
[39]. Enslin J.H.R, Heskes P.J.M, Harmonic interaction between a large
number of distributed power inverters and the distribution network,
IEEE transactions on power electronics, vol19, no.6, 2004.
161
[40]. M.F. McGranaghan, “Economic evaluation of power quality,” IEEE
Power Engineering Review, vol. 22, no. 2, pp. 8–12, February 2002.
[41]. Cobben, J.F.G, A customer oriented approach to the classification of
voltage sags, presented in the round table (session 2) of CIRED 2005,
Torino June 2005.
[42]. Sarat Chandra VEGUNTA and Jovica V MILANIOVIC “Financial
Impact of Power Quality on Indian Pharmaceutical Industry – Survey
Results” 20th International Conference on Electricity Distribution,
CIRED 2009, Prague.
[43]. A.M. Gaouda, M.M.A Salama, M.R. Sultan, and A.Y. Chikhani, “Power
quality detection and classification using wavelet-multiresolution
signal decomposition,” IEEE Transactions on Power Delivery, vol. 14,
no. 4, pp. 1469–1476, July 1999.
[44]. C. F. Chen. Fuzzy training data for fuzzy supervised classification
of remotely sensed images. In Proc. of Asian Conf. on Remote Sening
(ACRS 1999), 1999.
[45]. IEEE recommended practice for monitoring electric power quality, IEEE
Standard 1159- 1995, Nov. 1995
[46]. E. Styvaktakis, M.H.J. Bollen; and I.Y.H. Gu, “Expert system for
classification and analysis of power system events,” IEEE Trans. On
Power Delivery, vol. 17, no. 2,pp.423-428, Apr. 2002.
[47]. S.Mallat. A Wavelet Tour of Signal Processing. Academic Press, 2nd
edition, 1999.
[48]. G. Strang and T. Nguyen. Wavelets and Filter Banks. WellesleyCambridge Press, 1996.
162
[49]. S. Santoso, W.M. Grady, E.J. Powers, J. Lamoree, and S.C. Bhatt,
“Characterization of distribution power quality events with fourier and
wavelet transforms,” IEEE Transactions on Power Delivery, vol. 15, no.
1, pp. 247–254, January 2000.
[50]. M. Kezunovic and Y. Liao, “A new method for classification and
characterization of voltage sags,” Electric Power Systems Research,
vol. 1, no. 3, pp. 27–35, May 2001.
[51]. C.
H.
Lin
and
M.
C.
Tsao.
Power
quality
detection
with
classification enhancible wavelet-probabilistic network in a power
system. IEE Proc. Gener. Transm. Distrib., 152:969–976, 2005.
[52]. Yen.J, Langari.R, “Fuzzy logic: intelligence, control, and information,”
Englewood Cliffs, NJ: Prentice- Hall, 1999.
[53]. T.X.Zhu,
S.K.Tso
and
K.L.Lo,
“Wavelet-based
fuzzy
reasoning
approach to power-quality disturbance recognition,” IEEE Trans, on
Power Delivery, vol. 19, no. 4, pp. 1928-1935, Oct 2004.
[54]. Department of Energy and Climate Change (DECC), “Electricity
Consumption– Domestic 2008,” 2009.
[55]. IEC, "61000 3-2: Limits for harmonic current emissions (equipment
input current less than 16A per phase)," 2007.
[56]. A.
Bennacer
and
A.
Coltart,
“Private
communication,”
Delta
Electronics Europe Ltd, December 2008.
[57]. C. E. Cresswell and S. Z. Djokić, "The analysis of the occurrence of
high inrush currents in DC power supplies," presented at Power
Electronics, Machines and Drives, 2008. PEMD 2008. 4th IET
Conference on, 2008.
163
[58]. A. Collin, J. L. Acosta, B. P. Hayes and S. Djokić, “Component-based
Aggregate Load Models for Combined Power Flow and Harmonic
Analysis”, submitted to Power Generation, Transmission, Distribution
and Energy Conversion (Med Power), 7th Mediterranean Conference
and Exhibition on, 2010.
[59]. British Standard, “Electromagnetic compatibility (EMC) Testing and
measurement techniques, voltage dips, short interruptions and
voltage variations immunity tests,” BS END 61000-4-11, 2004.
[60]. Rubycon, “Large can type aluminium electrolytic capacitors: USC
series”, 2010
[61]. Coilcraft, “PFC Boost Inductor – Document 607”, 2009.
[62]. Adam J. Collin and Charles E. Cresswell, Harmonic Cancellation of
Modern Switch-Mode Power Supply Load IEEE Conference 2010
[63]. H .S. Syafruddin, Rosnazri Ali, M. Samila and H. Haziah, “The effects
of harmonic components on transformer losses of sinusoidal source
supplying non-linear loads,”American Journal of Applied Sciences 3
(12), pp. 2131-2133.
[64]. L.T. Skvarenina and D.E. William, Electrical Power and Controls, 2nd
ed., Pearson Prentice Hall: New Jersey, 2004
[65]. IEEE Task Force, “Effects of harmonics on equipment”, IEEE Trans.
Power Delivery, vol. 8, pp. 672-680, Apr. 1993
[66]. A.G. Nashandi and G. Atkinson- Hope , “Impact of large number of
compact fluorescent lights on distribution systems”
164
[67]. IEEE Task Force on Load Representation for Dynamic Performance,
“Load Representation for Dynamic Performance Analysis,” IEEE Trans.
Power Systems, Vol. 8, No. 2, pp. 472-482, May 1993.
[68]. P. Kundur, Power System Stability and Control, New York: McGrawHill, 1994, pp. 1-39 & 271-313.
[69]. W.W. Price, K.A. Wirgau, A. Murdoch, J.V. Mitsche, E. Vaahedi, M.A.
El-Kady, “Load Modeling for Power Flow and Transient Stability
Computer Studies,” IEEE Trans. on Power Systems, Vol. 3, No. 1, pp.
180-187, Feb. 1988.
[70]. Key, T. S.; Jih-Sheng, L., (1996). Costs and benefits of harmonic
current reduction for switch mode power supplies in a commercial
office building, IEEE Tran. on Industry Applications, vol. 32, Issue 5,
Sep/Oct 1996, pp. 1017–1025.
[71]. Schneider Electric. Electrical Installation Guide, 2009.
[72]. Michalik, G.; Khan, M. E.; Bonwick, W. J.; Mielczarski, W. (1997).
Structural modeling of energy demand in the residential sectors.
Elsevier, vol. 38, Number 6, November 1997, pp. 453–453.
[73]. Gonos, I. F.; Kostic, M. B. ; Topalis, F. V. (1999). Harmonic distortion
in electric power systems introduced by compactfluorescent lamps.
International Conference on Electric Power Engineering, Budapest,
1999, pp. 295–300.
[74]. Aiello, N.; Messina, S. (2008). VIPower: Self-Oscillating Converter
Using VK05CFL for Compact Fluorescent Lamps.
165
[75]. Sasaki, R. I. (1994). The Impact of Electronic Ballast Compact
Fluorescent
Lighting
on
Power
Distribution
Systems.
Purdue
University School of Electrical Engineering, 1994.
[76]. Duda, R. O.; Hart, P. E.; Stork, D. G. (2007) Pattern classification.
Wiley, ISBN 978-0-471-05669-0.
[77]. C. Sankaran, Power Quality, 2002, CRC Press
[78]. L. Tang, J. Lamoree, M. McGranagham, and H. Mehta, “Distribution
system voltage sags: Interaction with motor and drive loads,” in Proc.
IEEE Transmiss. Distribut. Conf., pp. 1–6, Chicago, IL, 1994.
[79]. C. Y. Lee, “Effects of unbalanced voltage on the operation performance
of a three-phase induction motor,” IEEE Trans. Energy Conv., vol. 14,
pp. 202–208, June 1999.
[80]. L. Guasch, F. Corcoles, J. Pedra," Effects of Symmetrical and
Unsymmetrical
Voltage
Sags
on
Induction
Machine",
IEEE
Transactions on Power Delivery, Vol. 19, No. 2, April 2004.
[81]. M. H. J. Bollen, “The influence of motor reacceleration on voltage
sags,” IEEE Trans. on Industry Applications, Vol. 31, pp. 667–674,
July/Aug. 1995.
[82]. G. R. Slemon,"Modelling Induction Machines for Electric Drives," IEEE
Trans. on Industry Applications, Vol.25, No. 6, pp. 1126-1131, Nov.
1989.
[83]. B. K. Bose “Modern power electronics and ac drives” forth impression
2007 Pearson Prentice Hall, ISBN: 81-7758-876-1, 2007
166
[84]. Shuhui Li , Haskew T. A. “Analysis of Decoupled d-q Vector Control in
DFIG Back-to-Back PWM Converter” Power Engineering Society
General Meeting 2007 IEEE Publication Date: 24-28 June 2007