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Electrical Engineering
Erschienen in: Electrical Engineering 3/2014

01.09.2014 | Original Paper

Modeling and analysis of power quality problems caused by coreless induction melting furnace connected to distribution network

verfasst von: Adnan Tan, K. Çağatay Bayindir

Erschienen in: Electrical Engineering | Ausgabe 3/2014

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Abstract

The development of power electronic devices offers the production of high-power current-source inverter-based coreless induction melting furnaces (CSI-CIMFs) for steel scrap melting process. These high-power CSI-CIMFs introduce many advantages in melting processes for low production rate steel mill and foundries. Besides the advantages of CSI-CIMF, it has unfamiliar time-varying harmonic and interharmonic characteristic. In this paper, operating principle and cause of time-varying harmonic and interharmonic characteristic of CSI-CIMF is clearly presented. The time-varying harmonic and interharmonic characteristic of CSI-CIMF is studied by simulation and field measurements of a real 10 MVA CSI-CIMF. The effect of time-varying harmonics and interharmonics of CSI-CIMF on power system is presented by harmonic analysis. The simulation model of CSI-CIMF is developed in PSCAD/EMTDC by using nameplate parameters and field measurements of a real 10 MVA CSI-CIMF in a steel mill which is located in Iskenderun, Turkey.
Vorheriger Artikel Sensorless vector control of PMSM with non-sinusoidal flux using observer based on FEM
Nächster Artikel Analysis of influence of imperfect contact between grounding electrodes and surrounding soil on electrical properties of grounding loops

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Literatur
1.
Zinn S, Semiatin SL (1988) Elements of induction heating: design control and applications, 1st edn. Electric Power Research Institute, USA
2.
Edgerley CJ, Smith L, Wilford CF (1988) Electric metal melting—a review. Power Eng J 2(2):83–92CrossRef
3.
Rudnev V, Loveless D, Cook R, Black M (1999) Power quality for induction melting in metal production, TechCommentary Electric Power Research Institute, USA
4.
Dawson FP, Jain P (1991) A comparison of load commutated inverter systems for induction heating and melting applications. IEEE Trans Power Electron 6(3):430–441CrossRef
5.
Loveless DL (1995) An overview of solid state power supplies for induction heating. 33 Met Prod 1995(8):41–44
6.
Dugan RC, Conrad LE (1999) Impact of induction furnace interharmonics on distribution systems, transmission and distribution conference, pp 791–796
7.
Yilmaz I, Ermis M, Cadirci I (2011) Medium frequency induction melting furnace as a load on the power system. IEEE Industry Applications Society Annual Meeting (IAS), pp 1–12
8.
Yilmaz I, Salor O, Ermis M, Cadirci I (2011) Field-data-based modeling of medium frequency induction melting furnaces for power quality studies. IEEE Industry Applications Society Annual Meeting (IAS), pp 1–11
9.
Jabbar RA, Akbal M, Masood MA, Junaid M, Akram MF (2008) Voltage waveform distortion measurement caused by current drawn by modern induction furnaces. In: 13th International conference on harmonics and quality of power, pp 1–7
10.
Unnikrishnan AK, Joseph A, Subhash Joshi TG (2006) Three level STATCOM based power quality solution for a 4 MW induction furnace. In: International conference on power electronics, drives and energy systems, pp 1–5
11.
Zamora I, Albizu I, Mazon AJ, Sagastabeitia KJ, Fernandez E (2003) Harmonic distortion in a stell plant with induction furnaces. In: International conference on renewable energies and power quality
12.
Salor Ö, Buhana S, Ünsar Ö, Boyrazoğlu B, Altıntaş E, Atalık T, Haliloğlu B, İnan T, Kalaycıoğlu A, Terciyanlı A, Açık A, Demirci T, Özdemirci E, Çadırcı I, Ermiş M (2009) Mobile monitoring system to take national wide PQ measurements of electrical transmission system. Measurement 42(4):501–515CrossRef
13.
(2008) IEC electromagnetic compatibility: testing and measurement techniques—power quality measurement methods, TEC Standard 61000–4-30, 2nd edn
14.
Bayındır KC, Tan A, Tokunç CO (2011) An effective power quality compensation system for power quality problems of current source coreless induction furnace. Int Rev Model Simul 4(3):1312–1324
15.
Boylestad RL (2007) Introductory circuit analysis, 10th edn. Prentice Hall, Englewood Cliffs
16.
Chudnovsky V, Axelrod B, Shenkman AL (1997) An approximate analysis of a starting process of a current source parallel inverter with a high-Q induction heating load. IEEE Trans Power Electron 12(2):294–301CrossRef
17.
Dede EJ, Jordan J, Gonzalez JV, Linares J, Esteve V, Maset E (1991) Conception and design of a parallel resonant converter for induction heating, applied power electronics conference and exposition, pp 38–44
18.
Bonert R, Lavers JD (1994) Simple starting scheme for a parallel resonance inverter for induction heating. IEEE Trans Power Electron 9(3):281–287CrossRef
19.
Peng FZ, Akagi H, Nabae A, Sugawara S (1989) High-frequency current-source inverters using SI thyristors for induction heating applications. IEEE Trans Ind Appl 25(1):172–180CrossRef
20.
Khan I, Tapson J, De Vries I (2000) Frequency control of a current-fed inverter for induction heating. In: Proceedings of the IEEE international symposium on industrial electronics, vol. 1. pp 343–346
21.
Ponwiangkum N, Kittiratsatcha S (2007) Switching frequency control based on phase-locked loop for a current-fed parallel resonant inverter, power conversion conference, pp 157–161
22.
Yacamini R (1996) Power system harmonics: part 4—Interharmonics. Power Eng J 10(4):185–193CrossRef
23.
Hu L, Yacamini R (1992) Harmonic transfer through converters and HVDC links. IEEE Trans Power Electron 7(3):514–525CrossRef
24.
IEC 61000–2-1 (1990) Electromagnetic compatibility (EMC)–Part 2: environment—Section 1: description of the environment—electromagnetic environment for low-frequency conducted disturbances and signalling in public power supply systems
25.
Testa A, Akram MF, Burch R, Carpinelli G, Chang G, Dinavahi V, Hatziadoniu C, Grady WM, Gunther E, Halpin M, Lehn P, Liu Y, Langella R, Lowenstei M, Medina A, Ortmeyer T, Ranade S, Ribeiro P, Watson N, Wikston J, Xu W (2007) Interharmonics: theory and modeling. IEEE Trans Power Deliv 22(4):2335–2348CrossRef
26.
Tayjasanant T, Wang W, Li C, Xu W (2005) Interharmonic-Flicker curves. IEEE Trans Power Deliv 20(2):1017–1024CrossRef
27.
(2002) Electromagnetic compatibility (EMC)–Part 4–7: testing and measurement techniques-general guide on harmonics and interharmonics measurements and instrumentation, for power supply systems and equipment connected thereto, IEC Standard 61000-4-7
28.
IEEE recommended practices and requirements for harmonic control in electrical power systems, IEEE Standard 519–1992
29.
(2008) Electromagnetic compatibility (EMC)–Part 3–6: Limits—assessment of emission limits for the connection of distorting installations to MV, HV and EHV power systems, IEC Standart 61000-3-6
30.
Halpin SM (2005) Comparison of IEEE and IEC harmonic standards. IEEE Power Engineering Society General Meeting, vol. 3. pp 2214–2216
Metadaten
Titel
Modeling and analysis of power quality problems caused by coreless induction melting furnace connected to distribution network
verfasst von
Adnan Tan
K. Çağatay Bayindir
Publikationsdatum
01.09.2014
Verlag
Springer Berlin Heidelberg
Erschienen in
Electrical Engineering / Ausgabe 3/2014
Print ISSN: 0948-7921
Elektronische ISSN: 1432-0487
DOI
https://doi.org/10.1007/s00202-013-0293-7

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