Zastosowanie maszyny o magnesach trwałych o polu osiowym w układach wytwarzania energii elektrycznej

• Autorzy: Koczara W. , Chłodnicki Z.

Warianty tytułu

EN

Application of the axial flux permanent magnet generator to power generation systems

• Konferencja: Problemy eksploatacji maszyn i napędów elektrycznych (2009; Rytro, Polska)
• Języki publikacji: PL

Abstrakty

EN

Conventional generation systems, made from wound rotor synchronous generator, have limited possibility to further improvement. The demand of precise fixed speed does not permit to any reduction in mass and quality of produced voltage. The paper presents adjustable/variable speed generation system producing sinusoidal AC voltage. The system consist of driving engine, permanent magnet generator and power electronic converter. The axial flux permanent magnet generator produces AC variable frequency and amplitude whereas an AC/AC. power electronic converter provides quality standard voltage. The paper presents basic relations in the new generation system. An axial flux permanent magnet generator 16 poles generator is used. The system operates in wide speed range and speed variability may be applied for efficient operation.

Słowa kluczowe

PL

wytwarzanie energii elektrycznej; energia elektryczna; maszyna elektryczna; magnes trwały; generator

• Wydawca: Sieć Badawcza Łukasiewicz - Górnośląski Instytut Technologiczny
• Czasopismo: Maszyny Elektryczne : zeszyty problemowe
• Rocznik: 2009
• Tom: Nr 81
• Strony: 33--38
• Opis fizyczny: Bibliogr. 15 poz., rys., tab.

Twórcy

autor

Koczara W.

autor

Chłodnicki Z.

• Politechnika Warszawska, Warszawa,

Bibliografia

• [1]. Z.Chlodnicki, W.Koczara, N.Al-Khayat: Laboratory Simulation of the Variable Speed Generation System. EPE Journal Vol. 17 nr 4 Janvier 2008.
• [2]. R. Srzelecki, G. Benysek: Power Electronics in Smart Electrical Energy Networks, Springer London, 2008.
• [3]. Bolognani S., Venturo A., Zigliotto M.: Novel Control Technique for High-Performance Diesel-Driven Generator-Sets. Conference Proceedings on Power Electronics and Variable Speed Drives, 18-19 September 2000. Conference Publication No. 475 © IEE 2000, pp. 18-523.
• [4]. W. Koczara, M. Moskwa, N. L. Brown: Autonomous Adjustable Speed Decoupled Generation Systems and their Parallel Operation. Proceedings of 39 Power Electronics Specialists Conference PESC, 15-19 June 2008, Rhodes, Greece.
• [5]. W. Koczara, Z. Chlodnicki, E.Ernest, N. L. Brown: Hybrid Generation System. Proceedings of 3rd International Conference on Ecological Vehicles and Renewable Energies, Monte Carlo March 27-30, 2008. Monaco.
• [6]. L. Grzesiak, W. Koczara, M. Da Ponte, “Novel Hybrid Load-Adaptive Variable-Speed Generating System”, Proceedings of IEEE Industrial Electronics Conference Vol.1, p.271-276, Pretoria, 1998.
• [7]. N. Al.-Khayat, R. Seliga, W. Koczara, B. Kaminski, A. Krasnodebski, ”DSP Control of Variable Speed Integrated Generator”, IEEE-ISIE 2002, International Seminar on Industrial Electronic L’Aquila, Italy, July 2002.
• [8]. W. Koczara, L. Grzesiak, M. Da Ponte, “Application of a Permanent Magnet Machine in the Novel Hygen Adjustable Speed Load Adaptive Electricity Generating System”, IEEE-IEMD Seattle 10-12 May 1999.
• [9]. G. Iwanski and W. Koczara, “Control system of the variable speed autonomous doubly fed induction generator” Proceedings of International Power Electronics and Motion Control Conference – EPEPEMC’04, Riga, Latvia
• [10]. G. Iwanski and W. Koczara, “Sensorless Direct Voltage Control Method for Stand-Alone Slip-Ring Induction Generator” Proceedings of 11th European Conference on Power Electronics and Applications – EPE’05, Dresden, Germany.
• [11]. Koczara, E. Ernest, N. Al.-Khayat: „VSIG - Variable Speed Integrated Generation System For Distributed Generation“, Proceedings of the Fifth IASTED International Conference on Power and Energy Systems , June 15-17 2005, Benalmadena, Spain, 335-340 str., ISBN: 0-88986-465-9, ISSN: 1482-7891.
• [12]. Hygen – variable speed generating system for quality electric power supply. Technical overview. Volt-Ampere, Pretoria, South Africa.
• [13]. Variable Speed Integrated Generator (VSIG) – product profile. NEWAGE (in present time Cummins Generator Technologies) Stamford UK.
• [14]. H.Polinder, S.W.H. de Hann, M.B. Dubois, J.G.Slootweg: Basic Operation Principles and Electrical Conversion Systems of Wind Turbines,. EPE Journal Vp. 15, nr 4. December 2005.
• [15]. A. Krasnodebski: Asynchronous Thyristor By-pass Increasing Short Circuit Capability of Variable Speed Generating Set. PhD thesis. Warsaw University of Technology, Warsaw, Poland 2007.