Analysis of Transient Stability of Superconductor Synchronous Generator at the Presence of Fault Current Superconductor Limiter | Revista Publicando
Analysis of Transient Stability of Superconductor Synchronous Generator at the Presence of Fault Current Superconductor Limiter
PDF (EN)

Palabras clave

students’ information competence
information technology
information activity
academic motivation
didactic support

Cómo citar

Manouchehr. (2018). Analysis of Transient Stability of Superconductor Synchronous Generator at the Presence of Fault Current Superconductor Limiter. Revista Publicando, 5(15 (1), 83-108. Recuperado a partir de https://revistapublicando.org/revista/index.php/crv/article/view/1126

Resumen

One of the most important principles in power networks is system stability. For maximum use of investments in generation, present day systems work at their highest capacity. In other term, they are always at oscillating state and this reduces power system stability drastically. An ordinary generator has some flaws such as small output power density and low efficiency especially upon high powers; however, superconductor generator has higher efficiency than ordinary generator, and similarly, has greater stability upon occurrence of oscillations in power networks. From other side, use of fault current superconductor limiter for rapid removal of fault and ameliorating the transient stability also is effective for generator protection upon fault occurrence. Given above questions, the necessity of study and offering an approach regarding transient stability amelioration, modification of oscillations as well as protecting generators upon fault occurrence seems to be necessary. Here, by modeling an ordinary synchronous generator with infinite bus and comparing it with equal conditions upon fault occurrence with a superconductor generator at the presence of fault current superconductor limiter, we examine the rotor kinetic energy oscillations upon fault occurrence using MATLAB software.

PDF (EN)

Citas

Alyan MAAS, Rahim YH (1987), the role of governor control in transient stability of super-conducting turbo-generators, IEEE transactions on energy conversion 2(1): 38-46.”

Demiroren A, Zeynelgil HL (2002), Modelling and simulation of synchronous machine transient analysis using SIMULINK, International Journal of Electrical Engineering Education 39(4): 337-346.”

Giese RF, Runde M (1993), Assessment study of superconducting fault-current limiters operating at 77 K, IEEE transactions on power delivery 8(3): 1138-1147.”

Hara T, Okuma T, Yamamoto T, Ito D, Tasaki K, Tsurunaga K (1993), Development of a new 6.6 kV/1500 A class superconducting fault current limiter for electric power systems, IEEE transactions on Power Delivery 8(1): 182-192.”

Kirtley JL (1993), large system interaction characteristics of superconducting generators, Proceedings of the IEEE 81(3): 449-461.”

Leung EM (2000), Superconducting fault current limiters, IEEE power engineering Review 20(8): 15-18.”

Minseok J (1986), Dynamic performance and design of a high temperature superconducting synchronous motor, IEEE Transaction on Applied Superconductivity 9(2): 1245-1249.”

Power AJ (1995), An overview of transmission fault current limiters.”

Sjostrom M, Cherkaoui R, Dutoit B (1999), Enhancement of power system transient stability using superconducting fault current limiters, IEEE Transactions on Applied Superconductivity 9(2): 1328-1330.”

Smith RK, Slade PG, Sarkozi M, Stacey EJ, Bonk JJ, Mehta H (1993), Solid-state distribution current limiter and circuit breaker: application requirements and control strategies, IEEE Transactions on Power Delivery 8(3): 1155-1164.”

Superczynski MJ, Waltman DJ (1997), Homopolar motor with high temperature superconductor field windings, IEEE transactions on applied superconductivity 7(2): 513-518.”

Thuries E, Pham VD, Laumond Y, Verhaege T, Fevrier A, Collet M, Bekhaled M. (1991), Towards the superconducting fault current limiter, IEEE Transactions on Power Delivery 6(2): 801-808.”

Yagami M (2001), Enhancement of power system transient stability by superconducting fault current limiters, In IASTED Conf. on Power and Energy Systems (pp. 673-678).”

Yagami M, Murata T, Tamura J (2000), Stabilization of synchronous generators by superconducting fault current limiter, In Power Engineering Society Winter Meeting IEEE 2(2): 1394-1398.

Yagami M, Murata T, Tamura J (1999), An analysis of superconducting fault current limiter for stabilization of synchronous generators under unbalanced faults, IEE Japan 119(12): 1510–1516.

Descargas

La descarga de datos todavía no está disponible.