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Transfer Matrix Methods

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History of Rotating Machinery Dynamics

Part of the book series: History of Mechanism and Machine Science ((HMMS,volume 20))

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Abstract

Linke [6] measured the main current and exciting current after a short circuit. The main current rose to about 32 times the normal current. Brown Boverie Co. [1] reported that for a 3000 RPM 8800 kva machine, the maximum short circuit current is about 10-20 times that at full load. The current diminishes rapidly, but the steady state value is reached only after several seconds.

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References

  1. Brown Boveri & Cie. Report Publications, p. 32 (1920)

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  3. Eshleman, R.L.: Torsional Response of Internal Combustion Engines. Journal of Engineering for Industry, Trans. ASME, 441 (1974)

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  5. Hammons, T.J.: Effect of Three Phase System Faults and Faulty Synchronization on the Mechanical Stressing of Large Turbogenerator Drives. Revue General de l’Electricite 86, 558 (1977)

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  6. Linke, W.: Über Schaltvorgänge bei elektrischen Maschinen und Apparaten. Archiv für Elektrotechnik 1(2), 69 (1912)

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  7. Rao, J.S.: Rotor Dynamics, New Age International (1996)

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  8. Rao, J.S., Rao, D.K., Sarma, K.B.: The Transient Response of Turbo-Alternator Rotor Systems under Short Circuit Conditions, Vibrations of Rotating Machinery, Institute of Mechanical Engineers, Cambridge, England, p. 271 (1980)

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Authors
  1. J. S. Rao
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Rao, J.S. (2011). Transfer Matrix Methods. In: History of Rotating Machinery Dynamics. History of Mechanism and Machine Science, vol 20. Springer, Dordrecht. https://doi.org/10.1007/978-94-007-1165-5_15

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  • DOI: https://doi.org/10.1007/978-94-007-1165-5_15

  • Publisher Name: Springer, Dordrecht

  • Print ISBN: 978-94-007-1164-8

  • Online ISBN: 978-94-007-1165-5

  • eBook Packages: EngineeringEngineering (R0)

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