References
- 1. GE Energy (2005). Condition Monitoring Solutions for Hydro. Bently Nevada™. Asset Condition Monitoring. Available at http://www.ge-mcs.com/download/monitoring/GEA13978_L.pdf
- 2. STO 17330282.27.140.001-2006. Methods for Evaluating the Technical Condition of Major Hydroelectric Plant Equipment (in Russian: Стандарт ОАО РАО “Методики оценки технического состояния основного оборудования гидроэлектростанций”).
- 3. Babaei, M. Faiz, J., Ebrahimi, B.M., Amini, S., & Nazarzadeh, J. (2011). A detailed analytical model of a salient-pole synchronous generator under dynamic eccentricity fault. Magnetics, IEEE Transactions on 47.4: 764-771.
- 4. Zuzin, A.F., Pokonov, N.Z., & Antonov, M.V. (1971). Mounting, operation and maintenance of electrical equipment at manufacturing facilities. Москва: Высшая школа (in Russian: Зюзин А.Ф., Поконов Н.3. Антонов М.В. Монтаж, эксплуатация и ремонт электрооборудования промышленных предприятий и установок).
- 5. Air-gap measuring system LS 120 transducer and ILS 730 signal conditioner, Air-gap measuring systems manual, © Meggitt.
- 6. Chelvan, I. T. (2005). Non-Invasive Detection of Air gap Eccentricity in Synchronous Machines Using Current Signature Analysis. Thesis. Available in ProQuest Dissertation and Thesis database
- 7. Simond J.-J., Xuan M.T., Wetter R. (2008). An Innovative Inductive Air-Gap Monitoring for Large Low Speed Hydro-Generators, Proceedings of the International Conference on Electrical Machines
- 8. Rozenberg, G.Sh., Madorskij E.Z., & Tadzhibaev A.I. (2003). Vibrodiagnostics. Saint Petersburg: PEIPK (in Russian: Г.Ш. Розенберг, Е.З.Мадорский, А.И. Таджибаев, Вибродиагностика, СПб.: ПЭИПК).
- 9. Al-Nuaimand, N. A., Toliyat, H. A. (1998). A novel method for modelling dynamic air gap eccentricity in salient pole synchronous machines based on modified winding function theory. IEEE Trans. Energy Conversion, 13 (2), 156-162.
- 10. Toliyat, H. A., & Al-Nuaim, N. A. (1999). Simulation and detection of dynamic air-gap eccentricity in salient-pole synchronous machines. IEEE Trans. Industry Applications, 35 (1), 86-93.
- 11. Tabatabei, J., Faiz, H., & Lesaniand, M. T. (2004). Modeling and simulation of a salientpole synchronous generator with dynamic eccentricity using modified winding function theory. IEEE Trans. Magnetics, 40 (3), 1550-1555.
- 12. VIBROSYSTM (2003). Mechanical Tolerance Guidelines for Hydroelectric Generators, application note AN001. Available at: www.vibrosystm.com
- 13. Elmanis-Helmanis, R., & Griscenko, M. (2014). Study of Generator Modes Effects on Electric Power Quality and Air gap. RTUCON2014 Conference proceedings.
- 14. Air gap capacitive sensor (2014). Available at http://vibrosystm.com/wp-content/uploads/9628-25D1A-102.pdf
- 15. De Silva, & Clarence, W. (2000). Vibration: Fundamentals and Practice. CRC Press (USA).
- 16. Babic, B., Kartalovic, N., Marinkovic, S., Misovic, D., Teslic, D., Milosavljevic, Z., & Nikolic, A. (2013). Correlations between Magnetic and Vibration Measurements on Hydro Generators. Recent Advances in Intelligent Control, Modelling and Simulation.
- 17. Timar P. L. (1989). Noise and Vibration of Electrical Machines. New York: Elsevier Science.
- 18. Urjev, E.V. (2003). Vibration and Balancing (lecture notes). Москва: Высшая школа (in Russian: Е.В. Урьев, Вибрация и балансировка: учебное пособие).