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2014 | 59 | 2 | 73-79
Tytuł artykułu

A Novel Control-rod Drive Mechanism via Electromagnetic Levitation in MNSR

Treść / Zawartość
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
In this paper, an electromagnetic levitation system was used with a synchronous motor to navigate the control rod of a small-type research reactor. The result from this prototype magnetic levitation system was in agreement with simulation results. The control system was programmed in MATLAB through open-loop system, closed-loop with state feedback and closed-loop with state feedback integral tracking. The final control system showed the highest performance with a low positioning error. Our results showed that the developed control system has the potential to be used as a reliable actuator in nuclear reactors to satisfy higher performance and safety.
Wydawca

Czasopismo
Rocznik
Tom
59
Numer
2
Strony
73-79
Opis fizyczny
Daty
otrzymano
2013-12-17
zaakceptowano
2014-04-25
online
2014-07-08
Twórcy
  • Department of Electrical Engineering, Aliabad Katoul branch, Islamic Azad University, Aliabad Katoul, Iran, Tel: +98 911 353 2381
  • Department of Electrical Engineering, Aliabad Katoul branch, Islamic Azad University, Aliabad Katoul, Iran, Tel: +98 911 353 2381, mehdi.hashemi.t@gmail.com
  • Department of Mechanical Engineering, Sirjan University of Technology, Kerman, Iran
  • Department of Electrical Engineering, Aliabad Katoul branch, Islamic Azad University, Aliabad Katoul, Iran, Tel: +98 911 353 2381
Bibliografia
  • 1. Hanliang, B., Wenxiang, Z., & Duo, D. (2000). Studies on the performance of the hydraulic control rod drive for the NHR-200. Nucl. Eng. Des., 195, 117-121.
  • 2. Yuanqiang, W., Xingzhong, D., Huizhong, Z., & Zhiyong, H. (2002). Design and tests for the HTR-10 control rod system. Nucl. Eng. Des., 218, 147-154.
  • 3. Takeda, T., & Tachibana, Y. (2003). Indirect air cooling techniques for control rod drives in the high temperature engineering test reactor. Nucl. Eng. Des., 223, 25-40.
  • 4. Chyou, Y. P., Yu, D. D., & Chen, Y. N. (2004). Performance validation on the prototype of control rod driving mechanism for the TRR-II project. Nucl. Eng. Des., 227, 195-207.
  • 5. Mousavi Shirazi, S. A., Aghanajafi, C., Sadoughi, S., & Sharifloo, N. (2010). Design, construction and simulation of a multipurpose system for precision movement of control rods in nuclear reactors. Ann. Nucl. Energy, 37, 1659-1665.[WoS]
  • 6. Tanaka, A., Futahashi, K., Takanabe, K., Kurimura, C., Kato, J., & Hara, H. (2008). Development of a 3-D simulation analysis system for PWR control rod drive mechanism. Int. J. Pressure Vessels Pip., 85, 655-661.
  • 7. International Atomic Energy Agency. (1986). Technology and use of low power research reactors. Vienna: IAEA. (IAEA-TECDOC-384).
  • 8. Tabadar, Z., Hadad, K., Nematollahi, M. R., Jabbari, M., Khaleghi, M., & Hashemi-Tilehnoee, M. (2012). Simulation of a control rod ejection accident in a VVER-1000/V446 using RELAP5/Mod3.2. Ann. Nucl. Energy, 45, 106-114.[WoS]
  • 9. Ku, C. L., Li, T. H. S., & Guo, N. R. (2005). Design of a novel fuzzy sliding-mode control for magnetic ball levitation system. J. Intell. Robot. Syst., 42(3), 295-316.[Crossref]
  • 10. Maghsoudlou, A., Barzamini, R., & Farhani, K. D. (2011). Non-linear control based on feedback linearization for double-electromagnet suspension system. Electron. Electr. Eng., 108(2), 85-90.
  • 11. Ogata, K. (2010). Modern control engineering (5th ed.). Boston: Prentice-Hall.
Typ dokumentu
Bibliografia
Identyfikatory
Identyfikator YADDA
bwmeta1.element.-psjd-doi-10_2478_nuka-2014-0008
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