The KSFM Journal of Fluid Machinery (한국유체기계학회 논문집)

Korean Society for Fluid machinery (한국유체기계학회)
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Design of Magnetic Bearings for 200 HP Class Turbo Blower

200 마력급 터보 블로워 적용을 위한 자기베어링 설계

  • 박철훈 (한국기계연구원 첨단생산장비연구본부) ;
  • 윤태광 (한국기계연구원 첨단생산장비연구본부) ;
  • 박준영 (한국기계연구원 극한기계연구본부)
  • Received : 2015.04.13
  • Accepted : 2015.10.29
  • Published : 2015.12.01
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Abstract

Recently, the development trend of turbomachinery is high capacity and high efficiency. Most of turbomachinery in the market are adopting ball bearings or air foil bearings. However, ball bearings have a limit for high speed product over $2.0{\times}10^6DN$(product of the inner diameter of the bearing in mm (D) and the maximum speed in rpm (N)). Air foil bearings have a limit for high axial load for high power products over 200~300 HP(horse power). Magnetic bearing is one of the solutions to overcome the limits of high speed and high axial load. Because magnetic bearings have no friction between the rotor and the bearings, they can reduce the load of the motor and make it possible to increase the rotating speed up to $5.0{\times}10^6DN$. Moreover, they can have high axial load capacity, because the axial load capacity of magnetic bearing depends on the capacity of the designed electromagnet. In this study, the radial and thrust magnetic bearings are designed to be applied to the 200 HP class turbo blower, and their performance was evaluated by the experiment. Based on the tests up to 26,400 rpm and 21,000 rpm under the no-load and load condition, respectively, it was verified that the magnetic bearings are stably support the rotor of the turbo blower.

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References

  1. 박준택, 2008, "하수처리시설에서의 에너지저감기술," 설비저널, 37권, 8호, pp. 70-76.
  2. Yang, S. H., Kim, K. Y., and Jang, C. M., 2009, "Study on the Operation Characteristics of Turbo Blower used in a Refuse Collection System", In the KFMA Annual Meeting, Jeju, Korea, pp. 149-154.
  3. Lee, Y. B., Lee, H. S., and Chung, J. T., 2008, "An Experimental Study on the Durability Test for PEM Fuel Cell Turbo-blower", Transactions of KSAE, Vol. 16, No. 5, pp. 37-43.
  4. 김경수, 윤주식, 박기철, 김승우, 2008, "300 마력 Oil-Free 고속 터보 블로워 개발," 유체기계저널, 11권, 2호, pp. 89-94.
  5. www.absgroup.com
  6. www.mecos.com
  7. www.vyconenergy.com
  8. Park, C. H., Choi, S. K., and Ham, S. Y., 2014, "Design of magnetic bearing for turbo refrigerant compressors", Mechanics & Industry, Vol. 15, No. 4, pp. 245-252. https://doi.org/10.1051/meca/2014032
  9. Park, C. H., Kim, S. H., and Kim, K. S., 2013, "Vacuum chamber-free centrifuge with magnetic bearings", Review of Scientific Instruments, Vol. 84, No. 9, 095106. https://doi.org/10.1063/1.4820242
  10. Park. C. H., Choi, S. K., Ahn, J. H., Ham, S. Y., and Kim, S. H., 2013, "Thrust Hybrid Magnetic Bearing using Axially Magnetized Ring Magnet", Journal of Magnetics, Vol. 18, No. 3, pp. 302-307. https://doi.org/10.4283/JMAG.2013.18.3.302
  11. Park. C. H., Choi, S. K, Son, Y. S., and Han, Y. H., 2009, "Development of 5kWh flywheel energy storage system using MATLAB/xPC Target", In Computer Science and Information Engineering, 2009 WRI World Congress on. IEEE, 2009. pp. 701-705.

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