설비공학논문집 (Korean Journal of Air-Conditioning and Refrigeration Engineering)

  • 제25권1호
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  • Pages.43-48
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  • 2013
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  • 1229-6422(pISSN)
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  • 2465-7611(eISSN)
대한설비공학회 (The Society of Air-Conditioning and Refrigerating Engineers of Korea)
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피치각과 날개 길이에 따른 축류팬의 성능

Effect of Pitch Angle and Blade Length on an Axial Flow Fan Performance

  • 전성택 (인천대학교 기계시스템공학부) ;
  • 조진표 (인천대학교 기계.전자 RIC)
  • Jeon, Sung-Taek (Devision of Mechanical system Engineering, Incheon University) ;
  • Cho, Jin-Pyo (Mechanic.Electron Regional Innovation Center, Incheon University)
  • 투고 : 2012.01.30
  • 발행 : 2013.01.10
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초록

In this study, the performance of an impeller according to blade length and pitch angle was studied experimentally by building a variable pitch impeller while changing blade length to review the effect of blade length and pitch angle on a fan's performance. The pitch angle was changed in six steps from $20^{\circ}{\sim}45^{\circ}$ at intervals of $5^{\circ}$ while the blade lengths were changed to 90 mm, 100 mm, 110 mm and 120 mm with an identical airfoil shape while carrying out the experiment. The results are summarized as follows: The air flow per static pressure of axial fans increased linearly with increase of pitch angle, but the high static pressure showed a decrease at a pitch angle of $35^{\circ}$. The shaft power increased proportionally to the pitch angle at all blade lengths; the larger the pitch angle, the larger the measured increase of shaft power. This is because the drag at the fan's front increases with the pitch angle. In the axial fans considered in this research, the flow and increase of static pressure amount increased up to a pitch angle of $30^{\circ}$ but decreased rapidly above $35^{\circ}$.

키워드

참고문헌

  1. Hirsch, C. H. and Kool, P., 1976, Measurement of the three dimensional flow field behind an axial compressor Stage, ASME Paper No. 76-GT-18.
  2. Inoue, M. and Kuroumaru, M., 1984, Threedimensional structure and decay of vortices behind an axial flow rotating blade row, Trans. ASME, Journal of Engineering for Gas Turbines and Power, Vol. 106, No. 3.
  3. Poensgen, C. A. and Gallus, H. E., 1994, Rotating stall in a single stage axial flow compressor, ASME Paper No. 94-GT-210.
  4. Camp, T. R. and Day, I. J., 1998, A study of spike and model stall phenomena in a lowspeed axial compressor, Journal of Turbomachinery, Vol. 120.
  5. Kim, C. J., Jang, C. M., Choi, M. Y., and Lee, D. I., 1996, Effects of pitch angle and maximum camber on an axial flow fan performance, Proceedings of the SAREK 1996 Winter Annual Conference, pp. 269-274.
  6. Kim, C. S., Shin, Y. H., Kim, K. H., and Chung, J. T., 1999, Experimental study on effects of stagger angle on performance and flow characteristics of axial fan, Proceedings of the SAREK 1999 Summer Annual Conference, pp. 453-457.
  7. Kang, S. Y., Lee, T. G., Ryu, I. K., and Lee, J. H., 2005, Performance of an axial turbo fan by the revision of impeller pitch angle, Korean Journal of SAREK, Vol. IS No. 3, pp. 268-276.
  8. Chang, T. S., Hur, J. H., Moon, S. J., Lee, J. H., You, H. S., and Im, Y. C., 2008, An experimental study on selection pitch angle on backward flow of an axial fan with adjustable pitch angle blades, Proceedings of the SAREK 2008 Winter Annual Conference, pp. 145-150.
  9. Kim, H. Y., Hur, J. H., Moon, S. J., Lee, J. H., You, H. S., and Im, Y. C., 2009, A study on the fan efficiency decrease on the backward flow in an axial fan, Proceedings of the SAREK 2009 Summer Annual Conference, pp. 386-391.
  10. Koo, J. I., 2001, Study on performance prediction of industrial axial flow fan with adjustable pitch blades, Proceedings of the KFMA (Korea Fluid Machinery Association), Annual Conference, pp. 30-34.
  11. Korea Standards Association, Testing methods for industrial fans, KS B 6311, 2011.
  12. ANSI/ASHRAE Standard 37, 2005, Standard measurement guide, engineering analysis of experimental data, ASHRAE.

피인용 문헌

  1. Study on the Performance Improvement of Ventilation Fan Installed in Walls of Underground Parking Lots vol.26, pp.5, 2014, https://doi.org/10.6110/KJACR.2014.26.5.206