Journal of the Korean Society of Safety (한국안전학회지)

The Korean Society of Safety (한국안전학회)
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A Method on Estimation of Avoiding Open Range on Shell-type Roller Gate

쉘타입 로울러 게이트의 회피개도량 산정 방법

  • Received : 2016.12.22
  • Accepted : 2017.04.18
  • Published : 2017.04.30
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Abstract

When the shell-type roller gate is partly open, at a certain height the large vibration is caused due to resonance and the vibration can cause damage to the gate. In this study, the review on amplitude of vibration and the possible resonance occurring at the time of opening or closing of gate is performed. Throughout the natural frequency analysis, the installation location of the measuring instrument was selected. On opening or closing of gate, the measurement of gate vibration is performed. The natural frequencies according to the opening range of the gate is analyzed. As a result of measurement and analysis, we proposed ranges in which vibration occurs largely and resonance is predicted as an avoiding open ranges, or the safe opening or closing of the shell-type roller gate. The application of this paper's avoiding open range estimation method of shell-type roller gate can be utilized as the basic data for the systematic and rational maintenance management of dams and submerged weirs in the future, and it is expected that this study can bring forth.

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References

  1. Thang, N. D. and Naudascher, E. (1986a) Vortex-excited Vibrations of Underflow Gates. Journal of Hydraulic Research, Vo1. 24, No. 2, pp. 133-151. https://doi.org/10.1080/00221688609499327
  2. H. M. Westergaard, "Water Pressure on Dams During Earthquake", ASCET, No.1835, pp418-433, 1931.
  3. J, J. Bae, "Development of Added Mass Calculation Methodology for The Dynamic Analysis of Dam Gate During Earthquake", pp. 98-99, 2009.
  4. H. S. Kim, J. J. Bae, Y. G. Kim and J. H. Lee, "An Aded-mass Modification Method using Experimental and Numerical Frequency Analysis for Floodgate Subjected to Hydro-dynamic Loading", Journal of Korea Society of Civil Engineers, pp.607-616, 2009.
  5. S. H. Lee, and K. S. Jung, "Model Tests Study on Self-Excited Vibration of Tainter Gate", Journal of korea society of civil engineers, pp. 187-194, 1996.
  6. S. H. Lee, H. J. Kim, Y. J. Park, H. G. Ham, and B. S. Kong, "Model Tests Study on Flow-induced Vibration of Truss Type Lift Gate" Journal of Korea Society of Agricultural Engineers, pp.35-41, 2011.
  7. H. T. Lim, "A Study on Safety Assessment og Shell-type Roller Gate", DongYang University, 2013.
  8. Paulo. C. F. Eridti, "Design of Hydraulic Gates", Taylor & Francis, 2007.
  9. D. Husain, Abel-Aim M. Negm, and A. A. Alhamid, "Criteria for Dynamic Flow Behavior below the Vibrating Sluice Gates", JKAU:Eng.Sci., Vol. 10, No 2, pp. 79-91, 1998.