한국도로학회논문집 (International Journal of Highway Engineering)

  • 제18권6호
  • /
  • Pages.161-171
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  • 2016
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  • 1738-7159(pISSN)
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  • 2287-3678(eISSN)
한국도로학회 (Korean Society of Road Engineers)
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주행속도를 고려한 고속도로 나들목 연결로의 편경사 상향조정에 관한 연구

Increasing Superelevation on Freeway Interchange Ramp based on Running Speed

  • 노정훈 (서울시립대학교 교통공학과) ;
  • 김홍배 (한국도로공사 기술심사처) ;
  • 서무인 (한국도로공사 기술심사처) ;
  • 이길재 (한국도로공사 기술심사처)
  • 투고 : 2016.09.21
  • 심사 : 2016.11.24
  • 발행 : 2016.12.15
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초록

OBJECTIVES : Many roadway departure crashes on the freeway interchange are due to the running speed being greater than the design speed. This study aims to ensure a safe and pleasant driving experience for the driver by increasing the superelevation based on the running speed on the highway interchange ramp. METHODS : The mean running speed for each type of ramp is calculated on site survey more than 10 interchanges. Using the mean running speed, we calculated the superelevation and the side friction using the method given in "A Policy on Geometric Design of Highways and Street" (Pages 145-166, 2001). Then, we applied the modified method to the superelevation range. Finally, we ensured safety using the Degree of Safety that is proven by the centrifugal acceleration ratio as suggested by Joseph Craus (1978). RESULTS : The mean running speeds are 50 km/h and 65 km/h when the design speeds are 40 km/h and 50 km/h, respectively. After the application of the new method used in this study, the superelevation will be increased by 9.0% and 10.0% when the mean running speeds are 50 km/h and 65 km/h, respectively. CONCLUSIONS : A higher superelevation can give the driver a more comfortable and safe driving environment. However, the driver needs to be aware of snow and low-temperature conditions.

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참고문헌

  1. AASHTO(2001), A Policy on Geometric Design of Highways and Street Forth Edition, 146, 151-154.
  2. Choi J. S., Kim S. Y., Lee J. H., Hwang K. S. (2008), Development of a Vehicle Operating Speed Model and its Application for Designing Consistent Horizontal Alignment, Journal of the Korean Society of Road Engineers 10(2), 57-67.
  3. Choi S. K., Lee S. G., Lee J. K. (2006), Determination of Proper Design Speed at Inter-Change Ramp in the Highway, The Journal of the Korean Society of Surveying, Geodesy, Photogrammetry and Cartography 24(5), 425-431.
  4. Jeong S. W., Choi J. S., Kim S. Y. (2011), A Study for New Distribution Methods Between Superelevation and Side friction factor, Journal of the Korean Society of Road Engineers, 433-436.
  5. Jeong S. W., Kim S. Y., Choi J. S., Kim H. G., Jang T. Y. (2013), A Study for Distribution Methods Between Superelevation and Side Friction Factor Reflecting Ergonomic Characteristics by Increasing Design Speed, Journal of the Korean Society of Road Engineers, 15(3), 105-115.
  6. Joseph Craus, Moshe Livneh (1978), Superelevation and Curvature of Horizontal Curves, Transportation Research Record
  7. Kim D. N., Jang M. K. (2004), The Operating Speed Analysis and Modeling at the Entrance Terminal of Ramps, JOURNAL OF THE KOREAN SOCIETY OF CIVIL ENGINEERS D 24(1D), 51-58.
  8. Kim Y. S., Cho W. B., Jeong S. Y. (2005), A Survey on the Drivers' Speed Behaviour on the Combined Alignments for the Road Design Consistency, JOURNAL OF THE KOREAN SOCIETY OF CIVIL ENGINEERS, 4713-4716.
  9. Ok J. K., Kim K. S., Sohn J. H., Yoo W. S., Kim Y. S. (2006), Evaluation of Running Stability of Vehicle According to Superelevation and friction Coefficient, Journal of the Korean Society of Road Engineers, 8, 275-282.