Browse > Article
http://dx.doi.org/10.7855/IJHE.2012.14.3.033

Study on the Functional Evaluation of Permeable Asphalt Concrete Pavement in Seoul City  

Lee, Sang-Yum (서울시청 도시안전본부 도로관리과)
Kim, In-Tae (명지대학교 교통공학과)
Mun, Sung-Ho (서울과학기술대학교 건설공학부)
Kwon, Soo-Ahn (한국건설기술연구원 도로연구실)
Publication Information
International Journal of Highway Engineering / v.14, no.3, 2012 , pp. 33-39 More about this Journal
Abstract
The functional evaluation of constructed permeable pavements was conducted in terms of water permeable performance and noise reduction measurements in Seoul city. The field measurements of noise was based on two methods such as pass-by and novel close proximity(NCPX). The pass-by test and NCPX method are related to noise propagation and tire/pavement interaction noise measurement, respectively. For the water permeable tests, five sections were chosen; furthermore, the measurements were conducted for both of wheel path and non-wheel path area. For the pass-by measurement, three sections were chosen; furthermore, two different locations, which were near measurement point to traffic noise and far measurement point inside park or hosing complex, were selected for each section. Finally, tire/pavement interaction noise measurements were carried out at four locations. The results show that the functional performance of water permeability and noise reduction was well remained within 2 or 3 years after permeable pavement construction.
Keywords
novel close proximity; pass-by test; tire-pavement noise; water permeability; functional evaluation;
Citations & Related Records
Times Cited By KSCI : 1  (Citation Analysis)
연도 인용수 순위
1 고속도로공사 전문시방서 (2009). 고속도로 전문시방서. 한국도로공사.
2 김형석, 이현종, 이광호, 김형배 (2010). "배수성 포장용 고점도 아스팔트 바인더 개발." 한국도로학회 논문집, 제12권, 제2호, pp81-90.
3 서울시 도시안전실 (2011). 저소음 배수성 포장 유지관리 실태보고서. 서울특별시 도시안전실.
4 환경정책기본법 (2009). 환경정책기본법(소음환경기준) 제10조 제2항. 환경정책기본법.
5 Cho, D-S., and Mun, S. (2008a) "Determination of the sound power levels emitted by various vehicles using a novel testing method". Applied Acoustics, Vol. 69. pp. 185-195.   DOI   ScienceOn
6 Cho, D-S., and Mun, S. (2008b). "Study to analyze the effects of vehicles and pavement surface types on noise". Applied Acoustics, Vol. 69. pp.833-843.   DOI   ScienceOn
7 Cho, D-S., and Mun, S. (2008c). "Development of a highway traffic noise prediction model that considers various road surface types". Applied Acoustics, Vol. 69. pp. 1120-1128.   DOI   ScienceOn
8 International Organization for Standardization. (1997). ISO 11819-1:1997: Acoustics - Measurement of the Influence of Road Surfaces on Traffic Noise - part 1: Statistical Pass-by Method.
9 International Organization for Standardization. (2000). ISO 11819-2:2000: Acoustics - Measurement of the Influence of Road Surfaces on Traffic Noise - part 2: The Close Proximity Method.
10 KS F 2394 (2004). 투수성 포장체의 현장 투수 시험 방법. 한국표준협회.
11 Mun, S., Cho, D-S., and Choi, T-M. (2007). "Influence of pavement surface noise: the Korea Highway Corporation test road". Canadian Journal of Civil Engineering, Vol. 34. pp. 809-816.   DOI   ScienceOn
12 Mun, S., and Cho, D-S. (2009). "Noise measuring technique and field evaluation based on the effects of vehicles and pavement types". Canadian Journal of Civil Engineering, Vol. 36. pp. 1816-1824.   DOI   ScienceOn