Litcius/Paper detail

Low-Noise pavement technologies and evaluation techniques: a literature review

Peter Mikhailenko, Zhengyin Piao, Muhammad Rafiq Kakar, Moisés Bueno, Sahand Athari, Reto Pieren, Kurt Heutschi, Lily D. Poulikakos

2020International Journal of Pavement Engineering112 citationsDOIOpen Access PDF

Abstract

Traffic noise is the perpetual form of environmental pollution adversely affecting human health in urban environments. This literature review, intended for pavement researchers and professionals, looks at the continuously evolving low-noise asphalt pavement technologies and the techniques which can be used to evaluate them. Test methods for determining the acoustical properties of asphalt pavements are reviewed, in both the laboratory and field environments. The Close-Proximity (CPX) method is the most commonly used field test for pavement acoustics, followed by the Statistical Pass-By (SPB) and On-Board Sound Intensity (OBSI) methods. SPB seems is the most comprehensive methods, while the CPX is more practical. Methods for measuring the acoustical properties in the laboratory include the impedance tube for sound absorption and laboratory pavement noise simulators; with only the larger drum methods being able to produce conditions similar to in-situ. Methods for noise-relevant non-acoustical characteristics like surface texture, porosity and airflow resistivity were also reviewed. Optimizing surface texture at the macro-scale was found to be important in reducing tire/road noise. For pavement types, porous asphalt concrete (PAC) and its variants result in low-noise properties the most reliably, while having some drawbacks in durability and maintenance. Finally, various acoustical performance prediction models were discussed.

Topics & Concepts

Noise (video)AsphaltAcousticsNoise pollutionTraffic noiseDurabilityEngineeringNoise controlEnvironmental scienceComputer scienceCivil engineeringNoise reductionMaterials scienceDatabaseComposite materialImage (mathematics)Artificial intelligencePhysicsAcoustic Wave Phenomena ResearchAsphalt Pavement Performance EvaluationNoise Effects and Management