Bibliographic citations
Gutierrez, W., Justiniano, E. (2020). Análisis y diseño de barreras acústicas con una capa de concreto estructural y otra de concreto con agregados de aserrín y viruta, en la sección vial de la Panamericana Norte, entre los km 31 y 35, distrito Puente Piedra [Tesis, Universidad Peruana de Ciencias Aplicadas (UPC)]. http://hdl.handle.net/10757/653975
Gutierrez, W., Justiniano, E. Análisis y diseño de barreras acústicas con una capa de concreto estructural y otra de concreto con agregados de aserrín y viruta, en la sección vial de la Panamericana Norte, entre los km 31 y 35, distrito Puente Piedra [Tesis]. PE: Universidad Peruana de Ciencias Aplicadas (UPC); 2020. http://hdl.handle.net/10757/653975
@misc{renati/393132,
title = "Análisis y diseño de barreras acústicas con una capa de concreto estructural y otra de concreto con agregados de aserrín y viruta, en la sección vial de la Panamericana Norte, entre los km 31 y 35, distrito Puente Piedra",
author = "Justiniano Villegas, Erick Alexander",
publisher = "Universidad Peruana de Ciencias Aplicadas (UPC)",
year = "2020"
}
The area under study, located between kilometer 31 and kilometer 35 of the Northern Pan-American Highway, has an average sound pressure of 76.48dB during daytime and 74.76dB during nighttime. Taking the Environmental Noise Quality Standards (ECA, in Spanish) into consideration, it can be determined that the noise pollution occurs in the area under study. Therefore, the people who frequent or pass by this area are prone to contract various diseases or malaise as a result, such as stress, gradual hearing loss, heart issues, among others. Given the situation, this thesis aims at controlling the noise produced by motorized vehicles by installing sound barriers on said road section of the Northern Pan-American Highway, using two types of concrete as main materials: conventional concrete and concrete with light sawdust and woodchip aggregates. The concrete with light sawdust and swarf aggregates, absorbent material of the sound barrier system, is taken to the sound laboratory to perform tests through the impedance tube method to obtain the sound pressure level. This is the average value of the maximum absorption level of the samples (α) 0.23. In conclusion, the designed sound barrier system manages to absorb up to 23% of the perceived sound pressure level. With that, the area under study falls within the Environmental Noise Quality Standards.
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