Contextual Design of Road Traffic Noise Reducing Devices

IF 1.1 Q3 ENGINEERING, CIVIL

Civil and Environmental Engineering Pub Date : 2022-11-07 DOI:10.2478/cee-2022-0049

M. Trojanová, Katarína Hodásová, Monika Kleštincová

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引用次数: 2

Abstract

Abstract The authors present the first ideas of contextual design (CD) of noise barriers (NB), which integrates acoustic, architectural, environmental, and economic aspects of a holistic approach to the design of these engineering structures. The paper presents an example of an economic subsystem of CD focused on the economical optimization of NBs with an emphasis on the circular economy. It also demonstrates the significant potential of NBs to improve the architectural visual appearance of built-up areas as essential spatial elements and improve the microclimate of their surroundings. The authors focused on comparing the costs of construction of NB with acoustic elements made of the most used materials in the Slovak Republic: aluminium, chipped cement, transparent NB, and NB made of recycled plastic. The comparisons show that the most cost-effective option is a noise barrier made of recycled plastic. Despite the higher cost, its higher sound absorption and the environmental durability of the acoustic elements are decisive. The use of secondary raw materials is also a significant advantage of CD. Waste plastics, mainly from municipal waste, are used for production, making it possible to recycle 100 % of them again.

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道路交通降噪装置的环境设计

摘要：作者提出了隔音屏障（NB）的上下文设计（CD）的第一个想法，它将声学、建筑、环境和经济方面结合起来，对这些工程结构的设计采用整体方法。本文给出了CD的一个经济子系统的例子，该子系统侧重于非银行的经济优化，重点是循环经济。它还证明了NB在改善建成区建筑视觉外观方面的巨大潜力，将其作为重要的空间元素，并改善其周围的小气候。作者重点比较了NB与斯洛伐克共和国最常用材料制成的声学元件的建造成本：铝、碎裂水泥、透明NB和回收塑料制成的NB。比较表明，最具成本效益的选择是用回收塑料制成的隔音屏障。尽管成本较高，但其较高的吸声性和声学元件的环境耐久性是决定性的。二次原料的使用也是CD的一个显著优势。主要来自城市垃圾的废塑料被用于生产，使其有可能再次100%回收。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Civil and Environmental Engineering ENGINEERING, CIVIL-

CiteScore

2.00

自引率

58.30%

发文量