Integrating a parametric tool in design process to improve the acoustic behavior of the asphalt finishing materials

IF 1.7 Q2 ACOUSTICS Noise Mapping Pub Date : 2022-01-01 DOI:10.1515/noise-2022-0157
T. M. Kamel
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引用次数: 1

Abstract

Abstract The paper introduces a framework for comprehensive simulation workflow of the built environment using the Pachyderm Acoustics plugin inside the Grasshopper 3D interface. It aims to model the shared relationship between residential buildings and hardscape. The findings indicate different levels of absorption and scattering coefficient in reference to the hardscape specifications during the A-weighted SPL measurements and varying intensities of sound power energy source wave emissions. The author evaluated and simulated a seven-zoned district using two hardscape materials’ specifications. Results indicate that medium sound power intensity has the greatest impact on noise reduction, with a value in the range of 1.5 dB(A) to 5.9 dB(A), the lowest power is 1.3 dB(A) to 3.2 dB(A) and the highest power is 1 dB(A) to 3.5 dB(A). Additionally, the shielding effect occurring between buildings aids in noise reduction due to the multitude and long paths of sound rays that can mitigate the embodied energy.
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在设计过程中集成参数化工具以改善沥青饰面材料的声学性能
摘要本文介绍了一个在Grasshopper 3D界面中使用Pachyderm Acoustics插件的建筑环境综合模拟工作流程框架。它旨在模拟住宅建筑和硬景观之间的共享关系。研究结果表明,在A加权SPL测量期间,参考硬景观规范,吸收和散射系数的水平不同,声功率能量源波发射的强度也不同。作者使用两种硬景观材料的规格对一个七分区的区域进行了评估和模拟。结果表明,中等声功率强度对噪声降低的影响最大,其值在1.5dB(a)至5.9dB(a。此外,建筑物之间发生的屏蔽效应有助于降低噪音,因为声线的路径多且长,可以减轻所包含的能量。
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来源期刊
Noise Mapping
Noise Mapping ACOUSTICS-
CiteScore
7.80
自引率
17.90%
发文量
5
审稿时长
12 weeks
期刊介绍: Ever since its inception, Noise Mapping has been offering fast and comprehensive peer-review, while featuring prominent researchers among its Advisory Board. As a result, the journal is set to acquire a growing reputation as the main publication in the field of noise mapping, thus leading to a significant Impact Factor. The journal aims to promote and disseminate knowledge on noise mapping through the publication of high quality peer-reviewed papers focusing on the following aspects: noise mapping and noise action plans: case studies; models and algorithms for source characterization and outdoor sound propagation: proposals, applications, comparisons, round robin tests; local, national and international policies and good practices for noise mapping, planning, management and control; evaluation of noise mitigation actions; evaluation of environmental noise exposure; actions and communications to increase public awareness of environmental noise issues; outdoor soundscape studies and mapping; classification, evaluation and preservation of quiet areas.
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