Nurul Amira Abd Jalil scite author profile

Daud

2013

AMM

Acoustic quality is important in ensuring a healthy and workable working environment. One of green buildings main objective is to reduce the building impact on human health and performance. This was emphasized in most green building rating system under its requirement for Indoor Environmental Quality (IEQ). IEQ highlights the four main points for achieving an improved indoor environment: indoor air quality, acoustics, visual comfort (lighting) and thermal comfort. Although acoustics was mentioned in the IEQ criteria, according to previous surveys and studies; acoustics quality in green buildings were not improving. It seems as though in order to improve on other green building criteria, acoustics performance is bound to become poorer. Through review of previous literature, survey and studies on acoustical performance in green buildings, the objective of this paper is to identify how green building design strategies contribute to the degradation of acoustical environment in green office buildings. Findings shows that design strategies implemented to cater for other green building requirements such as natural ventilation, daylight, reduction of finishes and office layout have unintentionally decrease the acoustical quality.

Assessment on acoustical performance of green office buildings in Malaysia

Indoor and Built Environment

Keumala

2014

Green building rating system outlines many requirements to be considered in order for a building to be certified as one. However, the rating tools failed at truly addressing the acoustical aspect which in turn deteriorates the acoustical quality in green buildings. As preliminary stage of this study, the objective is to assess the acoustical performance of three green office buildings in Malaysia in comparison to selected standard acceptability criteria. Four spaces containing meeting rooms and open-plan offices were selected from each green building as subjects. Assessments were limited to selected acoustical parameters of background noise level, noise criteria, reverberation time and speech transmission index. The background noise levels were found to be within acceptable criteria range despite some meeting rooms that exceeded the maximum recommended level. However, noise criteria ratings found most of the spaces to be below the acceptable noise criteria. Reverberation times data varied from satisfactory 0.7 s to unacceptable 1.5 s. Nonetheless, the background noise, noise criteria and reverberation time data collected were found to be unbiased by the volume of the space. Speech transmission indexes were found to be ample within good and fair speech intelligibility range while still maintaining its normal tendency of decreasing with distance.

Effect of model simplification through manual reduction in number of surfaces on room acoustics simulation

Keumala

et al. 2019

JDBE

Model simplification is an important step in room modelling for acoustics simulation. Various simplification algorithms were previously suggested. However, they are highly demanding methods, which are more suitable for large complicated spaces. As this paper focused on small size open-plan office (OPO) spaces, basic modelling and manual simplification processes were used. The aim is to find the optimum level of model simplification through a manual reduction in number of surfaces. Parallel to this aim, the objective is to examine the effects of the change in model detail level on selected acoustical parameters in six OPOs. Construction of models started with the most detailed model. Simplified models were developed by gradually reducing the number of surfaces. Simulation on RT, STI and decay in SPL were done and compared to the measured data. The study found that models with up to 80% reduction in number of surfaces can still produce plausible simulation results.

Investigation of the Effectiveness of the Chancel Availability and Geometry of Four Traditional Churches in Malaysia: Simulation Experiment

et al. 2023

Two significant spaces define the soundscape of worship in a church: chancel and nave. The chancel is a space with the primary function of a sound source, where the preachers and choir are often seated during church services. Church design and layout have changed throughout history based on the functional needs of its target congregation. Some modern churches have omitted the chancel to fit contemporary design aesthetics. The main aim of this study is to investigate the relationship between the chancel and the acoustics performance of a church. Four churches with varying geometries of circular, polygonal, and rectangular chancels were selected for this study. Two simulations of varying chancel characteristics of chancel availability and chancel geometry were conducted. The recorded speech intelligibility index (STI) and reverberation time (RT) results indicate that chancel availability and geometry significantly affect churches’ acoustic performance. The simulation of the chancel availability mainly affected speech intelligibility, where the models with chancels recorded a higher STI than the models without chancels. In terms of chancel geometry, the results of the STI of the circular chancels were more encouraging than the polygonal and rectangular chancels.

Assessing the soundscape of heritage streets in Melaka: the ISO/TS 12913-2:2018 method of data collection

Samadi

IOP Conf. Ser.: Earth Environ. Sci.

et al. 2023

The value of heritage sites is often distinguished through their architectural and physical features. However, the characteristic of a place is forged through the combination of multiple sensory elements. Acoustic is an essential element in the study of heritage spaces related to music, performance, congregations, etc. However, in the study of heritage sites, the acoustic elements are often overlooked even though they are an important element that adds spirit to the place. How people perceive their environment aurally is just as important as how they perceive it visually. This paper discusses the application of soundscape assessment methods recommended in ISO/TS 12913-2:2018. The technical specification presented comprehensive guidelines and alternatives on how a soundscape assessment should be conducted. The field study method and all its data collection protocols are reviewed and explored for implementation in the study of heritage streets in Melaka World Heritage Site. Characterising the soundscape profile of Melaka heritage streets will assist in understanding another facet of user experience and the acoustic ecology of the site.