Effect of Heating, Ventilation, and Air Conditioning (HVAC) System on Indoor Air Quality in a Medical Facility

Journal of Sustainable Civil Engineering and Technology Pub Date : 2023-09-30 DOI:10.24191/jscet.v2i2.80-90

F. Baharudin, Nur Fatt-Hiyyah Mohd Adlan, J. Kassim, N. Hamzah, Suriati Ghazali

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Abstract

Indoor Air Quality (IAQ) refers to the stationary air within an inhabited or occupied structure. Previously, there were fewer studies on indoor air quality in medical facilities in Malaysia especially in Terengganu. Most indoor air quality issues are caused by insufficient Heating, Ventilation, and Air Conditioning (HVAC) systems, which regulate three parameters. The purpose of this study is to assess the indoor air quality of a medical facility and determine if it complies with the Industry Code of Practice 2010 (ICOP 2010) and ASHRAE 170-2017. In this investigation, a total of 3 locations namely Administration Office, Surgical Outpatient Department (SOPD) waiting area and Ophthalmology Consultation Room in Hospital Sultanah Nur Zahirah (HSNZ) were evaluated. Walkthrough inspections were done at the locations before data collection to determine the IAQ. Two IAQ meters, notably VelociCalc and Testo, were used to collect data to assess the temperature, relative humidity, and air flow of the selected locations. Samples were taken every 2 hours for each location from 8 a.m. to 5 p.m. The data then were analysed. All three locations' temperatures were lower than ICOP 2010's acceptable limit (23-26°C), but still within ASHRAE 170-207's 21-24°C range, except for the SOPD waiting room. All three locations met ICOP 2010 and ASHRAE 170-207 relative humidity standards. Meanwhile, only the SOPD waiting room had an appropriate air flow of 0.16-0.17m/s per ICOP 2010. The study also revealed that there was a correlation between the number of occupancies and the performance of HVAC system with the indoor air quality level.

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供暖、通风和空调系统对医疗机构室内空气质量的影响

室内空气质量（IAQ）是指在有人居住或占用的建筑物内的静止空气。以前，有关马来西亚医疗设施室内空气质量的研究较少，尤其是在丁加奴。大多数室内空气质量问题都是由供暖、通风和空调系统（HVAC）不足造成的，该系统可以调节三个参数。本研究的目的是评估一家医疗机构的室内空气质量，并确定其是否符合《2010 年行业规范》（ICOP 2010）和 ASHRAE 170-2017。本次调查共评估了 3 个地点，即苏丹努尔扎希拉医院（HSNZ）的行政办公室、外科门诊部（SOPD）等候区和眼科诊室。在收集数据之前，对这些地点进行了穿行检查，以确定室内空气质量。使用 VelociCalc 和 Testo 这两种室内空气质量检测仪收集数据，以评估所选地点的温度、相对湿度和空气流量。从上午 8 点到下午 5 点，每隔 2 个小时对每个地点进行采样。所有三个地点的温度都低于 ICOP 2010 的可接受范围（23-26°C），但仍在 ASHRAE 170-207 规定的 21-24°C 范围内，SOPD 候车室除外。所有三个地点的相对湿度均符合 ICOP 2010 和 ASHRAE 170-207 标准。同时，根据 ICOP 2010 标准，只有 SOPD 候诊室的空气流量为 0.16-0.17m/s 。研究还显示，室内空气质量水平与入住人数和暖通空调系统性能之间存在相关性。

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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Journal of Sustainable Civil Engineering and Technology

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