Built environment and indoor air quality: The case of volatile organic compounds

IF 1.6 Q4 ENVIRONMENTAL SCIENCES
D. Kotzias
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引用次数: 11

Abstract

A large number of studies indicated the presence of volatile organic compounds (VOCs) of various chemical classes in indoor environments (public buildings, homes). VOCs affect the air quality indoors having an impact on human health and wellbeing. They are the result of infiltration of polluted outdoor air and emissions from various indoor sources, including building materials, consumer products (fragrances, air fresheners), activities of the occupants (cleaning) and smoking. On average, people spend a great part of their time (85 to 90%) in confined spaces (homes, office buildings and schools) exposed to a complex mixture of air contaminants at concentration levels that are often several times higher than outdoors. For many chemicals present in indoor air (and their mixtures) the risk for human health and comfort is almost unknown and difficult to predict because of the lack of toxicological data and information on the dose-response characteristics in humans or animal models. Saving of energy for homes and public buildings becomes an additional and essential criterion for the overall quality of the built environment. The need to construct airtight buildings may lead to the accumulation of air contaminants indoors and thus changing the prevailing philosophy for a healthy indoor environmental quality. The necessity emerged, in particular, for low emitting construction and building materials along with the adaptation of appropriate ventilation regimes to ensure wellbeing and comfort for building occupants. The paper provides an overview of indoor/outdoor air concentrations of volatile organic compounds in buildings. It discusses the methodological approaches and procedures applied so far to assess VOC's presence indoors and outdoors, notably benzene and formaldehyde as model compounds for indoor air quality emphasizing the needs for future research and action plans to ensure a healthy and occupant friendly indoor environment.
建筑环境与室内空气质量:以挥发性有机物为例
大量研究表明,室内环境(公共建筑、家庭)存在各种化学类别的挥发性有机化合物(VOCs)。挥发性有机化合物影响室内空气质量,对人体健康和福祉产生影响。它们是被污染的室外空气渗透和各种室内来源排放的结果,包括建筑材料、消费品(香水、空气清新剂)、居住者的活动(清洁)和吸烟。平均而言,人们的大部分时间(85%至90%)都是在密闭空间(家庭、办公楼和学校)中度过的,这些空间暴露在空气污染物的复杂混合物中,其浓度水平往往比室外高几倍。对于室内空气中存在的许多化学品(及其混合物),其对人类健康和舒适的风险几乎是未知的,而且由于缺乏关于人体或动物模型中剂量-反应特征的毒理学数据和信息,很难预测。住宅和公共建筑的能源节约成为建筑环境整体质量的一个额外的和必要的标准。建造密闭建筑的需要可能导致室内空气污染物的积累,从而改变健康室内环境质量的主流理念。特别是对于低排放建筑和建筑材料,以及适应适当的通风制度,以确保建筑居住者的健康和舒适的必要性出现了。本文概述了建筑物室内/室外空气中挥发性有机化合物的浓度。它讨论了迄今为止用于评估室内和室外VOC存在的方法方法和程序,特别是苯和甲醛作为室内空气质量的典型化合物,强调了未来研究和行动计划的必要性,以确保健康和对居住者友好的室内环境。
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
AIMS Environmental Science
AIMS Environmental Science ENVIRONMENTAL SCIENCES-
CiteScore
2.90
自引率
0.00%
发文量
31
审稿时长
5 weeks
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