Comprehensive influence of environmental factors on the emission rate of formaldehyde and VOCs in building materials: Correlation development and exposure assessment

• Published in: Environmental research Vol. 151; pp. 734 - 741
• Main Authors: Xiong, Jianyin, Zhang, Pianpian, Huang, Shaodan, Zhang, Yinping
• Format: Journal Article
• Language: English
• Published: Netherlands Elsevier Inc 01.11.2016
• Subjects: Air Pollution, Indoor - adverse effects; Air Pollution, Indoor - analysis; Beijing; Construction Materials; Exposure; Formaldehyde; Formaldehyde - adverse effects; Formaldehyde - analysis; Humans; Humidity; Indoor air quality; Inhalation Exposure - adverse effects; Inhalation Exposure - analysis; Models, Theoretical; Relative humidity; Seasons; Temperature; Volatile Organic Compounds - adverse effects; Volatile Organic Compounds - analysis; China, People's Rep., Beijing; Relative humidity; Temperature; Exposure; Formaldehyde; Indoor air quality
• ISSN: 0013-9351; 1096-0953
• DOI: 10.1016/j.envres.2016.09.003

Temperature and relative humidity can simultaneously change in indoor environment, which significantly affect the emission rate of formaldehyde and volatile organic compounds (VOCs) from building materials. Prior studies generally focus on the single effect of temperature or relative humidity, and the combined effect is not considered. This paper investigates the comprehensive influence of temperature and relative humidity on the emission rate of pollutants from building materials. Correlation between the emission rate and the combined environmental factors is derived theoretically. Data in literature are applied to validate the effectiveness of the correlation. With the correlation, the indoor formaldehyde concentration in summer is predicted to be 1.63 times of that in winter in Beijing, which is approximately consistent with surveyed data. In addition, a novel approach is proposed to assess the human health impact due to pollutants emitted from building materials at varied temperature and relative humidity. An association between the human carcinogenic potential (HCP) and the environmental factors is obtained. By introducing a reference room model developed previously, it is calculated that the HCP of bedroom at high relative humidity (70%, 25°C) for formaldehyde exceeds 10−4 cases, meaning high cancer health risk. This study should prove useful for evaluating the emission behaviors and the associated exposure of pollutants from building materials at varied environmental conditions. •The combined effect of T and RH on the emission rate is examined for the first time.•A novel correlation between the emission rate and T, RH is derived theoretically.•Indoor formaldehyde concentration by the correlation accords with surveyed data.•Relation between human carcinogenic potential and environmental factors is obtained.