Association between the emission rate and temperature for chemical pollutants in building materials: general correlation and understanding.

The emission rate is considered to be a good indicator of the emission characteristics of formaldehyde and volatile organic compounds (VOCs) from building materials. In contrast to the traditional approach that focused on an experimental study, this paper uses a theoretical approach to derive a new correlation to characterize the relationship between the emission rate and temperature for formaldehyde emission. This correlation shows that the logarithm of the emission rate by a power of 0.25 of the temperature is linearly related to the reciprocal of the temperature. Experimental data from the literature were used to validate the derived correlation. The good agreement between the correlation and experimental results demonstrates its reliability and effectiveness. Using the derived correlation, the emission rate at temperatures other than the test condition can be obtained, greatly facilitating engineering applications. Further analysis indicates that the temperature-related emission rate of other scenarios, i.e., the standard emission reference and semi-volatile organic compounds (SVOCs), also conforms to the same correlation as that of formaldehyde. The molecular dynamics theory is introduced to preliminarily understand this phenomenon. Our new correlation should prove useful for estimating the emission characteristics of chemicals from materials that are subject to changes in temperature.

[1]  Per Axel Clausen,et al.  Influence of temperature on the emission of di-(2-ethylhexyl)phthalate (DEHP) from PVC flooring in the emission cell FLEC. , 2012, Environmental science & technology.

[2]  Yinping Zhang,et al.  A standard reference for chamber testing of material VOC emissions: Design principle and performance , 2012 .

[3]  Ying Xu,et al.  Characteristics and correlations of VOC emissions from building materials , 2003 .

[4]  F. Allard,et al.  A Study on the Similarities between Water Vapor and VOC Diffusion in Porous Media by a Dual Chamber Method , 2009 .

[5]  F. Haghighat,et al.  Volatile organic compound (VOC) adsorption on material: influence of gas phase concentration, relative humidity and VOC type. , 2006, Indoor air.

[6]  F. Haghighat,et al.  An Experimental Study for Examining the Effects of Environmental Conditions on Diffusion Coefficient of VOCs in Building Materials , 2009 .

[7]  Chang Nyung Kim,et al.  An analytical model for VOCs emission from dry building materials , 2004 .

[8]  W. F. Reehl,et al.  Handbook of Chemical Property Estimation Methods: Environmental Behavior of Organic Compounds , 1982 .

[9]  Qinqin Deng,et al.  Study on a new correlation between diffusion coefficient and temperature in porous building materials , 2009 .

[10]  M. Ekelund,et al.  Evaporative loss kinetics of di(2-ethylhexyl)phthalate (DEHP) from pristine DEHP and plasticized PVC , 2010 .

[11]  Chi-Chi Lin,et al.  Evaluation of impact factors on VOC emissions and concentrations from wooden flooring based on chamber tests , 2009 .

[12]  Andrew K. Persily,et al.  VOC emissions from a LIFE reference: Small chamber tests and factorial studies , 2012 .

[13]  R M Harrison,et al.  Concentrations and sources of VOCs in urban domestic and public microenvironments. , 2001, Environmental science & technology.

[14]  Thad Godish,et al.  Indoor Environmental Quality , 2000 .

[15]  Henrik Nellemose Knudsen,et al.  Diffusion and Sorption of Volatile Organic Compounds in Building Materials−Impact on Indoor Air Quality , 2000 .

[16]  Jianshun Zhang,et al.  An experimental study of relative humidity effect on VOCs effective diffusion coefficient and parti , 2011 .

[17]  Zhishi Guo,et al.  Review of indoor emission source models. Part 1. Overview. , 2002, Environmental pollution.

[18]  John C. Little,et al.  The influence of humidity on the emission of di-(2-ethylhexyl) phthalate (DEHP) from vinyl flooring in the emission cell "FLEC" , 2007 .

[19]  C. Lungu,et al.  Influence of temperature on styrene emission from a vinyl ester resin thermoset composite material. , 2011, The Science of the total environment.

[20]  Ying Xu,et al.  An improved mass transfer based model for analyzing VOC emissions from building materials , 2003 .

[21]  I. Andersen,et al.  Indoor air pollution due to chipboard used as a construction material , 1975 .

[22]  G. E. Myers The effects of temperature and humidity on formaldehyde emission from UF-bonded boards : a literature critique , 1985 .

[23]  F. Haghighat,et al.  Modelling of volatile organic compounds emission from dry building materials , 2002 .

[24]  John C. Little,et al.  Dimensionless correlations to predict VOC emissions from dry building materials , 2007 .

[25]  M. Fujii,et al.  A study on emission of phthalate esters from plastic materials using a passive flux sampler , 2003 .

[26]  Yinping Zhang,et al.  A general analytical model for formaldehyde and VOC emission/sorption in single-layer building materials and its application in determining the characteristic parameters , 2012 .

[27]  John C. Little,et al.  Predicting Residential Exposure to Phthalate Plasticizer Emitted from Vinyl Flooring: Sensitivity, Uncertainty, and Implications for Biomonitoring , 2009, Environmental health perspectives.

[28]  J. Xiong,et al.  Impact of temperature on the initial emittable concentration of formaldehyde in building materials: experimental observation. , 2010, Indoor air.

[29]  J. Niu,et al.  Modeling VOCs emissions in a room with a single-zone multi-component multi-layer technique , 2004 .

[30]  Ashok J. Gadgil,et al.  Modeling Emissions of Volatile Organic Compounds from New Carpets , 1994 .

[31]  Steven S. Cox,et al.  Measuring partition and diffusion coefficients for volatile organic compounds in vinyl flooring , 2001 .

[32]  Yuan Yao,et al.  C-history method: rapid measurement of the initial emittable concentration, diffusion and partition coefficients for formaldehyde and VOCs in building materials. , 2011, Environmental science & technology.

[33]  Ying Xu,et al.  Predicting emissions of SVOCs from polymeric materials and their interaction with airborne particles. , 2006, Environmental science & technology.

[34]  Yinping Zhang,et al.  Influence of temperature on formaldehyde emission parameters of dry building materials , 2007 .

[35]  M. Apte,et al.  Effect of Temperature and Humidity on Formaldehyde Emissions in Temporary Housing Units , 2011, Journal of the Air & Waste Management Association.

[36]  Jan Null,et al.  Heat Stress From Enclosed Vehicles: Moderate Ambient Temperatures Cause Significant Temperature Rise in Enclosed Vehicles , 2004, Pediatrics.

[37]  Yinping Zhang,et al.  Variable volume loading method: a convenient and rapid method for measuring the initial emittable concentration and partition coefficient of formaldehyde and other aldehydes in building materials. , 2011, Environmental science & technology.

[38]  Peder Wolkoff,et al.  Impact of air velocity, temperature, humidity, and air on long-term voc emissions from building products , 1998 .

[39]  D.R.G. Hunt,et al.  A national field survey of house temperatures , 1982 .

[40]  P O Fanger,et al.  Impact of temperature and humidity on chemical and sensory emissions from building materials. , 1999, Indoor air.