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The emission levels of high boiling brominated (BFR) and phosphoric (POC) flame retardants (FR) in different materials were examined. For the determination of the emission rate the tests were done in different emission test chambers and cells under standard conditions (23 C, 50% RH and fixed area specific air flow rates). Selected products, e.g. printed circuit boards, were investigated at elevated temperature (e.g. 60 C) to simulate working conditions. Applied analytical techniques for the air samples adsorbed on polyurethane foam (PUF) are soxhlet and ultrasonic extraction. Different conditions were used to analyse the FR via GC-MS. Based on the first results it could be demonstrated that the emission depends on material density and surface condition. The concentrations over time obtained for tris(3-chloropropyl)-phosphate, e.g., from emission test chamber and cell show a good correlation, partly the measured concentration are different. Sampling at elevated temperature gives higher concentrations.
The present study comprises the characterisation of museum show cases concerning their hazardous potential for
art objects. In order to estimate potential risks of damage the emission of volatile organic compounds coming from
several construction materials is monitored and different air exchange rates from exhibit cases are determined. For
the determination of the VOCs different methods were applied. The first step is a direct thermal extraction of the
materials followed by emission test chamber measurements. The tracer gas method with N2O that is used in this study is a convenient procedure to investigate air exchange rates under working conditions greater than 0.05 d-1. The results of this study confirm the importance of the careful choice concerning building materials for show cases. Furthermore the analyses clarify that certain organic compounds might be a problem for the exhibits in show cases with low air exchange rates.
The emissions of selected flame retardants were measured in 1- and 0.02-m3 emission test chambers and 0.001-m3 emission test cells. Four product groups were of interest: insulating materials, assembly foam, upholstery/mattresses, and electronics equipment. The experiments were performed under constant environmental conditions (23°C, 50% RH) using a fixed sample surface area and controlled air flow rates. Tris (2-chloro-isopropyl)phosphate (TCPP) was observed to be one of the most commonly emitted organophosphate flame retardants in polyurethane foam applications. Depending on the sample type, area-specific emission rates (SERa) of TCPP varied between 20 ng m-2 h-1 and 140 ?g m-2 h-1.
The emissions from electronic devices were measured at 60°C to simulate operating conditions. Under these conditions, unit specific emission rates (SERu) of organophosphates were determined to be 1085 ng unit-1 h-1. Increasing the temperature increased the emission of several flame retardants by up to a factor of 500. The results presented in this paper indicate that emissions of several brominated and organophosphate flame retardants are measurable. Polybrominated diphenylethers exhibited an SERa of between 0.2 and 6.6 ng m-2 h-1 and an SERu of between 0.6 and 14.2 ng unit-1 h-1. Because of sink effects, i.e., sorption to chamber components, the emission test chambers and cells used in this study have limited utility for substances low vapour pressures, especially the highly brominated compounds; hexabromocyclododecane had an SERa of between 0.1 and 29 ng m-2 h-1 and decabromodiphenylether was not detectable at all.
Various insulating boards, assembly foams, PC-systems, upholstery and a mattress were examined for possible
emissions of polybrominated and organophosphorus flame retardants. 0.02 m3- and 1m3- emission test chambers and
1Llitre cells were used to perform the investigations. The substances of interest are mainly classified as SVOC. A
sampling technique using polyurethane foam plugs and special analytical methods was developed. The PUF-plugs were
extracted by ultrasonic and soxhlet extraction and the extracts were concentrated. The analyses were performed by
GC/MS and HPLC/DAD. Chamber measurements were generally taken over 28 days, but in the case of SVOC, a test
period of a minimum of 100 days was necessary to achieve equilibrium. The determination of most of OPCs was
successful using emission test chambers. Due to sink effects the determination of low volatile OPC such as RDP and
BDP needs to be improved. Brominated flame retardants are quantifiable up to hexabrominated compounds using
emission test chambers as a reference method. The emission of lower volatile compounds, e.g. HBCD, was strongly
affected by sink effects. Emission of decaBDE was not quantifiable at all. Based on the results presented further
investigations are required for an adequate risk assessment of flame retarded products and their contribution to the
contamination of the indoor air environment. TCPP was found to be one of the most commonly used organophosphorus
flame retardants in polyurethane foam applications. Depending on the sample type 0.012 to 140 µg m-2 h-1 was obtained
for area-specific emission rates (SERa) for TCPP. PBDEs, for example, exhibited product-specific emission rates (SERu)
between 0.1 and 14.2 ng unit-1 h-1 and SERa between 0.2 and 6.6 ng m-2 h-1. More data about the emission behaviour of FR are required with special regard to substance migration, aging and long-term emission in particular.