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Recent research into emissions of (semi-)volatile organic compounds [(S)VOC] from solid materials has focused on the development of suitable reference materials for quality assurance/quality control of emission test chamber measurements, which fulfill requirements such as homogenous and reproducible (S)VOC release. The approach of this study was to find a method for preparation of a material with predictable (S)VOC emission rates. AVOC (styrene) and an SVOC (2,6-diisopropylnaphthalene, DIPN), loaded into either vacuum grease or a 1:1 mixture of paraffin/squalane, have been tested. For the prediction of the emission rates, a model using the finite element method (FEM) was created to simulate the (S)VOC emission profiles. Theoretical and experimental results obtained in a Micro-Chamber/Thermal Extractor (μ-CTE™) and in 24 L emission test chamber measurements were in good agreement. Further properties were investigated concerning the material applicability, such as shelf life and inter-laboratory comparability. The maximum relative standard deviation in the inter-laboratory study was found to be 20%.
Volatile Organic Compounds (VOC) are ubiquitous in the indoor air since they are emitted from materials used indoors. Investigations of these materials are mostly carried out in emission test chambers under controlled climatic conditions. Reference materials are an important tool for quality assurance/Quality control of emission test chamber measurements but so far they are not commercially available. In this study, a new approach was tested to develop an appropriate reference material with homogenous and reproducible emission of the VOC with well measurable air concentrations in emission test Chambers larger than 20 L at air change rates of 0.5 - 1 /h.
Thermoplastic Polyurethane (TPU) was selected as Matrix material which was impregnated with 2,2,4- trimethyl-1,3-pentanediol monoisobutyrate (texanol) as test VOC using compressed carbon dioxide. An optimization of the impregnation parameters such as temperature, pressure, time, VOC injection volume and TPU sample size was performed until the targeted area specific Emission rate (SERa) value was reached. Further aspects like process control, storage effects and correlation of the sample size to the emission rate were investigated. It was found that the SERa immediately after sample preparation were not reproducible between the batches but became unified 10 days after loading into the test chamber indicating the necessity of aging before use. SERa between 13,000 and 18,000 mg m-2 h-1 were obtained, and the impregnated materials could be well stored in aluminum-coated polyethylene foil for at least seven weeks without significant losses. Furthermore, the impregnation of styrene and the SVOC 2,6-diisopropylnaphthalene was tested.
Vor dem Hintergrund der notwendigen Revision der Kriterien zur Vergabe des Gütezeichens "Blauer Engel" für Laserdrucker, Kopierer und Multifunktionsgeräte mussten auch die Prüfmethoden angepasst werden, da die alten Verfahren nicht mehr die heutigen Anforderungen der Emissionsmessung erfüllen. In diesem Zusammenhang wurde auch das unterschiedliche Emissionsverhalten von Hardcopy-Geräten auf Grund der verschiedenen und nicht miteinander vergleichbaren Prüfverfahren heftig diskutiert. Aus diesen Gründen wurde ein neues Prüfverfahren entwickelt, mit dem eine verlässliche und reproduzierbare Prüfung der Emissionsraten von Staub, Ozon und flüchtiger organischer Verbindungen auf der Basis des ECMA (European Computer Manufacturer Association) Standards 328 möglich ist. Dazu wurden neun verschiedene Geräte unter verschiedenen Bedingungen untersucht. Als ein Ergebnis dieser Studie wurden neue Kriterien zur Vergabe des "Blauen Engels" für Kopierer, Drucker und Multifunktionsgeräte festgelegt.