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The potential release of hazardous substances from polymer-based products is currently in the focus of environmental policy. Environmental simulations are applied to expose such products to selected aging conditions and to investigate release processes. Commonly applied aging exposure types such as solar and UV radiation in combination with water contact, corrosive gases, and soil contact as well as expected general effects on polymers and additional ingredients of polymer-based products are described. The release of substances is based on mass-transfer processes to the material surfaces. Experimental approaches to investigate transport processes that are caused by water contact are presented. For tailoring the tests, relevant aging exposure types and release quantification methods must be combined appropriately. Several studies on the release of hazardous substances such as metals, polyaromatic hydrocarbons, flame retardants, antioxidants, and carbon nanotubes from polymers are summarized exemplarily. Differences between natural and artificial exposure tests are discussed and demonstrated for the release of flame retardants from several polymers and for biocides from paints. Requirements and limitations to apply results from short-term artificial environmental exposure tests to predict long-term environmental behavior of polymers are presented.
Durch eine Kombination von naturwissenschaftlichen Untersuchungsmethoden war es möglich, mit Holzschutzmittel belastete Materialien in einer zum UNESCO-Weltkulturerbe gehörenden Kirche, der Friedenskirche in Swidnica (Polen), zu identifizieren. Ein screening mit einer mobilen Röntgenfluoreszenzanalyse (RFA) lieferte erste Hinweise auf die Anwendung dieser Mittel an Holzkonstruktionen. Untersuchungen von Holzproben in einer Mikrokammer (µ-CTE) bei unterschiedlichen Temperaturen mit anschließender Gaschromatographie und massenspektrometrischer Detektion (GC/MS/MS) ermöglichten einen qualitativen und quantitativen Nachweis von Pentachlorphenol (PCP) und Lindan. Weiterhin erfolgte eine aktive Luftprobenahme auf Tenaxröhrchen mit anschließender Thermodesorption und GC/MS-Analyse. In Staubproben aus unterschiedlichen Bereichen der Kirche wurden Wirkstoffe aus Holzschutzmitteln nachgewiesen. Untersuchungen im Rasterelektronenmikroskop mit EDX lieferten Hinweise auf schadstoffbelastete Partikel im Staub.
Transformation of carbendazim, diuron, octylisothiazolinone and terbutryn was investigated in two paints containing either white titanium dioxide or a red iron oxide pigment.
Test specimens of these coatings on glass were exposed to water contact and UVA-radiation under laboratory conditions. Panels of birch plywood were coated and exposed to natural weather conditions in a field experiment. Concentrations of biocides and transformation products were analysed in leachates from laboratory tests, runoff samples and remaining coatings. Water contact, UVA radiation as well as pigments in the paints affected the pattern and amount of transformation products.
Aim. The European biocidal products regulation requires environmental risk assessments for biocidal products under service conditions. This is only possible, if processes that lead to biocide emissions into the environment are understood and can be reasonably predicted.
Actual emissions due to leaching result from different processes that are affected by material properties and environmental conditions. Transformation of biocides can affect emissions considerably.
Leaching and possible transformation of the film preservatives carbendazim, diuron, OIT and terbutryn in paints was observed under laboratory and field conditons in order to investigate the influence of different factors, e.g. water contact and radiation on biocide emissions. The paints contained either white titanium dioxide or a red iron oxide pigment to check whether pigments affect leaching processes.
Methods. Test specimens of a water-based styrene acrylic dispersion paint on glass were exposed to UVA-radiation in a UV weathering device and/or exposed to water contact by immersion events on the basis of the European standard EN 16105. Plywood panels were coated and exposed to natural weather conditions in a semi-field experiment. Concentrations of biocides and transformation products were analysed in leachates from laboratory tests, runoff samples and remaining coatings.
Results. The impact of weathering conditions on transformation processes differs for the investigated active substances. Water contact, radiation as well as pigments in the paints determine the pattern and amount of transformation products on coatings, leachates and runoff water. Observations from laboratory and field experiments were compared. It proved that results from laboratory tests support understanding of data from field experiments.
Detailed knowledge on the fate of active substances under environmental conditions supports manufacturers to develop safe applications of film preservatives and authorities to evaluate its environmental impact.
Weather conditions affect biocides on exposed outer surfaces on constructions. Contact with water causes hydrolysis and leaching of substances. Ultraviolet radiation may induce photolysis. As a result, a mixture of biocidal active substances and transformation products can be emitted into the environment. In a semi-field study, leaching of the biocidal active substances terbutryn, diuron, octylisothiazolinone, carbendazim, and selected transformation products was observed for two paints containing either a white or a red pigment. Painted test panels were exposed to natural weathering for about 1.5 years. Runoff samples were analyzed during the course of the experiment.
At the end of the study, residues of biocidal active substances and transformation products were determined in sections of the test panels. Emissions of substances were mainly observed during the first few months of the experiments. Increased emissions of transformation products were observed during periods of increased global radiation and subsequent periods with relatively high amounts of driving rain. Different patterns of transformation products were observed, especially for terbutryn, both for paints containing different pigments and in experiments that were started in different periods of the year, as well as during different periods of the experiments.
Säulenperkolationsversuche werden u.a. zur Ermittlung der Freisetzung von Schadstoffen aus Böden durchgeführt. Im Entwurf der novellierten Bundesboden-schutz- und Altlastenverordnung ist neben Schüttelverfahren (DIN 19527 und 19529) ein Säulenperkolationsverfahren (DIN 19528) zur Eluatgewinnung aus Böden festgeschrieben. Mit diesem Verfahren kann im Vergleich zu den Schüttelversuchen auch der zeitliche Verlauf der Schadstofffreisetzung erfasst und bewertet werden. Allerdings sind die Verfahren bisher nur für anorganische Stoffe und wenige prioritäre organische Schadstoffe validiert worden (PAK, MKW, PCB, Phenole).
Aber auch Schadstoffe wie perfluorierte Tenside (PFT), die z.B. für die Veredlung von Papier, Textilien und Haushaltsgeräten eingesetzt werden oder Biozide, mit denen Bauprodukte zum Schutz vor mikrobiellem Befall ausgerüstet werden (z.B. Fassadenbeschichtungen und Holz), geraten auf Grund ihrer gesundheits- und umwelt-schädlichen Eigenschaften immer stärker in die Diskussion.
The suitability of common analytical methods for the determination of active substances from wood preservatives in aged wood samples was investigated during an interlaboratory study. Permethrin, propiconazole and tebuconazole were quantified in 1.5 and 8 year-old wood samples by gas chromatography and liquid chromatography. Generally, the applied Methods yielded reliable results for these samples. However, wood components can coelute with propiconazole and tebuconazole during liquid chromatography. Optimization of separation might be required if UV detection is applied.