Suchergebnisse

This Scientific Opinion Paper reports about current plans of the European Commission to issue a delegated act on communication of emissions of volatile organic compounds (VOC) from construction products in form of "VOC classes". German authorities consider this draft delegated act as completely insufficient regarding health requirements for the marketing of construction products and campaign for resumption of discussions and supplementation of the proposal in order to efficiently avoid unacceptable adverse health effects.

Abstract
Background
A European inter-laboratory test with 29 participating laboratories investigated whether a battery of four ecotoxicological tests is suitable for assessing the environmental compatibility of construction products. For this purpose, a construction product was investigated with the dynamic surface leaching test (DIN CEN/TS 16637-2) and the percolation test (DIN CEN/TS 16637-3). The eluates were produced centrally by one laboratory and were tested by the participants using the following biotests: algae test (ISO 8692), acute daphnia test (ISO 6341), luminescent bacteria test (DIN EN ISO 11348), and fish egg test (DIN EN ISO 15088). As toxicity measures, EC50 and LID values were calculated.

Results
Toxic effects of the eluates were detected by all four biotests. The bacteria test was by far the most sensitive, followed by the algae test and the daphnia test; the fish egg test was the least sensitive for eluates of both leaching tests. The toxicity level of the eluates was very high in the bacteria, daphnia, and algae test, with lowest ineffective dilution values of LID = 70 to LID = 13,000 and corresponding EC50 values around or even below 1 volume percent. The reproducibility (approximated by interlaboratory variability) of the biotests was good (< 53%) to very good (< 20%), regardless of the toxicity level of the eluates. The reproducibility of the algae test was up to 80%, and thus still acceptable.

Conclusion
It can be confirmed that the combination of leaching and ecotoxicity tests is suitable to characterize with sufficient reproducibility the environmental impact posed by the release of hazardous substances from construction products.

Abstract
Background
The release of hazardous compounds from construction products can harm human health and the environment. To improve the sustainability of construction materials, the leaching of substances from construction products and their potential environmental impact should be assessed. Twenty-seven construction products from different product groups were examined with a combination of standardized leaching tests (dynamic surface leaching test and percolation test) and biotests (algae, daphnia, fish egg, luminescent bacteria, umu and Ames fluctuation tests). To identify the released substances, extensive qualitative and quantitative chemical analyses were performed, including gas chromatographic and liquid chromatographic screening techniques.

Results
Many of the tested eluates caused significant ecotoxic effects. Particularly high ecotoxicities were observed for grouts (lowest ineffective dilution (LID) up to 16384) and cork granules (LID up to 24578). The results of ecotoxicity tests allow the prioritization of the eluates that should be subjected to detailed chemical analyses. Organic screening by different methods and ranking the identified substances based on recorded hazard classification is a suitable approach to identify the relevant toxic substances.

Conclusions
Determining the ecotoxicity of eluates from construction products records the summary effect of all leachable substances. This instrument is especially useful for construction products of complex and largely unknown composition. The ecotoxicological and the chemical–analytical approach complement each other in an ideal way to characterize the potential hazard of eluates from construction products and to identify the environmentally hazardous components in these eluates. Our results confirm that the proposed harmonized methods for testing eluate toxicity are an adequate and applicable procedure to move toward a more sustainable way of building and to reduce toxic effects of construction products in their use phase in the environment..

Abstract
Background
The leaching of substances and the ecotoxic effects of eluates were studied for joint grouts that are based on various types of binders. Eight products, two of them containing either epoxy resin, polybutadiene or polyurethane binders, or modified cement, were investigated using harmonized leaching tests for construction products in combination with ecotoxicity tests on algae, daphnia, luminescent bacteria, fish eggs and mutagenicity in accordance with CEN/TR 17105. In addition to basic parameters, such as pH, TOC, and inorganic components, organic substances in the eluates were analysed by gas and liquid chromatography in combination with mass spectrometry. Quantitative analyses in combination with ecotoxicity data on selected substances were used to deduce which substances cause the observed ecotoxic effects.

Results
Different patterns of ecotoxic effects were observed in joint grouts with different binder types. The most ecotoxic effects were observed in epoxy resin-based products, followed by polybutadiene-based products. Fewer ecotoxic effects were observed in polyurethane-based products and modified cements. Some of these showed no ecotoxicity. Some of the substances in the eluates were identified and related to ecotoxic effects. 4-Tert-butylphenol and amines probably contributed to the ecotoxic effects of at least one of the epoxy resin-based renders, whereas cobalt is assumed to contribute to the toxic effect on algae of one of the polybutadiene-based products. However, only some of the leached substances could be identified, and only some of the ecotoxic effects can be explained by the available information on the composition of eluates and known ecotoxic profiles of the identified substances.

Conclusions
Ecotoxicity tests on eluates from leaching tests indicate whether environmentally hazardous substances can be leached from construction products. Combined ecotoxicity tests and chemical analysis of eluates from EU-wide harmonized leaching tests for construction products can provide information on substances that cause these effects. This supports the identification and development of environmentally friendly construction products. This study confirmed that ecotoxicity tests in accordance with CEN/TR 17105 are a tool well-suited to support the implementation of the European Commission's zero pollution vision for 2050 and to reduce pollution to levels no longer considered harmful to health and natural ecosystems.

Harmonised requirements for documenting emission test results of construction products in the declaration of performance have been an important discussion issue in the implementation of the Construction Products Regulation over a long time. The level of information details to be provided with the declaration of performance reflects conflicting interests of the various parties concerned. On the one hand, simple and harmonised conditions of trade should be implemented on the common single market. On the other hand, actors aiming to achieve high indoor air quality and hence, a high level of protection for human health request detailed product information. This report presents a summary of the main arguments exchanged during a parliamentarian lunch briefing in Brussels on the 19 th of October 2017 on this issue. Representatives from the different stakeholder groups at Member State and European level participated in the meeting.

Die Umweltverträglichkeit von Bauprodukten, die in Kontakt mit Regen- oder Sickerwasser kommen, wurde durch Kombination normierter Elutions- (DSLT, Perkolationstest) und Ökotoxizitätstests (Algen, Daphnien, Fischeier, Leuchtbakterien) sowie Gentoxizitätstests (Ames, umu) untersucht. Ziel des Projektes war es einerseits, einen Beitrag zur Harmonisierung der Prüfmethoden unter CEN/TC 351 zu leisten und andererseits potentielle Produktgruppen, die sich für die Umweltzeichenvergabe des Blauen Engels eignen würden, zu erkennen. Durch umfangreiche qualitative und quantitative chemische Analysen (u. a. GC-MS- sowie LC-MS-Screening) wurden einige der freigesetzten Stoffe identifiziert und anhand von Literaturdaten ökotoxikologisch charakterisiert. Insgesamt wurden 34 Bauprodukte (Dachbahnen, Lacke, Wood-Plastic-Composites, Pflasterfugenmörtel, Korkgranulate, Schaumglasschotter, Wegedecken, Dichtmassen) untersucht. Hierbei wurden insbesondere bei den Fugenmörteln und Korkgranulaten sehr hohe Ökotoxizitäten (bis LID = 16384 bei den Fugenmörteln und LID = 24578 bei den Korkgranulaten) beobachtet. Algen- und Leuchtbakterientests waren in der Regel deutlich empfindlicher als der Daphnien- und Fischeitest. Die untersuchten Dachbahnen, Lacke, Wood-Plastic-Composites und Schaumglasschotter zeigten hingegen keine oder nur sehr geringe Ökotoxizitäten. Zur Qualitätssicherung und Validierung wurde ein Europäischer Ringversuch gemäß den Vorgaben der DIN ISO 5725 organisiert, durchgeführt und ausgewertet. Hierzu wurde ein Fugenmörtel als flächiges Produkt im DSLT und als gebrochenes körniges Produkt im Perkolationstests eluiert und die Eluate nachfolgend in den 29 teilnehmenden Laboren hinsichtlich ihrer Ökotoxizität untersucht. Hierbei wurden insgesamt plausible Ergebnisse und gute (<50 %) bis sehr gute (<20 %) Reproduzierbarkeiten erzielt. Es wird empfohlen, für die Produktgruppen Dachbahnen, Kunstrasen und Sportböden sowie Fugenmörtel Vergabekriterien für den Blauen Engel zu entwickeln.

Das Umweltbundesamt (⁠UBA⁠) und die Kommission Nachhaltiges Bauen am Umweltbundesamt (KNBau) haben Empfehlungen zur umwelt-, klima- und ressour­censchonenden und gleichzeitig klimaangepassten, gesundheits- und sozialverträglichen Schaffung bezahlbaren Wohnraums vorgelegt. Im Zentrum steht dabei der Umbau und die Umnutzung des Gebäudebestands, um die Ziele für Klima- und Ressourcenschutz im Gebäudesektor zu erreichen. Die Empfehlungen richten sich in erster Linie an die Bundespolitik mit den Ressorts für Bau- und Stadtentwicklung, Umwelt, Klimaschutz, Verkehr und Gesundheit. Darüber hinaus sind weitere Akteure angesprochen, wie politische Entscheidungs­träger*innen auf EU-, Landes- und kommunaler Ebe­ne, Verbände, Planungspraxis und die Fachöffentlich­keit.

We are facing an enormous challenge: the climate crisis and scarcity of resources require a consistent paradigm shift in housing construction and urban development. Quality of life, health and aesthetics must be combined with environmental, resource and climate protection. This position paper of the German Environment Agency and the Commission for Sustainable Building (KNBau) at the German Environment Agency presents recommendations for the creation of affordable housing that is environmentally, climate and resource efficient, and at the same time climate-adapted, health and socially compatible. The recommendations are primarily addressed to federal policy-makers, especially the departments of building and urban development, environment, climate protection, transport and health.