Open Access
Issue |
E3S Web Conf.
Volume 514, 2024
2024 10th International Conference on Environment and Renewable Energy (ICERE 2024)
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Article Number | 04003 | |
Number of page(s) | 10 | |
Section | Green Building Materials and Indoor Air Quality | |
DOI | https://doi.org/10.1051/e3sconf/202451404003 | |
Published online | 11 April 2024 |
- WHO: Guidelines for indoor air quality: selected pollutants, Denmark: WHO Regional Office for Europe, ISBN 978 92 890 0213 4 (2010) [Google Scholar]
- T. Salthammer, S. Mentese, R. Marutzky, Formaldehyde in the indoor environment. Chemical Reviews 110, (pp. 2536–2572), (2010) [CrossRef] [PubMed] [Google Scholar]
- P. Wolkoff, How to measure and evaluate volatile organic compound emissions from building products. A perspective. Science of the Total Environment, 227, (pp. 197–213.) (1999) [CrossRef] [Google Scholar]
- B. Holmberg, P. Lundberg, Benzene: standards, occurrence, and exposure. Am J Ind Med; 7:375–83. (1985) [CrossRef] [PubMed] [Google Scholar]
- WHO. Air quality guidelines, global update 2005, particulate matter, ozone, nitrogen dioxide and sulphur dioxide, Denmark: WHO Regional Office for Europe, 2006, ISBN 92 890 2192 6 (2006) [Google Scholar]
- AgBB, Updated List of LCI values 2012 in Part 3, Health-related Evaluation Procedure for Volatile Organic Compounds Emissions (VOC and SVOC) from Building Products, (2012) [Google Scholar]
- A. Katsoyiannis, P. Leva, J. Barrero-Moreno, D. Kotzias, Building materials. VOC emissions, diffusion behaviour and implications from their use. Environmental Pollution 169 (pp. 230–234) (2012) [CrossRef] [Google Scholar]
- S. Molnár Forest and Wood Utilization in Hungary, Erdő - fa hasznosítás Magyarországon, NyME Erdészeti Tudományos Intézet, (p. 344) (2005) [Google Scholar]
- H. Guo, F. Murraya, S.-C. Lee, Emissions of total volatile organic compounds from pressed wood products in an environmental chamber. Building and Environment 37, (pp. 1117–1126) (2002) [CrossRef] [Google Scholar]
- EPA (Environmental Protection Agency) Sources and factors affecting indoor emissions from engineered wood products: summary and evaluation of current literature. EPA-600=R-96-067. North Carolina: Research Triangle Park, (1996) [Google Scholar]
- A. Petersen, B. Solberg, Environmental and economic impacts of substitution between wood products and alternative materials: a review of micro-level analyses from Norway and Sweden. Forest Policy and Economics 7, (pp. 249–259) (2005) [CrossRef] [Google Scholar]
- P. Takáts Formaldehyde content of wood-based composite boards; Faalapúkompozit lemezek formaldehid tartalma I. Magyar Asztalos IV: 5 (pp. 48−49) (1994) [Google Scholar]
- P. Takáts Formaldehyde content of wood-based composite boards; Faalapúkompozit lemezek formaldehid tartalma. II. Magyar Asztalos IV: 7, (p. 47) (1994) [Google Scholar]
- Takáts P. Emission threshold limits of composite panels; Kompozit lemezek emissziós határértékei. Magyar Asztalos IV: 9, (p. 56) (1994) [Google Scholar]
- P. Takats, A. Winkler, L. Albert, Zs. I. Nemeth Formaldehyde Contents of Particleboard: Comparing WKI−Method and with FESYP Perforator Test Method, „5th International, Jubilee Conference on Role of Formaldehyde in biological systems, October 9−13. Sopron, Hungary, (pp. 54–58) (2000) [Google Scholar]
- T. Alpár, R. Németh, P. Takats, Renewable composites, materials, R+D+I on the Wood Science Faculty; Megújuló Kompozitok, anyagok, K+F+I a Faipari Mérnöki Karon, Inno-Lignum. 09. 06–08. (2012) [Google Scholar]
- Ze-Li, Q., Fei-Bin, W., Jian-Zhang, L., Takeshi, F. Assessment on emission of volatile organic compounds and formaldehyde from building materials. Composites: Part B 49, 36–42 (2013) [CrossRef] [Google Scholar]
- A. Manninena, P. Pasanenb, J.K. Holopainen, Comparing the VOC emissions between air-dried and heat-treated Scots pine wood. Atmospheric Environment 36, (pp. 1763–1768) (2002) [CrossRef] [Google Scholar]
- M. Risholm-Sundman, M. Lundgren, E. Vestin, P. Herder Emission of acetic acid and other volatile organic compounds from different species of solid wood, Holz als Roh und Werkst. 56, (pp. 125–129) (1998) [CrossRef] [Google Scholar]
- W. Song-Yung, Y. Te-Hsin, L. Li-Ting, L. Cheng-Jung, T. Ming-Jer Properties of low-formaldehyde-emission particleboard made from recycled wood-waste chips sprayed with PMDI/PF resin, Building and Environment 42, (pp. 2472–2479) (2007) [CrossRef] [Google Scholar]
- K. Sumin, Environment-friendly adhesives for surface bonding of wood-based flooring using natural tannin to reduce formaldehyde and TVOC emission, Bioresource Technology 100, (pp. 744–748) (2009) [CrossRef] [PubMed] [Google Scholar]
- K. Sumin, The reduction of indoor air pollutant from wood-based composite by adding pozzolan for building materials, Construction and Building Materials 23, (pp. 2319–2323) (2009) [CrossRef] [Google Scholar]
- K. Sumin, C. Yoon-Ki, P. Kyung-Won, K. Jeong Tai Test methods and reduction of organic pollutant compound emissions from wood-based building and furniture materials, Bioresource Technology 101, (pp. 6562–6568) (2010) [CrossRef] [PubMed] [Google Scholar]
- C.J. Weschler, Changes in indoor pollutants since the 1950s, Atmospheric Environment 43, (pp. 153–169) (2009) [CrossRef] [Google Scholar]
- Cs. Patkó, Evaluation of volatile organic components of indoor air of a newly-built wooden frame house in the last four seasons. Conference Proceedings Part (A) 4th INTERNATIONAL CONFERENCE “TO PROTECT OUR GLOBAL ENVIRONMENT FOR FUTURE GENERATIONS” ICEEE-, 20 – 21 November 2013, Óbuda University Budapest, Hungary, (pp. 229–237) ISBN: 978-615-5018-93-0 (2013) [Google Scholar]
- H. Rothweiler, P. Wager, C. Schlatter, VOLATILE ORGANIC COMPOUNDS AND SOME VERY VOLATILE ORGANIC COMPOUNDS IN NEW AND RECENTLY RENOVATED BUILDINGS IN SWITZERLAND. Atmospheric Environment Vol 26A No 12, (pp 2219–2225) (1992) [CrossRef] [Google Scholar]
- H. Seung, K. Wan, Volatile organic compound concentrations, emission rates, and source apportionment in newly-built apartments at pre-occupancy stage. Chemosphere 89 (pp. 569–578) (2012) [CrossRef] [PubMed] [Google Scholar]
- L. Young-Kyu, K. Hyun-Joong, The effect of temperature on VOCs and carbonyl compounds emission from wooden flooring by thermal extractor test method. Building and Environment 53, (pp. 95–99) (2012) [CrossRef] [Google Scholar]
- R. Kostiainen, Volatile organic compounds in the indoor air of normal and sick houses. Atmospheric Environment, Vol. 29, No. 6, (pp. 693–702) (1995) [CrossRef] [Google Scholar]
- M. Tuomainen, A-L. Pasanen, A. Tuomainen, J. Liesivouri, P. Juvonen, Usefulness of the Finnish classification of indoor climate, construction and finishing materials: comparison of indoor climate between two new blocks of flats in Finland Atmospheric Environment 35, (pp. 305–313) (2001) [CrossRef] [Google Scholar]
- H. Guo, F. Murray, S.C. Lee, The development of low volatile organic compound emission house—a case study. Building and Environment 38, (pp. 1413–1422) (2003) [CrossRef] [Google Scholar]
- H. Järnström, K. Saarela, P. Kalliokoski, A.-L. Pasanen, Reference values for indoor air pollution concentrations in new residential buildings in Finland. Atmos. Environ. 40, (pp. 7178–7191) (2006) [CrossRef] [Google Scholar]
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