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http://dx.doi.org/10.6110/KJACR.2011.23.5.375

Consideration of Measurement Method for SVOCs Emission Rates  

Seo, Jang-Hoo (School of Architecture, Chosun University)
Publication Information
Korean Journal of Air-Conditioning and Refrigeration Engineering / v.23, no.5, 2011 , pp. 375-382 More about this Journal
Abstract
Semi volatile organic compounds (SVOCs) are used as plasticizers in building materials, interior materials, furniture, consumer electronics. etc. In the home, these SVOCs mix together with house dust. There is thus concern over the health effects of SVOCS in the home, there is a risk that they ini1uence childhood asthma and allergies. It is difficult to measure SVOCs emission rates from building materials or household appliances utilizing the usual test chamber methods, because the boiling points of SVOCs are higher and they are apt to adhere to the surface of the test chamber used. In this study, we introduce FLEC chamber method, passive sampler method and micro chamber method, which are used in Germany and Japan in order to measure SVOCs emission rates. Characteristic, merits and demerits of test methods are also considered.
Keywords
SVOCs; Measurement Method; Emission Rates;
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1 Ubde, E., Bednarek, M., Fuhrmann, F. and Salthammer, T., 2001, Phthalic esters in the indoor environment-test chamber studies on PVC-coated wall coverings, Indoor Air 2001, Vol. 11, pp. 150-155.   DOI   ScienceOn
2 Aoki, T., Kihara I. and Tanabe S., 2005, Measurement of semi volatile organic compounds(SVOC) : Part 3 Common test sample experiments by absorbent amount method, Summaries of technical papers of Annual Meeting Architectural Institute of Japan, D-2, pp. 877-878.
3 Fujii, M., Shinohara, N., Lim, A., Otake, T., Kumagai, K., and Yanagisawa, Y., 2003, A study on emission of phthalate esters from plastic materials using a passive flux sampler, Atmospheric Environment, Vol. 37, pp. 5495-5504.   DOI   ScienceOn
4 Choi, S., Baek S. and Chang, Y., 2007, Uptake of semi-volatile organic compounds by forests, J. of the Korean Society for Environment Analysis, Vol. 10, No. 2, pp. 91-97.
5 Takeda, K., Nonaka, T., Matsumoto, I., Mochitsuki, A., Otsuka, Y., and Fujimoto, T., 2000, Evaluation method for emission rates of chemical compounds released from materials and resin of clean room, Proceedings of japan air cleaning association and contamination control, pp. 30-33.
6 Motohashi, K. and Imano, M, 2003, Quantitative analysis of phthalic esters emitted from polyvinyl chloride resin based building materials, Journal of architecture, planning and environmental engineering. Transactions of AIJ, 573, pp. 15-20.
7 Saito, I., Onuki A. and Scto H, 2002, Determination of phthalates in indoor air, Journal of Society of Indoor Environment Japan, Vol. 5, No. 1, pp. 13-22.
8 Shibue, T., Aoki T., Kihara I., Nakagawa T., Tanaka H., Funaki R., and Tanabe S., 2005, Measurement of Semivolatile organic compounds(SVOCs) : Part 1 Development of measurement method and outline, Summaries of technical papers of Annual Meeting Architectural Institute of Japan, D-2, pp. 907-908.
9 Tsunemoto, S. Kameo, K, Aoki, T., Tani, H, Taguchi, H., and Tanabe, S., 2006, Measurement of semi volatile organic compounds (SVOC) : Part 4 Examination of measurement and analysis method for SVOC adhesion amount and NVR amount, Summaries of technical papers of Annual Meeting Architectural Institute of Japan, D-2, pp. 935-936.
10 Matsumura, T., Hamada M., Ito K, Ando M., and Isozaki A., 1998, Determination method for organophosphorus compounds in indoor air and its application to practical measurement, Journal of Society of Indoor Environment Japan, Vol. 1, No. 1, pp. 11-17.
11 Kawahara, J., Yamaguchi T. and Kumagai K, 2004, Assessment of organophosphorus pesticide in house dust in agricultural community, Journal of RIEMAM, Vol. 52, pp. 86-87.
12 Hasegawa, A., Murakami M. and Fujimoto H., 2004, Determination of semi-volatile and nonvolatile organic compounds adsorbed onto house dust, Journal of RIEMAM, Vol. 52, pp. 96-97.
13 Bornehag, C. G., Sundell J., Weschler C. J., Sigsgaard T., Lundgren B., Hasselgren M., and Hagerhed-Engman L., 2004, The association between asthma and allergic symptoms in children and phthalates in house dust; a nested case control study, Environmental Healthy Perspectives, Vol. 112, No. 14, pp. 1393-1397.   DOI   ScienceOn
14 WHO, 1989, Indoor Air Quality: Organic pollutants. Euro Reports and Studies Vol. 111. Copenhagen, World Health Organization Office for Europe.
15 Clausen, P. A., Hansen V., Gunnarsen L., Afshari A., and Wolkoff P., 2004, Emission of di-2-ethylhexyl phthalate from PVC flooring into air and uptake in dust: emission and sorption experiments in FLEC and CLIMPAQ, Environ, Sci. Technol., Vol. 38, No. 9, pp. 2531-2537.   DOI   ScienceOn
16 VDA278, 2001, Thermal desorption analysis of organic emissions for the characterization of non-metallic motor, vehicle materials, Automotive Industry Association.
17 Katsumata H, Murakami S., Kato S., Hoshino K., and Ataka Y., 2008, Measurement of semivolatile organic compounds emitted from various types of indoor materials by thermal desorption test chamber method, Building and Environment, Vol. 43, No. 3, pp. 378-383.   DOI   ScienceOn
18 Afshari, A., Gunnarsen, L., Clausen, P. A. and Hansen, V., 2004, Emission of phthalates from PVC and other materials, Indoor Air 2004, Vol. 14, pp. 120-128.   DOI   ScienceOn
19 Seo, J., Kato, S. and Lim, Mo, 2009, Measurement of semi-volatile organic compounds from flooring material and evaluation on airflow characteristics in a Test Chamber, Proceedings of the SAREK 2009 summer annual conference, pp. 762-767.