1 |
ASTM-D6007-96. 1996. Standard test method for determining formaldehyde concentrations in air from wood products using a small scale chamber
|
2 |
Cleno, J. G., P. A. Clausen, C. J. Weschler, and P. Wolkoff. 2001. Determination of ozone removal rates by selected building products using the FLEC emission cell. Environmental Science and Technology 35: 2548-2553
DOI
ScienceOn
|
3 |
ECA-IAQ Report No.13. 1993. Determination of VOCs emitted from indoor materials and products Inter laboratory comparison of small chamber measurements, Brussels
|
4 |
ENV 13419- 1. 1999. Building products -Determination of the emission of volatile organic compounds- Part 1: Emission test chamber method, Brussels, European Committee for Standardization
|
5 |
European Collaborative Action. 1993. European Collaborative Action, Determination of VOCs emitted from indoor materials and products-interlaboratory comparison of small chamber measurements. Report No. 13, Commission of the European Communities, Brussels-Luxembourg
|
6 |
Hawthorne, A. R. and T. G. Matthews. 1987. Models for estimating organic emissions from building materials: formaldehyde example, Atmospheric Environment 21 (2): 419-424
DOI
ScienceOn
|
7 |
Karlsson, S., Z. G. Banhidi, and A.-C. Albertsson. 1989. Gas chromatographic detection of volatile amines found in indoor air due to putrefactive degradation of casein-containing building materials, Materials and Structures 22: 163-169
DOI
|
8 |
Kim, S. and H.-J. Kim. 2005a. Effect of addition of polyvinyl acetate to melamine-formaldehyde resin on the adhesion and formaldehyde emission in engineered flooring. International Journal of Adhesion and Adhesives 25: 456-461
DOI
ScienceOn
|
9 |
Kim, S., J.-A. Kim, H.-J. Kim, and S. D. Kim. 2006. Determination of formaldehyde and TVOC emission factor from wood-based composites by small chamber method. Polymer Testing 25(5): 605-614
DOI
ScienceOn
|
10 |
Kim, S., H.-J. Kim, H.-S. Kim, Y.-K. Lee, and H.-S. Yang. 2006. Thermal analysis study of viscoelastic properties and activation energy of melamine-modified urea-formaldehyde resins. Journal of Adhesion Science and Technology 20(8): 803-816
DOI
ScienceOn
|
11 |
Wen sing, M. 1999. Environmental test chambers. In: T. Salthammer, Editor, Organic Indoor Air Pollutants, Wiley-VCH, Weinheim
|
12 |
Wolkoff, P., P. A. Clausen, P. A. Nielsen, and L. lhave. 1991. The Danish twin apartment study; part I: formaldehyde and long-term VOC measurements. Indoor Air 4: 478-490
|
13 |
Risholm-Sundman, M. 1999. Determination of formaldehyde emission with field and laboratory emission cell (FLEC)-recovery and correlation to the chamber method. Indoor Air 9: 268-272
DOI
ScienceOn
|
14 |
European Collaborative Action. 1991. European Collaborative Action, Guideline for the characterisation of volatile organic compounds emitted from indoor materials and products using small test chambers. Report No.8, Commission of the European Communities, Brussels-Luxembourg
|
15 |
Wolkoff, P., P. A. Clausen, and P. A. Nielsen. 1995. Application of the field and laboratory emission cell 'FLEC' - Performance study, intercomparison study, and case study of damaged linoleum in an office. Indoor Air 5(3): 196-203
DOI
ScienceOn
|
16 |
Wolkoff P. and P. A. Nielsen. 1999. A new approach for indoor climate labeling of building materials-emission testing, modeling, and comfort evaluation. Atmospheric Environment 30: 2679-2689
|
17 |
Wolkoff, P. 1998. Impact of air velocity, temperature, humidity, and air on long-term VOC emissions from building products, Atmospheric Environment 32: 2659-2668
DOI
ScienceOn
|
18 |
ECA-IAQ Report No.2. 1989. Guideline for the determination of steady state concentrations in test chambers, Luxembourg
|
19 |
ISO 16000-10, 2006b ISO 16000-10, 2006b. Indoor-Air Part 10: Determination of the Emission of Volatile Organic Compounds from Building Products and Furnishings-Emission Test Cell Method
|
20 |
Wilke, O., O. Jann, and D. Bradner. 2004. VOCand SVOC-emissions from adhesives, floor coverings and complete floor structures, Indoor Air 14: 98-107
DOI
ScienceOn
|
21 |
Rothweiler, H., P. A. Wager, and C. Schlatter. 1992. Volatile organic compounds and some very volatile organic compounds in new and recently renovated buildings in Switzerland. Atmospheric Environment 26: 2219-2225
DOI
ScienceOn
|
22 |
Risholm-Sundman, M. and N. Wallin. 1999. Comparison of different laboratory methods for determining the formaldehyde emission from three-layer parquet floors, Holz als Roh- und Werkstoff 57(5): 319-324
DOI
ScienceOn
|
23 |
ECA-IAQ Report No.8. 1991. Guideline for the characterization of volatile organic compounds emitted from indoor materials and products using small test chambers, Brussels
|
24 |
ISO 16000-9, 2006a ISO 16000-9, 2006a. Indoor-Air Part 9: Determination of the Emission of Volatile Organic Compounds from Building Products and Furnishings-Emission Test Chamber Method
|
25 |
Jarnstrom, H., K. Saarela, P. Kalliokoski, and A.-L. Pasanen. Reference values for structure emissions measured on site in new residential buildings in Finland Atmospheric Environment, In press
|
26 |
CEC-Commission of the European Communities, prENV 13419-2. 1998. Building products-determination of the emission of volatile organic compounds-Part 2: Emission test cell method, Brussels: European Committee for Standardization
|
27 |
ECA-IAQ Report No.16. 1995. Determination of VOCs emitted from indoor materials and products - Second inter laboratory comparison of small chamber measurements, Brussels
|
28 |
Weschler, C. J. and H. C. Schields. 1997. Potential reactions among indoor air pollutants, Atmospheric Environment 31: 3487-3495
DOI
ScienceOn
|
29 |
ASTM-D5116-97. 1997. Standard guide for smallscale environmental chamber determinations of organic emissions from indoor materials/products
|
30 |
Kim, S. and H.-J. Kim. 2005c. Comparison of formaldehyde emission from building finishing materials at various temperatures in under heating system; ONDOL. Indoor Air 15:317-325
DOI
ScienceOn
|
31 |
Tuomaninen, M., A.-L. Pasanen, A. Tuomaninen, J. Liesivuori, and P. Juvonen. 2001. Usefulness of the Finnish classification of indoor climate, construction of indoor climate between two new blocks of flats in Finland. Atmospheric Environment 35: 305-313
DOI
ScienceOn
|
32 |
Uchiyama, S., T. Akimoto, and S.-I. Tanabe. 2001. Emission rate measurement of chemical compounds emitted from the thermal insulating materials, International FLEC Symposium 2001. pp. 110-115
|
33 |
Wolkoff, P., P. A. Clausen, C. K. Wilkins, and G. D. Nielsen. 2000. Formation of strong airway irritants in terpene/ozone mixtures, Indoor Air 10: 82-91
DOI
ScienceOn
|
34 |
Wirtanen, L. 2005. Influence of moisture and substrate on the emission of volatile organic compounds from wall structures, Helsinki university of technology, Espoo. pp. 321
|
35 |
Bornehag, C.-G. 1991. Indoor Climate in Dalen. Physical measurements in 90 flats at Ensskededalen, Stockholm, Byggforskningsrdet BFR, Stockholm
|
36 |
Brown, S. K. 1999. Chamber assessment of formaldehyde and VOC emissions from woodbased panels. Indoor Air 9: 209-215
DOI
ScienceOn
|
37 |
Kim, S. and H.-J. Kim. 2005b. Comparison of standard methods and gas chromatography method in determination of formaldehyde emission from MDF bonded with formaldehyde-based resins. Bioresource Technology 96: 1457-1464
DOI
ScienceOn
|