aminosavaknak. Az aminosavak a fehérjék építőkövei. Más karbonsavak (például citromsav, tejsav) az anyagcsere-folyamatokban játszanak szerepet.
Ecetsav: CH3COOH. Könnyen felismerhető, mert ez adja az ecet savanyú ízét és átható szagát. Fontos kémiai reagens és ipari nyersanyag. Az élelmiszeriparban az ecetsavat E260-nal jelölik, és a savanyúság szabályozására használják (Breuer, 1995). ORGANIC COMPOUNDS IN SELECTED GERMAN HOMES
Environment
International, Vol. 15, pp.
397-408, 1989
2. 1991
Reponen és tsai
The effect of material ageing and season on formaldehyde levels in different ventilation systems
Environavant
International, Vol. 17, pp.
349-355, 1991
3. 1992
Lewis és tsai
APPORTIONMENT OF RESIDENTIAL INDOOR AEROSOL,VOC AND ALDEHYDE SPECIES TO INDOOR AND OUTDOOR SOURCES, AND THEIR SOURCE STRENGTHS
VOLATILE ORGANIC COMPOUNDS AND SOME VERY VOLATILE ORGANIC COMPOUNDS IN NEW AND RECENTLY RENOVATED BUILDINGS IN
VOLATILE ORGANIC COMPOUNDS IN THE INDOOR AIR OF NORMAL AND SICK HOUSES
Indoor air pollution by different heating
systems:coal burning, open fireplace and central heating
Organic compounds in indoor air - their relevance for perceived indoor air quality?
Atmospheric Environment 35 (2001) 4407–4417
8. 2001
Edwards és
tsai Benzene exposure in Helsinki, Finland
Atmospheric Environment 35 (2001) 1411-1420
9. 2001
Tuomainen és tsai
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 (2001) 305-313
10. 2001
Hayashi és tsai
Annual characteristics of ventilation and indoor air quality in detached houses using a simulation method with Japanese daily schedule model
Building and Environment 36 (2001) 721–731
11. 2001
Edwards és tsai
VOC concentrations measured in personal samples and residential indoor, outdoor and workplace microenvironments in EXPOLIS-Helsinki, Finland
Atmospheric Environment 35 (2001) 4531–4543
12. 2001
Simonson és tsai
Improving indoor climate and comfort with wooden structures
Investigation of indoor air qualityat residential homes in Hong Kong - case study
Atmospheric Environment 36 (2002) 225–237
14. 2002
Funch és tsai
Indoor climate of single-family house
constructed by use of glued solid wood elements - In-situ measurements and calculations
Wood Technology – Træteknik
15. 2003 Guo és tsai
The development of low volatile organic compound emission house—a case study
Building and Environment 38 (2003) 1413 – 1422 16. 2004
Weschler és tsai
Cleaning products and air fresheners: exposure to primary and secondary air pollutants
Atmospheric Environment 38 (2004) 2841–2865 17. 2004 Sakai és tsai
A comparison of indoor air pollutants in Japan and Sweden: formaldehyde, nitrogen dioxide,
and chlorinated volatile organic compounds Environmental Research 94 (2004) 75–85
18. 2004
Schlink és tsai
Seasonal cycle of indoor-VOCs: comparison of apartments and cities
Atmospheric Environment 38 (2004) 1181–1190 19. 2004
Salonvaara
és tsai Indoor Air Quality in a Wooden House
www.ewpa.com/archive/2 004/jun/paper_170.pdf 20. 2005
Coelho és tsai
Indoor air pollution in old people’s homes related to some health problems: a survey study
Indoor Air 2005; 15: 267–
274 21. 2006
Jarnstrom és tsai
Reference values for indoor air pollutant concentrations in new, residential buildings in Finland
Time–activity relationships to VOC personal exposure factors
Analysing selected VVOCs in indoor air with solid phase microextraction (SPME): A case study
Chemosphere 65 (2006) 271–277
24. 2008 Chau és tsai
Valuing the health benefits of improving indoor air quality in residences
Science of the total environment 3 9 4 ( 2 0 0 8 ) 2 5 – 3 8
25. 2008
Sun-sook és tsai
Comparison of strategies to improve indoor air quality at the pre-occupancy stage in new apartment buildings
Symptom definitions for SBS (sick building syndrome) in residential dwellings
Int. J. Hyg. Environ.
Health 211 (2008) 114–
120 27. 2008 Jia és tsai
Distributions of personal VOC exposures: A population-based analysis
Assessment and predictor determination of indoor aldehyde levels in Paris newborn babies homes
Indoor Air 2009; 19: 314–
323 29. 2009
D’Souza és tsai
Ethnicity, housing and personal factors as determinants of VOC exposures
Effect of age, gender, economic group and tenure on thermal comfort: A field study in residential buildings in hot and dry climate with seasonal variations
Energy and Buildings 42 (2010) 273–281
31. 2010 Kang és tsai
Effect of bake-out on reducing VOC emissions and concentrations in a residential housing unit with a radiant floor heating system
Building and Environment 45 (2010) 1816-1825 32. 2010
Missia és tsai
Indoor exposure from building materials: A field study
Atmospheric Environment 44 (2010) 4388-4395 33. 2011 Sarigiannis
és tsai
Exposure to major volatile organic compounds and carbonyls in European indoor environments
Environment International 37 (2011) 743–765
and associated health risk
34. 2011
Walgraeve és tsai
Diffusive sampling of 25 volatile organic compounds in indoor air: Uptake rate
determination and application in Flemish homes for the elderly
Indoor air quality analyses of commercial reference buildings
Building and Environment 58 (2012) 179-187
36. 2012 Shin és tsai
Volatile organic compound concentrations, emission rates, and source apportionment in newly-built apartments at pre-occupancy stage
Chemosphere 89 (2012) 569–578
37. 2013
Hamidin és tsai
Volatile aromatic hydrocarbons (VAHs) in residential indoor air in Brisbane, Australia
Chemosphere xxx (2013) xxx–xxx
2.1.a. Táblázat: Helyszíni, in-situ tanulmányok
Tesztkamrás mérések
Év Szerzők Cím Publikálás
1. 1987
HAWTHORNE és tsai
MODELS FOR ESTIMATING ORGANIC EMISSIONS FROM BUILDING
A NEW APPROACH FOR INDOOR CLIMATE LABELING OF BUILDING MATERIALS--EMISSION TESTING,
3. 1998 Chang és tsai
EMISSIONS OF ODOROUS ALDEHYDES FROM ALKYD PAINT
Atmospheric Environment Vol. 32, No. 20, pp. 3581-3586, 1998
4. 1998 Wolkoff, P.
IMPACT OF AIR VELOCITY,
TEMPERATURE, HUMIDITY, AND AIR ON LONG-TERM VOC EMISSIONS FROM BUILDING PRODUCTS
Atmospheric Environment Vol. 32, No. 14/15, pp.
2659-2668, 1998 5. 1999 Wolkoff, P.
How to measure and evaluate volatile organic compound emissions from building products.
A perspective
The Science of the Total Environment 227 197-213 6. 2001 Niu és tsai
Setting up the criteria and credit-awarding scheme for building interior material selection to achieve better indoor air quality
Environment International 26, 573-580
7. 2002 Huang és tsai
Modelling ofvolatile organic compounds emission from dry building materials
Building and Environment 37 (2002) 1127 – 1138 8. 2003 Zhang és tsai
Characteristics and correlations of VOC emissions from building materials
International Journal of Heat and Mass Transfer 46 (2003) 4877–4883
9. 2004 Weschler,C.J.
Chemical reactions among indoor pollutants:
what we’ve learned in the new millennium
Indoor Air 2004; 14 (Suppl 7): 184–194
10. 2004 Singer és tsai Sorption of organic gases in a furnished room
Atmospheric Environment 38 (2004) 2483–2494 11. 2007 Carslaw, N.
A new detailed chemical model for indoor air pollution
Atmospheric Environment 41 (2007) 1164–1179 12. 2007 Risholm- Formaldehyde emission—Comparison of Atmospheric Environment
Sundman és tsai
different standard methods 41 (2007) 3193–3202 13. 2007 Zhang és tsai
Influence of temperature on formaldehyde emission parameters of dry building materials
Atmospheric Environment 41 (2007) 3203–3216 14. 2007 Singer és tsai Sorption of organic gases in residential rooms
Atmospheric Environment 41 (2007) 3251–3265 15. 2008
Salthammer és tsai
Comparison of analytical techniques for the determination of aldehydes in test chambers
Chemosphere 73 (2008) 1351–1356
16. 2009 Gminski és tsai
Cytotoxicity and genotoxicity in human lung epithelial A549 cells caused by airborne volatile organic compounds emitted from pine wood and oriented strand boards
Toxicology Letters 196 (2010) 33–41
17. 2009 Chino és tsai
Study on emission of decomposed chemicals of esters contained in PVC flooring and
adhesive Building and Environment
44 (2009) 1337–1342 18. 2011
Jae-Yoon és tsai
Formaldehyde and TVOC emission behavior of laminate flooring by structure of laminate flooring and heating condition
Uptake rate behavior of tube-type passive samplers for volatile organic compounds under controlled atmospheric conditions
Atmospheric Environment 45 (2011) 5872-5879 20. 2012 Schripp és tsai
Interaction of ozone with wooden building products, treated wood samples and exotic wood species
The effect of temperature on VOCs and carbonyl compounds emission from wooden flooring by thermal extractor test method
Building and Environment 53 (2012) 95-99
22. 2012
Katsoyiannis és tsai
Building materials. VOC emissions, diffusion behaviour and implications from their use
Environmental Pollution 169 (2012) 230-234
23. 2012 Xiong és tsai
A general analytical model for formaldehyde and VOC emission/sorption in single-layer building materials and its application in determining the characteristic parameters
Impact of building materials on indoor formaldehyde levels: Effect of ceiling tiles, mineral fiber insulation and gypsum board
Building and Environment 64 (2013) 138-145
2.1.b. Táblázat: Tesztkamrás mérések
Áttekintő, Review tanulmányok
Év Szerzők Cím Publikálás
1. 1982 Repace, J.L. INDOOR AIR POLLUTION
Environment International, Vol. 8, pp. 21-36, 1982 2. 1998
HAGHIGHAT és tsai
Material Emission Rates : Literature Review, and the Impact of Indoor Air Temperature and Relative Humidity
Building and Environment Vol. 33, No 5. pp. 261 -277, 1998
3. 1998 Yu és tsai
A Review of the Emission of VOCs from Polymeric Materials used in Buildings
Building and Environment
Impact of reaction products from building materials and furnishings on indoor air
quality—A review of recent advances in indoor chemistry
Atmospheric Environment 41 (2007) 3111–3128
5. 2009 Weschler,C.J. Changes in indoor pollutants since the 1950s
Atmospheric Environment 43 (2009) 153–169
6. 2010 Williem és tsai
Chemical Emissions of Residential Materials and Products: Review of Available Information
Office of Energy Efficiency and Renewable Energy under DOE Contract No.
DE-AC02-05CH11231 7. 2010
Wolkoff és tsai
Non-cancer effects of formaldehyde and relevance for setting an indoor air guideline
Environment International 36 (2010) 788–799
8. 2011 Zhang és tsai
Can commonly-used fan-driven air cleaning technologies improve indoor air quality? A literature review
Atmospheric Environment 45 (2011) 4329-4343 9. 2011 Salhammer, T.
Critical evaluation of approaches in setting indoor air quality guidelines and reference values
Literature survey on how different factors influence human comfort in indoor environments
Building and Environment 46 (2011) 922-937
11. 2011 Weschler,C.J.
Commemorating 20 years of Indoor Air - Chemistry in indoor environments: 20 years of research
Indoor Air 2011; 21: 205–
218 12. 2011 Heinrich, J.
Influence of indoor factors in dwellings on the development of childhood asthma
International Journal of Hygiene and Environmental Health 214 (2011) 1–25 2.1.c. Táblázat: Áttekintő, Review tanulmányok