Summary
We have conducted a study of nitrogen dioxide (NO2) concentrations in nearly 200 houses, including newly built homes supplied by electricity in Tokyo. NO2 levels were measured in the kitchen and living room of each house for 1 week simultaneously using a Yanagisawa badge and some houses were measured outside in the winter and fall. In both of the kitchen and living room, NO2 concentrations for homes supplied by gas were higher during both the fall and winter than those supplied by electricity. The mean NO2 concentrations in the kitchen and the living room for homes with electricity was 6 ppb in the winter. Unvented heaters were used in the approximately 20 % of gas homes. Average NO2 concentration in the living room for homes with gas with vented and unvented heaters was 22 ppb and 72 ppb, respectively. In the fall, the mean NO2 concentrations in the living room for homes supplied by electricity and gas was 9 ppb and 14 ppb, respectively. The mean levels of NO2 measured outside homes were 29 ppb in the winter and 20 ppb in the fall, respectively. Mean indoor NO2 concentrations in homes supplied by gas with unvented heaters were two times higher than those outdoors in the winter. The health consequences of the differences among the three types of households should be investigated. NO2 levels in this study are likely to be different from those of a lot of studies in Europe and North America. It might depend on the characteristics of houses, e.g., house structure, ventilation, type of cooking facility, and type of heater, in Japan.
Parts of the study were supported by grants from the Housing Research & Advancement Foundation of Japan.
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References
Comstock GW, Meyer MB, Helsing KJ, Tockman MS (1981) Respiratory effects of household exposure to tobacco smoke and gas cooking. Am Rev Respir Dis 124:143–148
Florey C du V, Melia RJW, Goldstein BD, Brooks AGF, John HH, Craighead IB, Webster X (1979) The relation between respiratory illness in primary schoolchildren and the use of gas for cooking III-Nitrogen dioxide, respiratory illness and lung function. Int J Epidemiol 8:347–353
Goldstein BD, Melia RJW, Chinn S, Florey C du V, Clark D, John HH (1979) The relation between respiratory illness in primary schoolchildren and the use of gas for cooking II-Factors affecting nitrogen dioxide levels in the home. Int J Epidemiol 8:339–345
Keller MD, Lanese RR, Mitchell RI, Cote RWX (1979) Respiratory illness in households using gas and electricity for cooking II. Symptoms and objective findings. Environ Res 19:504–515
Melia RJW, Florey C du V, Altman DG, Swan AV (1977) Association between gas cooking and respiratory disease in children. Br Med J 2:149–152
Nishimura H, Yanagisawa Y (1986) Reduction of NO2 to NO by rush and other plants. Environ Sci Technol 20:413–416
Nitta H, Maeda K (1982) Personal exposure monitoring to nitrogen dioxide. Environ Int 8:243–248
Palmes ED, Tomczyk C, DiMattio J (1977) Average NO2 concentrations in dwellings with gas or electric stoves. Atm Environ 11:869–872
SAS Institute Inc (1982) SAS User’s Guide: Basics. Cary, North Carolina
Speizer FE, Ferris BG Jr, Bishop YMM, Spengler JD (1980) Respiratory disease rates and pulmonary function in children associated with NO2 exposure. Am Rev Respir Dis 121:3–10
Spengler JD, Reed MP, Lebret E, Chang BH, Ware JH, Speizer FE, Ferris BG Jr (1986) Harvard’s indoor air pollution/health study. Paper presentation at the 79th annual meeting of the Air Pollution Control Association. Minneapolis, Minnesota, June 22–27, 1986
Spengler JD, Ferris BG Jr, Dockery DW (1979) Sulfur dioxide and nitrogen dioxide levels inside and outside homes and the implications on health effects research. Environ Sci Technol 13:1276–1280
Traynor GW, Allen JR, Apte MG, Girman JR, Hollo well CD (1983) Pollutant emissions from portable kerosene-fired space heaters. Environ Sci Technol 17:369–371
US Environmental Protection Agency (1987) EPA indoor air quality implementation plan: Appendix A. Preliminary indoor air pollution information assessment. EPA/600/8-87/014 June 1987
Ware JH, Dockery DW, Spiro A, Speizer FE, Ferris BG Jr (1984) Passive smoking, gas cooking, and respiratory health of children living in six cities. Am Rev Respir Dis 129:366–374
Yamanaka S, Hirose H, Takada S (1979) Nitrogen oxides emissions from domestic kerosene-fired and gas-fired appliances. Atm Environ 13:407–412
Yanagisawa Y, Nishimura H (1982) A badge-type personal sampler for measurement of personal exposure to NO2 and NO in ambient air. Environ Int 8:235–242
Yanagisawa Y, Nishimura H, Matsuki H, Osaka F, Kasuga H (1984) Estimation of annual average of personal NO2 exposure from short period measurements. J Japan Soc Air Pollut 19:292–299
Yanagisawa Y, Nishimura H, Matsuki H, Osaka F, Kasuga H (1986) Personal exposure and health effect relationship for NO2 with urinary hydroxyproline to creatinine ratio is indicator. Arch Environ Health 41:41–48
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Nitta, H., Nakai, S., Maeda, K. (1990). Indoor Nitrogen Dioxide Pollution Associated with Gas Stoves and Unvented Heaters in Japan. In: Kasuga, H. (eds) Indoor Air Quality. International Archives of Occupational and Environmental Health Supplement. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-642-83904-7_43
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DOI: https://doi.org/10.1007/978-3-642-83904-7_43
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