4.7 Article

Household indoor concentration levels of NO2, SO2 and O3 in Nsukka, Nigeria

期刊

ATMOSPHERIC ENVIRONMENT
卷 244, 期 -, 页码 -

出版社

PERGAMON-ELSEVIER SCIENCE LTD
DOI: 10.1016/j.atmosenv.2020.117978

关键词

Nigeria; Indoor NO2; O-3; SO2; Nsukka

资金

  1. Gent University BOF 2016 grant [BOF16/DOS/008]
  2. National Centre for Energy Research and Development, University of Nigeria, Nsukka

向作者/读者索取更多资源

In the Nsukka area, the indoor concentrations of NO2, SO2, and ozone are associated with the use of solid fuels and are influenced by seasonal variations affecting both indoor and outdoor environments.
The concentrations of nitrogen dioxide (NO2), sulfur dioxide (SO2) and ozone (O-3) were determined at 20 locations (10 urban and 10 rural) in both indoor (cooking areas) and ambient air in the Nsukka area during two one-week sampling periods in both dry (11-January 26, 2019) and wet (11-August 22, 2017) seasons. During the dry season, the pollutants were also measured in the living rooms (urban and rural locations) and bedrooms (urban locations). Radiello passive samplers were used to sample the target pollutants. The indoor concentration in the kitchens ranges from 15 to 722 mu g/m(3) (median: 174, IQR:74-336 mu g/m3) for NO2, 3-101 mu g/m(3) (median: 5, IQR:4-9 mu g/m(3)) for SO2 and 2-46 mu g/m(3) (median: 10, IQR:5-15 mu g/m(3)) for ozone. Within the urban household, the median concentrations of the NO2 (94, IQR: 64-175 mu g/m(3)) in the kitchens were larger than in other rooms by at least a factor 2, in contrast to SO2 (3-4 mu g/m(3)) and O-3 (14-20 mu g/m3) median levels which were respectively similar in all the rooms. The indoor to outdoor (I/O) ratio with respect to the kitchens varied from 2 to 435 for NO2 and 0.6 to 25 for SO2. The O-3 levels could be a factor 8, 18 and 25 higher outdoors than found respectively in the kitchens, living rooms and the bedrooms. The concentrations of NO2 are higher in households using solid fuels such as firewood (101-722 mu g/m(3); n = 11) and charcoal (134-356 mu g/m(3); n = 2) compared to those using LPG (19-174 mu g/m(3); n = 4). Seasonal variation of the concentration levels was observed for both indoor and outdoor environments, the outdoor concentrations of NO2, (median: 22 mu g/m(3), range: 10-72 mu g/m(3)), and O-3 (median: 64 mu g/m3, range:14-106 mu g/ m(3)) in dry season were significantly (p <= 0.001) larger than the corresponding levels (median: 4 mu g/m(3) range:1-28 mu g/m(3)) and (median: 10 mu g/m3, range: 8-13 mu g/m(3)) respectively in wet season. The concentration levels of outdoor SO2 (median: 4 mu g/m3, range: 3-5 mu g/m3) median: 4 mu g/m(3), range: 3-4 mu g/m(3) were similar in both seasons. The dry season indoor SO2 (median: 9 mu g/m3, range:3-101 mu g/m(3)) and O-3 (median: 15 mu g/m(3), range: 10-46 mu g/m(3)) are larger than the corresponding (median: 5 mu g/m(3), range: 4-8 mu g/m(3)) and (median: 5 mu g/ m(3), range: 2-15 mu g/m(3)) wet season levels. However, the concentration of indoor NO2 (median 174 mu g/m(3), range: 18-480 mu g/m(3)) in the dry season was lower than found (median 207 mu g/m(3), range: 15-722 mu g/m3) in wet seasons. This work provides some novel data indicating poor indoor air quality in the study area.

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