Details

Autor(en) / Beteiligte

• Reche, C.
• Viana, M.
• Rivas, I.
• Bouso, L.
• Àlvarez-Pedrerol, M.
• Alastuey, A.
• Sunyer, J.
• Querol, X.

Titel

Outdoor and indoor UFP in primary schools across Barcelona

Ist Teil von

• The Science of the total environment, 2014-09, Vol.493, p.943-953

Ort / Verlag

Kidlington: Elsevier B.V

Erscheinungsjahr

2014

Link zum Volltext

Quelle

MEDLINE

Beschreibungen/Notizen

• Indoor and outdoor measurements of real-time ultrafine particles (UFP; N10–700 in this study) number concentration and average diameter were collected twice at 39 primary schools located in Barcelona (Spain), with classrooms naturally ventilated under warm weather conditions. Simultaneous outdoor N concentration measurements at schools under different traffic exposures showed the important role of this source, with higher levels by 40% on average at schools near heavy traffic, highlighting thus the increased exposure of children due to urban planning decisions. A well-defined spatial pattern of outdoor UFP levels was observed. Midday increases in outdoor N levels mainly attributed to nucleation processes have been recorded both at high and low temperatures in several of the outdoor school sites (increasing levels by 15%–70%). The variation of these increases also followed a characteristic spatial pattern, pointing at schools' location as a key variable in terms of UFP load owing to the important contribution of traffic emissions. Indoor N concentrations were to some extent explained by outdoor N concentrations during school hours, together with average temperatures, related with natural ventilation. Outdoor midday increases were generally mimicked by indoor N concentrations, especially under warm temperatures. At specific cases, indoor concentrations during midday were 30%–40% higher than outdoor. The time scale of these observations evidenced the possible role of: a) secondary particle formation enhanced by indoor precursors or conditions, maybe related with surface chemistry reactions mediated by O3, and/or b) UFP from cooking activities. Significant indoor N increases were detected after school hours, probably associated with cleaning activities, resulting in indoor N concentrations up to 3 times higher than those in outdoor. A wide variability of indoor/outdoor ratios of N concentrations and mean UFP sizes was detected among schools and measurement periods, which seems to be partly associated with climatic conditions and O3 levels, although further research is required. •Indoor and outdoor UFP number concentrations and diameters measured at 39 schools•Indoor UFP exposures greatly determined by outdoor UFP concentrations•Indoor and outdoor levels by 40% higher at schools nearer heavy traffic•Midday N increases associated with nucleation processes mediated by photochemistry•High indoor/outdoor N ratios: cooking, surface chemistry reactions mediated by O3.