Air pollution exposure when cooking with electricity compared to gas

Autor: Carlos F. Gould, Lissete Dávila, M. Lorena Bejarano, Marshall Burke, Darby W. Jack, Samuel B. Schlesinger, José R. Mora, Alfredo Valarezo
Rok vydání: 2023
DOI: 10.1101/2023.04.10.23288249
Popis: We report small-sample evidence from a randomized experiment among a set of urban Ecuadorian households who owned both electric induction and gas stoves. We randomly assigned households to cook only with one stove during a prescribed two-day monitoring period, and then cook only with the other stove in a subsequent two-day period. The order of stove use was randomized, and air pollution was measured during each period. We found that mean 48-hour personal NO2exposure was 9.9 ppb higher (95% CI, 4.5-15.3) — a 50% increase over the 48-hour induction mean — when households were randomized to gas as compared to induction. Mean kitchen area NO2concentrations were 1 ppb higher (95% CI, 0.4-2.1) (a 6% increase) and mean personal PM2.5exposure was 11μgm−3higher (95% CI, -0.1-22.8) (a 44% increase) during study periods when randomized to gas. We use time-resolved cooking and pollution data to illustrate that these differences are driven by LPG cooking, which was associated with a 5.0 ppb increase in 5-minute average NO2kitchen area concentrations (95% CI, 3.4-6.7) and a 20.8μgm−3increase in 5-minute average personal PM2.5exposure (95% CI 8.9-32.6). In contrast, cooking with induction was not associated with changes to short-term NO2kitchen area concentrations, though it was associated with short-term increased personal PM2.5exposure (10.8, 95% CI, 5.7-15.9).
Databáze: OpenAIRE