Center for Air Resources Engineering and Science, Clarkson University, Potsdam, NY, USA.
Indoor Air. 2012 Dec;22(6):483-91. doi: 10.1111/j.1600-0668.2012.00783.x. Epub 2012 Apr 25.
Seven commercial cooking oils were investigated to determine the PM(2.5) mass and ultrafine particle (UFP) emission rates and emission fluxes (rates per area). The results of this study showed that at 197°C soybean, safflower, canola, and peanut oils produced lower PM(2.5) emission fluxes (6.1 × 10(5), 3.0 × 10(5), 5.4 × 10(5), and 3.9 × 10(5) μg/min/m(2), respectively) than corn, coconut, and olive oils (2.7 × 10(6), 2.9 × 10(6), and 5.7 × 10(6) μg/min/m(2), respectively). Similarly, the total particle number flux at 197°C was lower for soybean, safflower, and canola oils (3.5 × 10(13), 8.6 × 10(13), and 1.0 × 10(14) #/min/m(2), respectively) than the corn, coconut, olive, and peanut oils (2.4 × 10(14), 1.4 × 10(14), 1.7 × 10(14), and 3.8 × 10(14) #/min/m(2), respectively). In general, oils with a higher smoke temperature resulted in lower particle concentrations over the measured temperature range (131-197°C). The percentage of UFP (particle diameter D(p) 10-100 nm) to total particles (D(p) 10-500 nm) ranged from 76 to 99% for this temperature range. Particles below 10 nm in diameter were not measured. The particle number size distribution showed a polydisperse behavior with major mode sizes ranging from 25 nm (for peanut oil) to 82 nm (for soybean oil) at an oil temperature of 197°C.
The study presents particle number and mass concentrations, size distributions, emission rates, and emission fluxes from heating common cooking oils. The emission rates and emission fluxes can be used as inputs to models for indirect exposure analysis studies. The study may also be used to provide guidance on choosing oils that result in lower emission rates when heated.
研究了七种商业烹饪油,以确定 PM(2.5)质量和超细颗粒(UFP)排放率和排放通量(单位面积速率)。本研究结果表明,在 197°C 时,大豆油、红花油、菜籽油和花生油的 PM(2.5)排放通量(分别为 6.1×10(5)、3.0×10(5)、5.4×10(5)和 3.9×10(5)μg/min/m(2))低于玉米油、椰子油和橄榄油(分别为 2.7×10(6)、2.9×10(6)和 5.7×10(6)μg/min/m(2))。同样,在 197°C 时,大豆油、红花油和菜籽油的总颗粒数通量(分别为 3.5×10(13)、8.6×10(13)和 1.0×10(14)#/min/m(2))低于玉米油、椰子油、橄榄油和花生油(分别为 2.4×10(14)、1.4×10(14)、1.7×10(14)和 3.8×10(14)#/min/m(2))。一般来说,在测量的温度范围内,烟雾温度较高的油会导致较低的颗粒浓度。在 131-197°C 的温度范围内,UFP(粒径 D(p)10-100nm)占总颗粒(D(p)10-500nm)的百分比范围为 76-99%。直径小于 10nm 的颗粒未测量。颗粒数尺寸分布呈多分散性,在油温为 197°C 时,主要模态尺寸范围为 25nm(花生油)至 82nm(大豆油)。
