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- Title
Averaging period effects on the turbulent flux and transport efficiency during haze pollution in Beijing, China.
- Authors
Guo, Xiaofeng; Yang, Ting; Sun, Yele
- Abstract
Based on observations at the heights of 140 and 280 m on the Beijing 325-m meteorological tower, this study presents an assessment of the averaging period effects on eddy-covariance measurements of the momentum/scalar flux and transport efficiency during wintertime haze pollution. The study period, namely from January 6 to February 28 2013, is divided into different episodes of particulate pollution, as featured by varied amounts of the turbulent exchange and conditions of the atmospheric stability. Overall, turbulent fluxes of the momentum and scalars (heat, water vapor, and CO) increase with the averaging period, namely from 5, 15, and 30 up to 60 min, an outcome most evident during the 'transient' episodes (each lasting for 2-3 days, i.e., preceded and followed by clean-air days with mean concentrations of PM less than 40 μg m). The conventional choice of 30 min is deemed to be appropriate for calculating the momentum flux and its transport efficiency. By comparison, scalar fluxes and their transport efficiencies appear more sensitive to the choice of an averaging period, particularly at the upper level (i.e., 280 m). It is presupposed that, for urban environments, calculating the momentum and scalar fluxes could invoke separate averaging periods, rather than relying on a single prescription (e.g., 30 min). Furthermore, certain characteristics of urban turbulence are found less sensitive to the choice of an averaging period, such as the relationship between the heat-to-momentum transport efficiency and the local stability parameter.
- Subjects
BEIJING (China); EDDY flux; POLLUTION; METEOROLOGY; PARTICULATE matter
- Publication
Meteorology & Atmospheric Physics, 2015, Vol 127, Issue 4, p419
- ISSN
0177-7971
- Publication type
Article
- DOI
10.1007/s00703-015-0378-0