Application of active optical sensors to probe the vertical structure of the urban boundary layer and assess anomalies in air quality model PM2.5 forecasts

Chuen-Meei Gan; Yonghua Wu; L. M. Bomidi; Barry Gross; Fred Moshary

doi:10.1117/12.898360

7 October 2011 Application of active optical sensors to probe the vertical structure of the urban boundary layer and assess anomalies in air quality model PM_2.5forecasts

Chuen-Meei Gan, Yonghua Wu, L. M. Bomidi, Barry Gross, Fred Moshary

Author Affiliations +

Proceedings Volume 8182, Lidar Technologies, Techniques, and Measurements for Atmospheric Remote Sensing VII; 81820P (2011) https://doi.org/10.1117/12.898360
Event: SPIE Remote Sensing, 2011, Prague, Czech Republic

Abstract

In this paper, the simulations of the Weather Research and Forecast (WRF) and Community Multiscale Air Quality (CMAQ) Models applied to the New York City (NYC) area are assessed with the aid of vertical profiling and column integrated remote sensing measurements. First, we find that when turbulent mixing processes are dominant, the WRFderived planetary boundary layer (PBL) height exhibits a strong linear correlation (R>0.85) with lidar-derived PBL height. In these comparisons, we estimate the PBL height from the lidar measurements using a Wavelet Covariance Transform (WCT) approach that is modified to better isolate the convective layer from the residual layer (RL). Furthermore, the WRF-Lidar PBL height comparisons are made using different PBL parameterization schemes, including the Asymmetric Convective Model-version2 (ACM2) and the Modified Blackadar (BLK) scheme (which are both runs using hindcast data), as well as the Mellor-Yamada-Janjic (MYJ) scheme run in forecast mode. Our findings show that the correlations for these runs are high (>0.8), but the hindcast runs exhibit smaller overall dispersion (≈0.1) than the forecast runs. We also apply continuous 24-hour/7-day vertical ceilometer measurements to assess WRFCMAQ model forecasts of surface PM_2.5 (particulate matter has aerodynamic diameter <2.5μm). Strong overestimations in the surface PM_2.5 mass that are observed in the summer prior to sunrise are particularly shown to be strongly connected to underestimations of the PBL height and less to enhanced emissions. This interpretation is consistent with observations that TEOM (Tapered Element Oscillating MicroBalance) PM_2.5 measurements are better correlated to pathintegrated CMAQ PM_2.5 than the near-surface measurements during these periods.

Citation Download Citation

Chuen-Meei Gan, Yonghua Wu, L. M. Bomidi, Barry Gross, and Fred Moshary "Application of active optical sensors to probe the vertical structure of the urban boundary layer and assess anomalies in air quality model PM_2.5forecasts", Proc. SPIE 8182, Lidar Technologies, Techniques, and Measurements for Atmospheric Remote Sensing VII, 81820P (7 October 2011); https://doi.org/10.1117/12.898360

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