Last Modified

• March 19, 2019

Creator

• Kolling, Jenna S.
  • Affiliation: Gillings School of Global Public Health, Department of Environmental Sciences and Engineering

Abstract

• Although there have been a variety of planetary boundary layer (PBL) schemes developed to represent the effects of turbulence in daytime convective conditions, uncertainties correlated with these schemes remain a large source of inaccuracy in meteorology and air quality model simulations. This study evaluates a new combined local and nonlocal closure PBL scheme, the Asymmetric Convective Model, version 2 (ACM2) in eastern Texas against PBL observations taken from ten radar wind profilers, a ground-based lidar, and multiple daytime radiosonde balloon launches. Comparisons are made between these observations and outputs from the Weather Research and Forecasting (WRF) model version 3.1 with the ACM2 PBL scheme option, as well as outputs from the meteorological modeling that is currently being used to develop ozone control strategies in the HGB area. Results show that the WRF-ACM2 combination is much more accurate at representing the spatial and temporal evolution of the PBL in Eastern Texas.

Date of publication

• August 2011

DOI

• https://doi.org/10.17615/jgnh-4p79

Resource type

• Masters Thesis

Rights statement

• In Copyright

Note

• "... in partial fulfillment of the requirements for the degree of Master of Science in the Environmental Sciences and Engineering."

Advisor

• Vizuete, William

Language

• English

Publisher

• University of North Carolina at Chapel Hill

Place of publication

• Chapel Hill, NC

Access

• Open access

Parents:

This work has no parents.

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