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S. PAL
ARYA
 ProfessorTel. (919) 515-7002 E-mail: pal_arya@ncsu.edu Curriculum Vitae B.E., University of Roorkee, India Major: Civil Engineering, 1961 M.E., University of Roorkee, India Major: Civil Engineering, 1964 PhD, Colorado State University, Fort Collins, CO, 1968 TEACHING AND RESEARCH AREAS Prof. Arya teaches an undergraduate course in micrometeorology and graduate courses in environmental fluid mechanics, air pollution meteorology, planetary boundary layer, atmospheric turbulence, and atmospheric dispersion. He has advised many undergraduate and graduate (MS and PhD) students in meteorology and atmospheric sciences. He has published more than 110 papers, articles, and book chapters and three books. SELECTED PUBLICATIONS: Air Pollution Meteorology and Dispersion. Oxford University Press, New York, 301 pp., 1999. Large Eddy Simulation of Aircraft Wake Vortices within Homogeneous Turbulence: Crow Instability (with J. Han, Y.-L. Lin, D.G. Schowalter, and F.H. Proctor). AIAA Journal, 38, 292-300, 2000. Climatology of Diurnal Trends and Vertical Distribution of Ozone in the Atmospheric Boundary Layer in Urban North Carolina (with V.P. Aneja, Y. Li, G.C. Murray and T.L. Manuszak). Journal of Air and Waste Management Association, 50, 54-64, 2000. Large Eddy Simulation of Wake Vortices in the Convective Boundary Layer (with Y.-L. Lin, J. Han, J. Zhang, F. Ding, and F.H. Proctor). AIAA2000-0753, Proc. 38th Aerospace Sciences Meeting and Exhibit, Reno, Nevada; American Institute of Aeronautics and Astronautics, Reston, VA, 8 pp., 2000. Numerical Study of Wake Vortex Decay and Descent in Homogeneous Atmospheric Turbulence (with J. Han, Y.-L. Lin, and F.H. Proctor). AIAA Journal, 38, 643-656, 2000. An Observational Based Analysis of Ozone Trends and Production for Urban Areas in North Carolina (with V.P. Aneja and A.A. Adams). Chemosphere-Global Change Science, 2, 157-165, 2000. Large-Eddy Simulations of the Atmospheric Boundary Layer Using a New Subgrid-Scale Model. I. Slightly Unstable and Neutral Cases (with F. Ding and Y.-L. Lin). Environmental Fluid Mechanics, 1, 29-47, 2001. Large-Eddy Simulations of the Atmospheric Boundary Layer Using a New Subgrid-Scale Model. II. Weakly and Moderately Stable Cases (with F. Ding and Y.-L. Lin). Environmental Fluid Mechanics, 1, 49-69, 2001. Introduction to Micrometeorology, Second Edition. Academic Press, San Diego, 420pp., 2001. Experimental study of the Criteria of Flow Laminarization in Two-Dimension Dense Gas Plumes (with J. Ding and W.H. Snyder). Environmental Fluid Mechanics, 1, 281-309, 2001. |
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