Page 385 - Fundamentals of Air Pollution 3E
P. 385

340              20. Air Pollution Modeling and Prediction

        nance agreement has been purchased, obtaining the latest version of the
        model without having to check the sources of model information periodi-
        cally.



                                   REFERENCES

         1. Briggs, G. A., "Plume Rise." United States Atomic Energy Commission Critical Review
           Series, TID-25075. National Technical Information Service, Springfield, VA, 1969.
         2. Briggs, G. A., Some recent analyses of plume rise observation, in "Proceedings of the
           Second International Clean Air Congress" (H. M. Englund and W. T. Beery, eds.). Aca-
           demic Press, New York, 1971, pp. 1029-1032.
         3. Briggs, G. A., Atmos. Environ. 6, 507-510 (1972).
         4. Briggs, G. A., "Diffusion Estimation for Small Emissions." Atmospheric Turbulence and
           Diffusion Laboratory, Contribution File No. 79. (draft). Oak Ridge, TN, 1973.
         5. Briggs, G. A., Plume rise predictions, in "Lectures on Air Pollution and Environmental
           Impact Analysis" (D. A. Haugen, ed.). American Meteorological Society, Boston, 1975,
           Chapter 3 (59-111).
         6. Schere, K. L., and Demerjian, K. L., A photochemical box model for urban air quality
           simulation, in "Proceedings of the Fourth Joint Conference on Sensing of Environmental
           Pollutants." American Chemical Society, Washington, DC, 1978, pp. 427-433.
         7. Hanna, S. R., /. Air Pollut. Control Assoc. 21, 774-777 (1971).
         8. Novak, J. H., and Turner, D. B., /. Air Pollut. Control Assoc. 26, 570-575 (1976).
         9. Egan, B. A., and Mahoney, J., /. Appl Meteorol. 11, 312-322 (1972).
        10. Long, P. E., and Pepper, D. W., A comparison of six numerical schemes for calculating
           the advection of atmospheric pollution, in "Proceedings of the Third Symposium on
           Atmospheric Turbulence, Diffusion and Air Quality." American Meteorological Society,
           Boston, 1976, pp. 181-186.
        11. Businger, J. A., Wyngaard, J. C, Izumi, Y., and Bradley, E. F., /. Atmos. Sci. 28, 181-189
           (1971).
        12. Smith, F. B., A scheme for estimating the vertical dispersion of a plume from a source
           near ground level, in "Proceedings of the Third Meeting of the Expert Panel on Air
           Pollution Modeling." North Atlantic Treaty Organization Committee on the Challenges
           of Modern Society Pub. No. 14. Brussels, 1972. (National Technical Information Service
           PB 240-574.)
        13. Shir, C. C., /. Atmos. Sci. 30, 1327-1339 (1973).
        14. Hanna, S. R., Briggs, G. A., and Hosker, R. P., Jr., "Handbook on Atmospheric Diffusion,"
           DOE/TIC-11223. Technical Information Center, U.S. Department of Energy, Oak Ridge,
           TN, 1982.
        15. Eschenroeder, A. Q., and Martinez, J. R., "Mathematical Modeling of Photochemical
           Smog," No. IMR- 1210. General Research Corp., Santa Barbara, CA, 1969.
        16. U.S. Environmental Protection Agency, User's Guide for the Industrial Source Complex
           (ISC2) Dispersion Models. Vol. I—User Instructions, Vol. II—Description of Model Algo-
           rithms, Vol. HI—Guide to Programmers. Technical Support Division, Office of Air Quality
           Planning and Standards, Research Triangle Park, NC, 1992.
        17. Hanna, S. R., and Paine, R. J., /. Appl. Meteorol. 28, 3, 206-224 (1989).
        18. Hanna, S. R., and Chang, J. C., Modification of the Hybrid Plume Dispersion Model
           (HPDM) for urban conditions and its evaluation using the Indianapolis data set. Report
   380   381   382   383   384   385   386   387   388   389   390